Title of Invention	A PHARMACEUTICAL COMPOSITION FOR DIABETIC NEPHROPATHY AND ITS PREPARATION AND APPLICATION
Abstract	The invention relates to application of 4, 4"-diphenylmethane-bis (methyl) carbamates (DPMC) extracted and isolated from Cortex Mori and preparation of medicine for diabetic nephropathy. The pharmaceutical composition is made up of DPMC as active ingredient and the normal drug carriers, and the weight percentage of active ingredient is 0.1-99.5%. For the remarkable effect of prevention and cure for diabetic nephropathy and convenience for use, it will be a new facultative drug for patients.

Title of Invention

A PHARMACEUTICAL COMPOSITION FOR DIABETIC NEPHROPATHY AND ITS PREPARATION AND APPLICATION

Abstract

The invention relates to application of 4, 4"-diphenylmethane-bis (methyl) carbamates (DPMC) extracted and isolated from Cortex Mori and preparation of medicine for diabetic nephropathy. The pharmaceutical composition is made up of DPMC as active ingredient and the normal drug carriers, and the weight percentage of active ingredient is 0.1-99.5%. For the remarkable effect of prevention and cure for diabetic nephropathy and convenience for use, it will be a new facultative drug for patients.

Full Text	FIELD OF THE INVENTION The present invention relates to the field on preparation of traditional Chinese medicine, in particular to the preparation of a pharmaceutical composition whose active ingredient is 4,4'-diphenylmethane-bis(methyl) carbamates (DPMC) for diabetic nephropathy and its application. BACKGROUND OF THE INVENTION Diabetes mellitus and its chronic complications have seriously affected the healthy and life quality of human being. The number of patient has increased in recent years and the attack rate of diabetic nephropathy in every age group is 2.8% in 2000 when in 2030 is predicted to be 4.4% all around the world, which means that the number of diabetic patient will increase from 1.71 hundred millions in 2000 to 3.33 hundred million in 2030. With the increasing attack rate every year, the quantities of patients in China has been second only India. Therefore, the prevention and cure of diabetic and its complications has been a very important topic these days. Diabetic nephropathy (DN), one of the important complications of diabetic, has been the first place of diseases which leads to the final stage of renal failure. As shown by the data of world health organization that about 30% of I type and 25%- 40% II type diabetic patients would improve to be DN patients if the blood glucose was not controlled. Because of delitescence and difficult to discover of DN in earlier period, it will can not be reverse when the symptom of renal affection appears. The yearlong diabetic can destroy filtration function of renal and express as microamount albuminuria. With the extend of disease course, albuminuria will increase and the ability of renal for eliminating toxin in blood decays gradually, which leads to the end stage renal disease (ESRD) and the patients can only maintain their life by hematodialysis or kidney transplant. Thereby, it is badly need to deeply elucidate the mechanism of DN, rich and consummate the measures of prevention and cure. Advanced glycation end products (AGES) is a covalence conjugate of macromolecule and glyc-carbonyl without catalysis of enzyme. Under the condition of catalysis of non-enzyme, firstly the reversible Schiffs base is formed by free aldehyde of amylaceum molecule and amino group of protein, secondary stationary ketoamine compounds (Amadori products) are formed by the structural rearrangement of Schiffs base, then the stationary and nonreversible AGEs are formed after the reactions of dehydration, oxidation and condensation. AGEs relates closely to the the complication of diabetic because it is easy to form the cross-linking agent with the biomacromolecule of protein, nucleic acid, lipide and so on, and then deposit in cells, interfere the normal functions of cell. The interactions of AGEs and RAGE, which lead to produce or activate of many cytokines of proinflammatory factor and profibrosis factor, and lead to the patho-changes of cell hypertrophia, base material accrementition and fibrosis of glomerulus, take great effect on the generation and development of diabetic nephropathy and is one of the etiological factors. Therefore, intervention of the formation of AGES, elimination of the AGEs had formatted and amendment of the renal disease symptom induced by AGEs can prevent and cure the DN (Bohlender JM, Franke S, Stein G, et a1. Advanced glycation end products and the kidney. Am J Physiol Renal Physiol, 2005, 289(4): 645-659). Cortex Mori, the dry root cortex of Morus alba L., tastes sweet, frigidity and possesses the functions of removing heat from lung and relieving asthima, inducing diuresis to alleviate edema. Cortex Mori is usually used for dyspnea and cough due to lung-heat, oliguria due to dropsy and turg, puffiness of face muscle and skin. The recent pharmacology researches showed that the Cortex Mori possessed the activities of lowering blood sugar and blood pressure, diuresis, preventing cough and relieving asthima, anti-HIV, anti-tumor and so on. Since the active ingredients of 1- deoxynojirimycin and moran A for lowering blood sugar were isolated from Cortex Mori, more and more scholars are looking for new active ingredients of lowering blood sugar from Cortex Mori and next to improve a new drug for diabetic. DPMC is a new natural produce which is first time isolated from the extract of Cortex Mori and the synthetics produce of DPMC used only in chemical engineering field before is to prepare Diphenylmethane diisocyanate (MDI) which is the main material of polyurethane. Up till now, few of domestic or overseas literatures have been reported about the DPMC used in medical field. SUMMARY OF THE INVENTION It is an object of the invention to provide a pharmaceutical composition for diabetic nephropathy and its preparation, the active ingredient of the pharmaceutical composition is DPMC extracted from Cortex Mori. To achieve the above object, the technical solution is as follows: A pharmaceutical composition for diabetic nephropathy, the pharmaceutical composition is made up of DPMC and the conventional drug carrier; the active ingredient is in a percentage of 0.1- 99.5% by weight. Preferably, the active ingredient is in a percentage of 5- 70% by weight. The conventional drug carrier used in the pharmaceutical composition of the present invention is the conventional drug carrier of medical area. For example, the diluent and excipient is water; the filler is starch, sucrose, lactose and so on; the adhesive is cellulose derivate, alginate, gelatin or polyvinylpyrrolidone; the wetting agent is glycerine; the disintegrant is selected from agar, calcium carbonate or sodium bicarbonate; the absorption enhancer is quaternary ammonium compound; the surfactant is palmityl alcohol; the adsorption carrier is kaolin clay or soap clay; the lubricant is talc, calcium stearate, magnesium stearate or polyethylene glycol. In addition, other adjuvant such as flavor agent, sweetener can also be added to the composition. By using normal methods of preparation, the pharmaceutical composition of the present invention can be prepared into normal dosage form which mainly is oral preparation, for example , the solid preparation is pellet, drug granules, pills, power, granulate, capsule, and the liquid preparation is aqua or oil suspending agent, elix and so on. Preferably, the pharmaceutical composition is pellet, drug granules, pills or capsule. The dosage of the pharmaceutical composition can be adjusted according the administer way and the severity degree of disease. Normally, the oral reference dosage of clinic is 20-120mg/d. It is a further object of the present invention to provide method for preparing the pharmaceutical composition of claim 1, comprising: mixing the 4, 4'- diphenylmethane-bis (methyl) carbamates with the conventional drug carrier; preparing according the specific preparation process to obtain the pharmaceutical composition. Preferably, the method of preparing the 4, 4'-diphenylmethane-bis (methyl) carbamates is as follows: A. Triturate the dry root cortex of Cortex Mori to power, add water and extract under reflux, combine the extract, concentrate to a certain volume under vacuum; B. Add to the macroporous resin, elute with water, then with 95% EtOH, collect the elution of 95% EtOH and concentrate under vacuum; C. Add to the silica gel and elute with petroleum, petroleum-acetic ether 100:1, petroleum-acetic ether 50:1, respectively, and a colorless lamellar crystal is attained from the elution of petroleum-acetic ether 50:1. The pharmaceutical composition can be prepared according the normal preparation method in the pharmaceutical field. For example, mix the active ingredient and multi-carriers, then prepare into the dosage form as desired. The present invention also provides the application of DPMC in preparing a pharmaceutical composition for diabetic nephropathy and its complications. Preferably, the application is the application of DPMC in preparing the pharmaceutical composition for diabetic nephropathy. ADVANTAGES OF THE INVENTION 1 In this invention, DPMC is first time isolated from Cortex Mori and proved to possess the function of lowering the blood sugar, which indicate to provide the new drug for the patients of diabetic and complications of diabetic. 2 The pharmaceutical composition can be prepared into the oral dosage form such as drug granules, dripping pills, powder preparation for infusion, pellet and is convenient for use. 3 The pharmaceutical composition possesses noticeable effect on the prevention and cure for the damage of glomerulus in diabetic. The pharmaceutical composition can remarkably prevent the rise of serum creatinine and lower the urinary volume, urine protein, and kidney index of rat in diabetic, which prove that the pharmaceutical composition takes a remarkable effect on the prevention and cure on diabetic nephropathy. 4 The pharmaceutical composition is obviously more effective than the water extract of Cortex Mori for diabetic nephropathy. In addition, because of the definite active ingredient and the easy control of quality, it can overcome the disadvantages of the traditional Chinese medicine in uncertainty of active ingredient, bad control of quality, many certain toxic side effects and so on. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 shows the effect of DPMC on the express of TGFp-1 of rat mesangial cells induced byAGEs (200x); wherein A: normal control group; B: AGEs (5mM/L); C: negative control group; D: water extract of Cortex Mori (0.1mg/ml); E: DPMC (0.5nM/L); F: DPMC (5nM/L); G: DPMC (25nM/L); H: DPMC (125nM/L). DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT The present invention will be further explained in the embodiments hereinafter. EXEMPLE 1: Preparation of DPMC Triturate 10kg dry root cortex of Cortex Mori to fine power, add 100L water and extract under reflux for 2 hours thrice, combine the extract, concentrate to a certain volume under vacuum, add to the D101 macroporous resin, elute with water, then with 95% EtOH, collect the 95% EtOH elution and concentrate under vacuum, then add to the silica gel and elute with petroleum, petroleum-acetic ether 100:1, petroleum-acetic ether 50:1, respectively. A colorless lamellar crystal educes from the elution of petroleum-acetic ether 50:1. The structure was identified as 4 4'- diphenylmethane-bis (methyl) carbamates (DPMC) by infrared spectra, ultraviolet spectra, nuclear magnetic resonance and mass spectra. Molecular formula: C17H18N2O4; molecular weight: 314. The structure is shown as below: EXAMPLE 2: Pellet pill preparation of the pharmaceutical composition The component per pill: DPMC 12mg Lactose 175mg Amylum maydis 50mg Magnesium stearate 3mg Method of preparation: combine the DPMC, lactose and starch, moisten uniformly with water, sieve the combination and dry, sieve again, add Magnesium stearate, then crush the combination into tablet with 240mg per pill and 12mg active ingredient. The pellet pill takes a satisfactory effort on disease of high urine protein and diabetic nephropathy. EXAMPLE 3: Capsule preparation of the pharmaceutical composition Steps: A Take 4.2g beeswax, add 125g efamol, melt and mix under 80°C water bath, allow to cool to the room temperature (25°C), then add sufficient quantity of butylated hydroxyarisol, mix thoroughly; B Add 0.25g DPMC sieved with 100 mesh cribble and 5g lecithin, add 250g efamol, mix thoroughly as the core liquid of capsule, prepare to 1000 capsules. The capsules prepared in the example take a satisfactory effect on hyperglycemia and diabetic nephropathy. EXAMPLE 4: Drop pill preparation of the pharmaceutical composition Recipe 15g DPMC, triturate to fine power sieved with 200 mesh cribble, add to 15g melted polyglycol 6000 base material, agitate thoroughly, prepare drop pills with dimethyl benzene silicon oil as the chiller, dry and finish the drop pill of 7- hydroxycoumarin. The drop pill takes a satisfactory effort on the disease for increase of serum creatinine and decrease of urine creatinine, diabetic nephropathy. EXAMPLE 5: Dispersible tablet preparation of the pharmaceutical composition Weight accurately the quantity of a prescription dose: 280g DPMC, 40g lactose. 70g cellulose microcrystalllsate, 5.25g polyvinylpolypyrrolid-one, 2.5g aspartame, 6g polyvidone and 4g kalium vicarbonicum, misce bene the main medicine and the adjuvant by half-and-half increase, sieve with 80 mesh cribble for 2 times, put the combination to a proper container, add quantity sufficient of 15% (g/100ml) polyethylene 6000 solved in 75% EtOH, prepare soft material and make the wet granules by crushing through the 20 mesh cribble, spread on the vitreous enamel plaque, dry under 70°C for 2 hours in baking even of airblast, weigh accurately the dry granules, add 2.25g the remaining polyvinylpolypyrrolidone and 1% (w/w) sodium dodecyl sulphate(SDS), mix uniformly, crush into 1000 pills with (t)7mm round chop- out die, then make the 1000 dispersible tablets of DPMC. The dispersible tablet takes a satisfactory effort on diabetic nephropathy and its complications. EXAMPLE 6: Pellet pill preparation of the pharmaceutical composition Active ingredient: 70g Cellulose microcrystalllsate: 0.4g Crush into lOOOpill Method of preparation: mix the active ingredient and cellulose microcrystallisate, prepare to soft material by moistening uniformly with water, make the combination into granules, sieve with 20 mesh cribble, dry under 80°C, sieve again, then crush into pills 70.4mg per pill and 70mg active ingredient per pill. The Pellet pill takes a satisfactory effort on diabetic nephropathy and its complications. DPMC is used in the medicine field in this invention, and in order to prove the effect on diabetic nephropathy DPMC is applied to the experiments of effect on matrix accrementition of mesangial cells induced byAGEs and effect on pathological changes of STZ diabetic nephropathy model rat. EXPERIMENT 1 Effect of DPMC on matrix accrementition of mesangial cells induced byAGEs The specific disease sign of diabetic nephropathy is the matrix indurascent of glomerulus intercapillary cells induced by increase of extracellular matrix in mesangial region. Mesangial cell is the main component of glomerulus mesenterium and takes an important role in sustaining the physiologic function of glomerulus with many functions of contraction, endocrine secretion, division growth, immunity and phagocytosis. AGEs can induce the extracellular matrix accrementition of mesangial cells, which is the important pathological change of diabetic nephropathy. 1. Material and agent Rat messangial cell line HBZY-1 (Wuhan cell & biology institute); DPMC, water extract of Cortex Mori; bovine serum albumin, D-amylaceum (sigma company); Newborn Calf Serum ( Sijiqing serum factory, Hangzhou); TGFp-1 antibody(Canta Cruz); DAB coloration system (Gene Tech Biotechnology CompanyLimited); hydroxyproline content determination kit (Nanjing Jiancheng company). 2. Experimental method 2.1 Preparation of water extract of Cortex Mori and AGEs Preparation of water extract of Cortex Mori Triturate quantity sufficient dry root cortex of Cortex Mori to power, add 10 time water and extract under reflux for 3 times, 2 hours per time, combine the extract, concentrate to a certain volume under vacuum for use. Preparation of water extract of AGEs Dissolved the 5% bovine serum albumin (BSA) without globulin and 0.5mol/L D- amylaceum in 0.2mol/L phosphate buffered solution (PBS, PH=7.2), filtrated with 0.22)um micropore film and incubated under 37°C for 60 days. After the incubation of the advanced glycation end products (AGEs) were finished, the umcombinated material was cleaned by extend dialyse method. Diluted to a necessary concentration and filtrated with 0.22^m micropore film. 2.2 Mesangial cells culture and staining Concentration and time determination of AGEs which induce the pathological changes of mesangial cells: Prepare of unicell suspension with HBZY-1 cells in log phase growth and DMEM medium with 5% newborn calf serum, take 100\|il/well (cell quantities: IxlO'^/well) to the 96-well plate, incubated under 5% CO2 incubator at 37°C for 24 hours, change with 100\|al the DMEM without serum and incubate another 24 hours to make the cells to anestrum (synchronization). Discard of the supernatant, add GO^il DMEM medium with 5% newborn calf serum and 10)al the different concentration of AGEs by gradient dilution with 6 repeat per group, incubate by gradient time, respectively, determinate the proliferation degree of rat mesangial cells by MTT. The result shows that 0.25mg/ml AGEs and incubating for 48h was the best condition for the experiment. Put the coverslips pre-treated by poly-L-lysine into 24-well cell culture plates, in order to make the HBZY-1 cells grow on until synchronization. Discard of the supernatant, add 800^1 DMEM medium, 100\|il AGEs (final concentration is 0.25mg/ml) in each medicine group, then add 100^1 water extract of Cortex Mori (final concentration is 0.1 g/L) or DPMC (final concentration is 0.5, 5, 25 or 125nM/L). The normal control group is added 1ml DEME medium when the AGEs group is added 900^1 DMEM medium and 100\|j,l AGEs (final concentration was 0.25mg/ml). Every group repeats for 6 times. Then, all the groups are incubated under 5% CO2 incubator at 37°C for 48h. Take suction of the cell supernatant for the content determination of hydroxyproline after the cells completely covered the coverslips and take out of the coverslips for immunocytochemistry staining. Steps of TGFp-1 staining: fix the coverslips covered by cells with 4% paraformaldehyde for SOmin, deactivate the endogenous horse radish peroxidase for lOmin with the 3% H2O2 solution of methanol prepared at that time, clean with distilled water for 3 times; block the non-specific antigen for 20 min with 5% BSA, add dropwise TGFp-l (1:500), remain under 4°C for one night, wash for 2 min with PBS (PH 7.4) for 3 times, add dropwise biotinylation antibody of goat anti mice, keep under 37 °Cfor 30 min, wash for 2 min with PBS (PH 7.4) for 3 times, add dropwise avidin-bioepiderm-peroxydase complex labeled by HRP, keep under 37 Dfor 30 min, wash for 5 min with PBS (PH 7.4) for 4 times, add dropwide 50\|j,l developer of DAB, color under room temperature for 15 min, clean uniformly with distilled water, stain lightly with hematoxylin again for 1 min, wash with water, dewater with alcohol, Permeabilizate with dimethyl benzene, cover the coverslip with neutro-gummi. 3 Statistical analysis Determinate the hydroxyproline content in cultured fluid of rat mesangial cells and express as x±s, analyze by f-test; observate the TGFp-1 expression in immunohistochemistry photo of rat mesangial cells under microscope. 4 Result Effect of DPMC on content increase of hydroxyproline in supernatant of rat mesangial cells induced by AGEs As shown in Table 1, water extract of Cortex Mori and different doses of DPMC all can decrease the content increase of hydroxyproline in supernatant of rat mesangial cells induced by AGEs. Moreover, the large dose of DPMC (125nM/L) performs best and is obviously better than the water extract of Cortex Mori. Table 1. Effect of DPMC on content increase of hydroxyproline in supernatant of rat mesangial cells induced by AGEs group dumber hydroxyproline(\|jg/ml) Normal control 6 -- 5.47±1.23** AGEs 6 -- 10.90±8.03 Extrs. ofCM 6 0.1mg/ml 7.54±1.52* DPMC 6 0.5nM/L 7.68±1.10* DPMC 6 5nM/L 7.76±1.2r DPMC 6 25nM/L 5.71±1.18* DPMC 6 125nM/L 4.76±0.58*# Vs AGEs group, P 4.2 Effect of DPMC on the TGFp-1 expression of rat mesangial cells induced by AGEs As shown in Fig. 1, AGEs can make the TGFp-1 expression of rat mesangial cells increase. The water extract of Cortex Mori and different doses of DPMC all can restrain the TGFp-1 expression increase of rat mesangial cells. Moreover, the large dose of DPMC (125nM/L) performs best and the different doses of DPMC are better than or equal to the water extract of Cortex Mori. EXPERIMENT 2 Effect on pathological changes of STZ diabetic nephropathy rat 1 Material and reagent Streptozotocin (Sigma);Wistar rat (offered by experimental animal center of southern medical university); BIOBASE-PEARL separate automatic biochemistry analyzer (Shandong BIOBASE Company). 2 method of experiment 2.1 Preparation of water extract of Cortex Mori Triturate quantity sufficient dry root cortex of Cortex Mori to power, add 10 time water and extract under reflux for 3 times, 2 hours per time, combine the extract, concentrate to a certain volume under vacuum for use. 2.2 Administration Model by administrating of low dose STZ for several times and determinate as the model rat of diabetic nephropathy, divide into 6 groups with 10 mice /group: model group, positive drug control group (aminoguanidine, l00mg/kg), water extract of Cortex Mori group, 3 different concentration doses of DPMC group (high dose group: 4mg/kg; middle dose group: 2mg/kg; low dose: Img/kg), normal control group. Each group is given the same volume corresponding drug in different concentration or physiological saline everyday by intragastric administration for 14 weeks. 3 Statistical analysis Collect the 24 hour urine after administration is over, calculate the urine volume and determinate the content of total protein of urine, micro-albumen and urine creatinine; obtain blood by eye sockets and determinate the biochemical indicator with automatic biochemistry analyzer; take out of the double kidneys, fix with formalin and remain to histopathologic examination. Statistical analysis of all determinations is calculated by interclass f-test and expressed asx±s. 4 Result 4.1 Effect of DPMC on 24 hour urine volume, total protein of urine, micro- albumen and urine creatinine for rat model of diabetic nephropathy induced by STZ As shown in Table 2, in model group, the 24 hours urine volume, eject volume of urine total protein and micro-albumen increase, and eject volume of creatinine in urine decrease obviously; nevertheless, the extract of Cortex Mori and the different doses all can restrain the changes above: decrease the 24 hour urine volume, lower the eduction volume of urine total protein and micro-albumen, increase the eduction volume of creatinine of diabetic nephropathy rat. Among these groups, the effect strengthens with the elevation of DPMC dose and the dose-effect relationship is obvious. Moreover, the effect of DPMC of large dose is obviously better than the water extract of Cortex Mori. Table 2 Effect of DPMC on urine volume, total protein of urine, micro-albumen and urine creatinine of rat (x±s,n=10) Rt d Urine V Tb tel """I"® quantity (mg/kg) (24hr,ml) protein(mg) Normal control 10 - 9.2±1.5 18.5±7.7 0.29±0.07 12.4±2.2 Model 10 - 65.6±25.3 79.4±29.2 1.63±0.85 1.0±0.3 10 100 36.2±21.7* 43.2±29.9* 1.00±0.27* 4.0±2.3** aminoguanidine Extra, of CM 10 2000 39.5±18.3* 56.1±25.2* 1.59±0.63 2.1±0.9* 10 1 59.9±21.8 69.1±20.4 1.57±0.56 1.4±0.6 DPMC 10 2 41.3±16.4* 54.0±17.4* 0.93±0.55# 2.9±1.2* 10 4 33.9±22.2* 46.2±21.6** 0.92±0.42# 4.3±2.0# Vs model group, P 4.2 Effect of DPMC on serum biochemical indicator for rat of diabetic nephropathy As shown in Table 3, extract of Cortex Mori and different dose of DPMC all can decrease the lever of serum total cholesterol (TC), malonaldehyde (MDA), serum creatinine (SC), blood urea nitrogen (BUN), AGEs and low-density lipoprotein (LDL), elevate the lever of serum superoxide dismutase (SOD) for diabetic nephropathy rat. With the elevation of dose, the effect of DPMC strengthen, moreover, the effect of all the concentration of DPMC are better than or equal to the water extract of Cortex Moh. Table 3 Effect of DPMC on serum biochemical indicator for rat of diabetic nephropathy (x±s, n=10) Vs model group, * P 4.3 Effect of DPMC on the CTGF expression and pathohistology of rat glomerulus In model of diabetic nephropathy As shown in Table 4, compared with the normal control group, the glomerulus CTGF expression in model of diabetic nephropathy increase (P Table 4. Effect of DPMC on the CTGF expression and pathohistology of rat glomerulus in model of diabetic nephropathy (x±s, n=10) Vs model group, * P WE CLAIM: 1. A pharmaceutical composition for diabetic nephropathy, wherein: the pharmaceutical composition is made up of 4, 4'-diphenylmethane-bis (methyl) carbamates as active ingredient, and the conventional drug carrier; the active ingredient is in a percentage of 0.1- 99.5% by weight. 2. The pharmaceutical composition of claim 1, wherein the active ingredient is in a percentage of 5- 70% by weight. 3. The pharmaceutical composition of claim 1 or 2, wherein the conventional drug carrier comprises at least one of diluent, excipient, filler, adhesive, wetting agent, dislntegrant, absorption enhancer, surfactant, adsorption carrier, lubricant, flavor agent and sweetener, wherein the excipient is water ; the filter is starch, sucrose or lactose; the adhesive at least one selected from a group consisting of cellulose derivative, alginate, gelatin and polyvinylpyrrolidone; the wetting agent is glycerine; the disintegrant is agar, calcium carbonate or sodium bicarbonate; the absorption enhancer is quaternary ammonium compound ; the surfactant is palmityl alcohol; the adsorption carrier is kaolin clay or soap clay; the lubricant is talc, calcium stearate, magnesium stearate or polyethylene glycol. 4. The pharmaceutical composition of claim 1 or 2, wherein the pharmaceutical composition can be prepared into a clinical dosage form such as pellet, drug granules, pills, capsule, or liquid formulation. 5. A method for preparing the pharmaceutical composition of claim 1, comprising: mixing the 4, 4'-diphenylmethane-bis (methyl) carbamates with the conventional drug carrier; preparing according the specific preparation process to obtain the pharmaceutical composition. 6. The method of claim 5, wherein the method of preparing the 4, 4'- diphenylmethane-bis (methyl) carbamates is as follows: D. triturate the dry root cortex of Cortex Mori to power, add water and extract under reflux, combine the extract, concentrate to a necessary volume under vacuum; E. add to the macroporous resin, elute with water, following with 95% EtOH, collect the elutlon of 95% EtOH and concentrate under vacuum; F. add to the silica gel and elute with petroleum, petroleum-acetic ether 100:1, petroleum-acetic ether 50:1, respectively, and a colorless lamellar crystal is attained from the elution of petroleum-acetic ether 50:1. 7. Use of 4, 4'-diphenylmethane-bis (methyl) carbamates in preparing a pharmaceutical composition for diabetic nephropathy.

Full Text

FIELD OF THE INVENTION

The present invention relates to the field on preparation of traditional Chinese medicine, in particular to the preparation of a pharmaceutical composition whose active ingredient is 4,4'-diphenylmethane-bis(methyl) carbamates (DPMC) for diabetic nephropathy and its application.

BACKGROUND OF THE INVENTION

Diabetes mellitus and its chronic complications have seriously affected the healthy and life quality of human being. The number of patient has increased in recent years and the attack rate of diabetic nephropathy in every age group is 2.8% in 2000 when in 2030 is predicted to be 4.4% all around the world, which means that the number of diabetic patient will increase from 1.71 hundred millions in 2000 to 3.33 hundred million in 2030. With the increasing attack rate every year, the quantities of patients in China has been second only India. Therefore, the prevention and cure of diabetic and its complications has been a very important topic these days. Diabetic nephropathy (DN), one of the important complications of diabetic, has been the first place of diseases which leads to the final stage of renal failure. As shown by the data of world health organization that about 30% of I type and 25%- 40% II type diabetic patients would improve to be DN patients if the blood glucose was not controlled. Because of delitescence and difficult to discover of DN in earlier period, it will can not be reverse when the symptom of renal affection appears. The yearlong diabetic can destroy filtration function of renal and express as microamount albuminuria. With the extend of disease course, albuminuria will increase and the ability of renal for eliminating toxin in blood decays gradually, which leads to the end stage renal disease (ESRD) and the patients can only maintain their life by hematodialysis or kidney transplant. Thereby, it is badly need to deeply elucidate the mechanism of DN, rich and consummate the measures of prevention and cure.

Advanced glycation end products (AGES) is a covalence conjugate of macromolecule and glyc-carbonyl without catalysis of enzyme. Under the condition of catalysis of non-enzyme, firstly the reversible Schiffs base is formed by free aldehyde of amylaceum molecule and amino group of protein, secondary stationary ketoamine compounds (Amadori products) are formed by the structural rearrangement of Schiffs base, then the stationary and nonreversible AGEs are formed after the reactions of dehydration, oxidation and condensation. AGEs relates closely to the the complication of diabetic because it is easy to form the cross-linking agent with the biomacromolecule of protein, nucleic acid, lipide and so on, and then deposit in cells, interfere the normal functions of cell. The interactions of AGEs and RAGE, which lead to produce or activate of many cytokines of proinflammatory factor and profibrosis factor, and lead to the patho-changes of cell hypertrophia, base material accrementition and fibrosis of glomerulus, take great effect on the generation and development of diabetic nephropathy and is one of the etiological factors. Therefore, intervention of the formation of AGES, elimination of the AGEs had formatted and amendment of the renal disease symptom induced by AGEs can prevent and cure the DN (Bohlender JM, Franke S, Stein G, et a1. Advanced glycation end products and the kidney. Am J Physiol Renal Physiol, 2005, 289(4): 645-659).

Cortex Mori, the dry root cortex of Morus alba L., tastes sweet, frigidity and possesses the functions of removing heat from lung and relieving asthima, inducing diuresis to alleviate edema. Cortex Mori is usually used for dyspnea and cough due to lung-heat, oliguria due to dropsy and turg, puffiness of face muscle and skin. The recent pharmacology researches showed that the Cortex Mori possessed the activities of lowering blood sugar and blood pressure, diuresis, preventing cough and relieving asthima, anti-HIV, anti-tumor and so on. Since the active ingredients of 1- deoxynojirimycin and moran A for lowering blood sugar were isolated from Cortex Mori, more and more scholars are looking for new active ingredients of lowering blood sugar from Cortex Mori and next to improve a new drug for diabetic. DPMC is a new natural produce which is first time isolated from the extract of Cortex Mori and the synthetics produce of DPMC used only in chemical engineering field before is to prepare Diphenylmethane diisocyanate (MDI) which is the main material of polyurethane. Up till now, few of domestic or overseas literatures have been reported about the DPMC used in medical field.

SUMMARY OF THE INVENTION

It is an object of the invention to provide a pharmaceutical composition for diabetic nephropathy and its preparation, the active ingredient of the pharmaceutical composition is DPMC extracted from Cortex Mori.
To achieve the above object, the technical solution is as follows:
A pharmaceutical composition for diabetic nephropathy, the pharmaceutical composition is made up of DPMC and the conventional drug carrier; the active ingredient is in a percentage of 0.1- 99.5% by weight.
Preferably, the active ingredient is in a percentage of 5- 70% by weight.
The conventional drug carrier used in the pharmaceutical composition of the present invention is the conventional drug carrier of medical area. For example, the diluent and excipient is water; the filler is starch, sucrose, lactose and so on; the adhesive is cellulose derivate, alginate, gelatin or polyvinylpyrrolidone; the wetting agent is glycerine; the disintegrant is selected from agar, calcium carbonate or sodium bicarbonate; the absorption enhancer is quaternary ammonium compound; the surfactant is palmityl alcohol; the adsorption carrier is kaolin clay or soap clay; the lubricant is talc, calcium stearate, magnesium stearate or polyethylene glycol. In addition, other adjuvant such as flavor agent, sweetener can also be added to the composition.
By using normal methods of preparation, the pharmaceutical composition of the present invention can be prepared into normal dosage form which mainly is oral preparation, for example , the solid preparation is pellet, drug granules, pills, power, granulate, capsule, and the liquid preparation is aqua or oil suspending agent, elix and so on.
Preferably, the pharmaceutical composition is pellet, drug granules, pills or capsule.
The dosage of the pharmaceutical composition can be adjusted according the administer way and the severity degree of disease. Normally, the oral reference dosage of clinic is 20-120mg/d.
It is a further object of the present invention to provide method for preparing the pharmaceutical composition of claim 1, comprising: mixing the 4, 4'- diphenylmethane-bis (methyl) carbamates with the conventional drug carrier; preparing according the specific preparation process to obtain the pharmaceutical composition.
Preferably, the method of preparing the 4, 4'-diphenylmethane-bis (methyl)
carbamates is as follows:
A. Triturate the dry root cortex of Cortex Mori to power, add water and extract under reflux, combine the extract, concentrate to a certain volume under vacuum;
B. Add to the macroporous resin, elute with water, then with 95% EtOH, collect the elution of 95% EtOH and concentrate under vacuum;
C. Add to the silica gel and elute with petroleum, petroleum-acetic ether 100:1, petroleum-acetic ether 50:1, respectively, and a colorless lamellar crystal is attained from the elution of petroleum-acetic ether 50:1.
The pharmaceutical composition can be prepared according the normal preparation method in the pharmaceutical field. For example, mix the active ingredient and multi-carriers, then prepare into the dosage form as desired.
The present invention also provides the application of DPMC in preparing a pharmaceutical composition for diabetic nephropathy and its complications. Preferably, the application is the application of DPMC in preparing the pharmaceutical composition for diabetic nephropathy.
ADVANTAGES OF THE INVENTION
1 In this invention, DPMC is first time isolated from Cortex Mori and proved to possess the function of lowering the blood sugar, which indicate to provide the new drug for the patients of diabetic and complications of diabetic.
2 The pharmaceutical composition can be prepared into the oral dosage form such as drug granules, dripping pills, powder preparation for infusion, pellet and is convenient for use.
3 The pharmaceutical composition possesses noticeable effect on the prevention and cure for the damage of glomerulus in diabetic. The pharmaceutical composition can remarkably prevent the rise of serum creatinine and lower the urinary volume, urine protein, and kidney index of rat in diabetic, which prove that the pharmaceutical composition takes a remarkable effect on the prevention and cure on diabetic nephropathy.
4 The pharmaceutical composition is obviously more effective than the water extract of Cortex Mori for diabetic nephropathy. In addition, because of the definite
active ingredient and the easy control of quality, it can overcome the disadvantages of the traditional Chinese medicine in uncertainty of active ingredient, bad control of quality, many certain toxic side effects and so on.
BRIEF DESCRIPTION OF THE DRAWINGS
Fig. 1 shows the effect of DPMC on the express of TGFp-1 of rat mesangial cells induced byAGEs (200x);
wherein A: normal control group; B: AGEs (5mM/L); C: negative control group; D: water extract of Cortex Mori (0.1mg/ml); E: DPMC (0.5nM/L); F: DPMC (5nM/L); G: DPMC (25nM/L); H: DPMC (125nM/L).
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
The present invention will be further explained in the embodiments hereinafter. EXEMPLE 1: Preparation of DPMC
Triturate 10kg dry root cortex of Cortex Mori to fine power, add 100L water and extract under reflux for 2 hours thrice, combine the extract, concentrate to a certain volume under vacuum, add to the D101 macroporous resin, elute with water, then with 95% EtOH, collect the 95% EtOH elution and concentrate under vacuum, then add to the silica gel and elute with petroleum, petroleum-acetic ether 100:1, petroleum-acetic ether 50:1, respectively. A colorless lamellar crystal educes from the elution of petroleum-acetic ether 50:1. The structure was identified as 4 4'- diphenylmethane-bis (methyl) carbamates (DPMC) by infrared spectra, ultraviolet spectra, nuclear magnetic resonance and mass spectra. Molecular formula: C17H18N2O4; molecular weight: 314. The structure is shown as below:
EXAMPLE 2: Pellet pill preparation of the pharmaceutical composition
The component per pill:
DPMC 12mg
Lactose 175mg
Amylum maydis 50mg
Magnesium stearate 3mg
Method of preparation: combine the DPMC, lactose and starch, moisten uniformly with water, sieve the combination and dry, sieve again, add Magnesium stearate, then crush the combination into tablet with 240mg per pill and 12mg active ingredient. The pellet pill takes a satisfactory effort on disease of high urine protein and diabetic nephropathy.
EXAMPLE 3: Capsule preparation of the pharmaceutical composition
Steps:
A Take 4.2g beeswax, add 125g efamol, melt and mix under 80°C water bath, allow to cool to the room temperature (25°C), then add sufficient quantity of butylated hydroxyarisol, mix thoroughly;
B Add 0.25g DPMC sieved with 100 mesh cribble and 5g lecithin, add 250g efamol, mix thoroughly as the core liquid of capsule, prepare to 1000 capsules.
The capsules prepared in the example take a satisfactory effect on hyperglycemia and diabetic nephropathy.
EXAMPLE 4: Drop pill preparation of the pharmaceutical composition
Recipe 15g DPMC, triturate to fine power sieved with 200 mesh cribble, add to 15g melted polyglycol 6000 base material, agitate thoroughly, prepare drop pills with dimethyl benzene silicon oil as the chiller, dry and finish the drop pill of 7- hydroxycoumarin. The drop pill takes a satisfactory effort on the disease for increase of serum creatinine and decrease of urine creatinine, diabetic nephropathy.
EXAMPLE 5: Dispersible tablet preparation of the pharmaceutical composition
Weight accurately the quantity of a prescription dose: 280g DPMC, 40g lactose.
70g cellulose microcrystalllsate, 5.25g polyvinylpolypyrrolid-one, 2.5g aspartame, 6g polyvidone and 4g kalium vicarbonicum, misce bene the main medicine and the adjuvant by half-and-half increase, sieve with 80 mesh cribble for 2 times, put the combination to a proper container, add quantity sufficient of 15% (g/100ml) polyethylene 6000 solved in 75% EtOH, prepare soft material and make the wet granules by crushing through the 20 mesh cribble, spread on the vitreous enamel plaque, dry under 70°C for 2 hours in baking even of airblast, weigh accurately the dry granules, add 2.25g the remaining polyvinylpolypyrrolidone and 1% (w/w) sodium dodecyl sulphate(SDS), mix uniformly, crush into 1000 pills with (t)7mm round chop- out die, then make the 1000 dispersible tablets of DPMC. The dispersible tablet takes a satisfactory effort on diabetic nephropathy and its complications.
EXAMPLE 6: Pellet pill preparation of the pharmaceutical composition
Active ingredient: 70g
Cellulose microcrystalllsate: 0.4g Crush into lOOOpill
Method of preparation: mix the active ingredient and cellulose microcrystallisate, prepare to soft material by moistening uniformly with water, make the combination into granules, sieve with 20 mesh cribble, dry under 80°C, sieve again, then crush into pills 70.4mg per pill and 70mg active ingredient per pill. The Pellet pill takes a satisfactory effort on diabetic nephropathy and its complications.
DPMC is used in the medicine field in this invention, and in order to prove the effect on diabetic nephropathy DPMC is applied to the experiments of effect on matrix accrementition of mesangial cells induced byAGEs and effect on pathological changes of STZ diabetic nephropathy model rat.
EXPERIMENT 1
Effect of DPMC on matrix accrementition of mesangial cells induced byAGEs
The specific disease sign of diabetic nephropathy is the matrix indurascent of glomerulus intercapillary cells induced by increase of extracellular matrix in mesangial region. Mesangial cell is the main component of glomerulus mesenterium and takes an important role in sustaining the physiologic function of glomerulus with many functions of contraction, endocrine secretion, division growth, immunity and phagocytosis. AGEs can induce the extracellular matrix accrementition of mesangial cells, which is the important pathological change of diabetic nephropathy.
1. Material and agent
Rat messangial cell line HBZY-1 (Wuhan cell & biology institute); DPMC, water extract of Cortex Mori; bovine serum albumin, D-amylaceum (sigma company); Newborn Calf Serum ( Sijiqing serum factory, Hangzhou); TGFp-1 antibody(Canta Cruz); DAB coloration system (Gene Tech Biotechnology CompanyLimited); hydroxyproline content determination kit (Nanjing Jiancheng company).
2. Experimental method
2.1 Preparation of water extract of Cortex Mori and AGEs
Preparation of water extract of Cortex Mori
Triturate quantity sufficient dry root cortex of Cortex Mori to power, add 10 time water and extract under reflux for 3 times, 2 hours per time, combine the extract, concentrate to a certain volume under vacuum for use.
Preparation of water extract of AGEs
Dissolved the 5% bovine serum albumin (BSA) without globulin and 0.5mol/L D- amylaceum in 0.2mol/L phosphate buffered solution (PBS, PH=7.2), filtrated with 0.22)um micropore film and incubated under 37°C for 60 days. After the incubation of the advanced glycation end products (AGEs) were finished, the umcombinated material was cleaned by extend dialyse method. Diluted to a necessary concentration and filtrated with 0.22^m micropore film.
2.2 Mesangial cells culture and staining
Concentration and time determination of AGEs which induce the pathological changes of mesangial cells:
Prepare of unicell suspension with HBZY-1 cells in log phase growth and DMEM medium with 5% newborn calf serum, take 100|il/well (cell quantities: IxlO'^/well) to the 96-well plate, incubated under 5% CO2 incubator at 37°C for 24 hours, change with 100|al the DMEM without serum and incubate another 24 hours to make the cells to anestrum (synchronization). Discard of the supernatant, add GO^il DMEM medium with 5% newborn calf serum and 10)al the different concentration of AGEs by gradient dilution with 6 repeat per group, incubate by gradient time, respectively, determinate the proliferation degree of rat mesangial cells by MTT. The result shows that 0.25mg/ml AGEs and incubating for 48h was the best condition for the experiment.
Put the coverslips pre-treated by poly-L-lysine into 24-well cell culture plates, in order to make the HBZY-1 cells grow on until synchronization. Discard of the supernatant, add 800^1 DMEM medium, 100|il AGEs (final concentration is 0.25mg/ml) in each medicine group, then add 100^1 water extract of Cortex Mori (final concentration is 0.1 g/L) or DPMC (final concentration is 0.5, 5, 25 or 125nM/L). The normal control group is added 1ml DEME medium when the AGEs group is added 900^1 DMEM medium and 100|j,l AGEs (final concentration was 0.25mg/ml). Every group repeats for 6 times. Then, all the groups are incubated under 5% CO2 incubator at 37°C for 48h. Take suction of the cell supernatant for the content determination of hydroxyproline after the cells completely covered the coverslips and take out of the coverslips for immunocytochemistry staining.
Steps of TGFp-1 staining: fix the coverslips covered by cells with 4% paraformaldehyde for SOmin, deactivate the endogenous horse radish peroxidase for lOmin with the 3% H2O2 solution of methanol prepared at that time, clean with distilled water for 3 times; block the non-specific antigen for 20 min with 5% BSA, add dropwise TGFp-l (1:500), remain under 4°C for one night, wash for 2 min with PBS (PH 7.4) for 3 times, add dropwise biotinylation antibody of goat anti mice, keep under 37 °Cfor 30 min, wash for 2 min with PBS (PH 7.4) for 3 times, add dropwise avidin-bioepiderm-peroxydase complex labeled by HRP, keep under 37 Dfor 30 min, wash for 5 min with PBS (PH 7.4) for 4 times, add dropwide 50|j,l developer of DAB, color under room temperature for 15 min, clean uniformly with distilled water, stain lightly with hematoxylin again for 1 min, wash with water, dewater with alcohol,
Permeabilizate with dimethyl benzene, cover the coverslip with neutro-gummi.
3 Statistical analysis
Determinate the hydroxyproline content in cultured fluid of rat mesangial cells and express as x±s, analyze by f-test; observate the TGFp-1 expression in immunohistochemistry photo of rat mesangial cells under microscope.
4 Result
Effect of DPMC on content increase of hydroxyproline in supernatant of rat mesangial cells induced by AGEs
As shown in Table 1, water extract of Cortex Mori and different doses of DPMC all can decrease the content increase of hydroxyproline in supernatant of rat mesangial cells induced by AGEs. Moreover, the large dose of DPMC (125nM/L) performs best and is obviously better than the water extract of Cortex Mori.
Table 1. Effect of DPMC on content increase of hydroxyproline in supernatant of rat mesangial cells induced by AGEs
group dumber hydroxyproline(|jg/ml)
Normal control 6 -- 5.47±1.23**
AGEs 6 -- 10.90±8.03
Extrs. ofCM 6 0.1mg/ml 7.54±1.52*
DPMC 6 0.5nM/L 7.68±1.10*
DPMC 6 5nM/L 7.76±1.2r
DPMC 6 25nM/L 5.71±1.18*
DPMC 6 125nM/L 4.76±0.58**#
Vs AGEs group, * P 4.2 Effect of DPMC on the TGFp-1 expression of rat mesangial cells induced by AGEs
As shown in Fig. 1, AGEs can make the TGFp-1 expression of rat mesangial cells increase. The water extract of Cortex Mori and different doses of DPMC all can restrain the TGFp-1 expression increase of rat mesangial cells. Moreover, the large dose of DPMC (125nM/L) performs best and the different doses of DPMC are better than or equal to the water extract of Cortex Mori.
EXPERIMENT 2
Effect on pathological changes of STZ diabetic nephropathy rat 1 Material and reagent
Streptozotocin (Sigma);Wistar rat (offered by experimental animal center of southern medical university); BIOBASE-PEARL separate automatic biochemistry analyzer (Shandong BIOBASE Company).
2 method of experiment
2.1 Preparation of water extract of Cortex Mori
Triturate quantity sufficient dry root cortex of Cortex Mori to power, add 10 time water and extract under reflux for 3 times, 2 hours per time, combine the extract, concentrate to a certain volume under vacuum for use.
2.2 Administration
Model by administrating of low dose STZ for several times and determinate as the model rat of diabetic nephropathy, divide into 6 groups with 10 mice /group: model group, positive drug control group (aminoguanidine, l00mg/kg), water extract of Cortex Mori group, 3 different concentration doses of DPMC group (high dose group: 4mg/kg; middle dose group: 2mg/kg; low dose: Img/kg), normal control group.
Each group is given the same volume corresponding drug in different concentration or physiological saline everyday by intragastric administration for 14 weeks.
3 Statistical analysis
Collect the 24 hour urine after administration is over, calculate the urine volume and determinate the content of total protein of urine, micro-albumen and urine creatinine; obtain blood by eye sockets and determinate the biochemical indicator with automatic biochemistry analyzer; take out of the double kidneys, fix with formalin and remain to histopathologic examination.
Statistical analysis of all determinations is calculated by interclass f-test and
expressed asx±s.
4 Result
4.1 Effect of DPMC on 24 hour urine volume, total protein of urine, micro- albumen and urine creatinine for rat model of diabetic nephropathy induced by STZ
As shown in Table 2, in model group, the 24 hours urine volume, eject volume of
urine total protein and micro-albumen increase, and eject volume of creatinine in urine decrease obviously; nevertheless, the extract of Cortex Mori and the different doses all can restrain the changes above: decrease the 24 hour urine volume, lower the eduction volume of urine total protein and micro-albumen, increase the eduction volume of creatinine of diabetic nephropathy rat. Among these groups, the effect strengthens with the elevation of DPMC dose and the dose-effect relationship is obvious. Moreover, the effect of DPMC of large dose is obviously better than the water extract of Cortex Mori.
Table 2 Effect of DPMC on urine volume, total protein of urine, micro-albumen
and urine creatinine of rat (x±s,n=10)
Rt d Urine V Tb tel """I"®
quantity (mg/kg) (24hr,ml) protein(mg)
Normal control 10 - 9.2±1.5** 18.5±7.7** 0.29±0.07** 12.4±2.2** Model 10 - 65.6±25.3 79.4±29.2 1.63±0.85 1.0±0.3
10 100 36.2±21.7* 43.2±29.9* 1.00±0.27* 4.0±2.3**
aminoguanidine
Extra, of CM 10 2000 39.5±18.3* 56.1±25.2* 1.59±0.63 2.1±0.9* 10 1 59.9±21.8 69.1±20.4 1.57±0.56 1.4±0.6 DPMC 10 2 41.3±16.4* 54.0±17.4* 0.93±0.55*# 2.9±1.2** 10 4 33.9±22.2* 46.2±21.6** 0.92±0.42*# 4.3±2.0**#
Vs model group, * P 4.2 Effect of DPMC on serum biochemical indicator for rat of diabetic nephropathy
As shown in Table 3, extract of Cortex Mori and different dose of DPMC all can decrease the lever of serum total cholesterol (TC), malonaldehyde (MDA), serum creatinine (SC), blood urea nitrogen (BUN), AGEs and low-density lipoprotein (LDL), elevate the lever of serum superoxide dismutase (SOD) for diabetic nephropathy rat. With the elevation of dose, the effect of DPMC strengthen, moreover, the effect of all the concentration of DPMC are better than or equal to the water extract of Cortex Moh.
Table 3 Effect of DPMC on serum biochemical indicator for rat of diabetic nephropathy (x±s, n=10)

Vs model group, * P 4.3 Effect of DPMC on the CTGF expression and pathohistology of rat glomerulus In model of diabetic nephropathy
As shown in Table 4, compared with the normal control group, the glomerulus CTGF expression in model of diabetic nephropathy increase (P Table 4. Effect of DPMC on the CTGF expression and pathohistology of rat glomerulus in model of diabetic nephropathy (x±s, n=10)

Vs model group, * P

WE CLAIM:

1. A pharmaceutical composition for diabetic nephropathy, wherein: the pharmaceutical composition is made up of 4, 4'-diphenylmethane-bis (methyl) carbamates as active ingredient, and the conventional drug carrier; the active ingredient is in a percentage of 0.1- 99.5% by weight.

2. The pharmaceutical composition of claim 1, wherein the active ingredient is in a percentage of 5- 70% by weight.

3. The pharmaceutical composition of claim 1 or 2, wherein the conventional drug carrier comprises at least one of diluent, excipient, filler, adhesive, wetting agent, dislntegrant, absorption enhancer, surfactant, adsorption carrier, lubricant, flavor agent and sweetener, wherein the excipient is water ; the filter is starch, sucrose or lactose; the adhesive at least one selected from a group consisting of cellulose derivative, alginate, gelatin and polyvinylpyrrolidone; the wetting agent is glycerine; the disintegrant is agar, calcium carbonate or sodium bicarbonate; the absorption enhancer is quaternary ammonium compound ; the surfactant is palmityl alcohol; the adsorption carrier is kaolin clay or soap clay; the lubricant is talc, calcium stearate, magnesium stearate or polyethylene glycol.

4. The pharmaceutical composition of claim 1 or 2, wherein the pharmaceutical composition can be prepared into a clinical dosage form such as pellet, drug granules, pills, capsule, or liquid formulation.

5. A method for preparing the pharmaceutical composition of claim 1, comprising: mixing the 4, 4'-diphenylmethane-bis (methyl) carbamates with the conventional drug carrier; preparing according the specific preparation process to obtain the pharmaceutical composition.

6. The method of claim 5, wherein the method of preparing the 4, 4'- diphenylmethane-bis (methyl) carbamates is as follows:
D. triturate the dry root cortex of Cortex Mori to power, add water and extract under reflux, combine the extract, concentrate to a necessary volume under vacuum;
E. add to the macroporous resin, elute with water, following with 95% EtOH, collect the elutlon of 95% EtOH and concentrate under vacuum;
F. add to the silica gel and elute with petroleum, petroleum-acetic ether 100:1,
petroleum-acetic ether 50:1, respectively, and a colorless lamellar crystal is attained from the elution of petroleum-acetic ether 50:1.

7. Use of 4, 4'-diphenylmethane-bis (methyl) carbamates in preparing a pharmaceutical composition for diabetic nephropathy.

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Patent Number

269864

Indian Patent Application Number

3954/CHENP/2010

PG Journal Number

47/2015

Publication Date

20-Nov-2015

Grant Date

12-Nov-2015

Date of Filing

25-Jun-2010

Name of Patentee

GUANGZHOU CONSUN MEDICINE RESEARCH & DEVELOPMENT COMPANY LIMITED

Applicant Address

NO.71, DONGPENG ROAD, EASTERN DISTRICT, ECONOMY TECHNOLOGY DEVELOPMENT PARK, GUANGZHOU 510 530, P.R.

Inventors:

#	Inventor's Name	Inventor's Address
1	ZHU, QUAN	NO.71, DONGPENG ROAD, EASTERN DISTRICT, ECONOMY TECHNOLOGY DEVELOPMENT PARK, GUANGZHOU 510 530, P.R.
2	SHI, XINGHUA	NO.71, DONGPENG ROAD, EASTERN DISTRICT, ECONOMY TECHNOLOGY DEVELOPMENT PARK, GUANGZHOU 510 530, P.R.
3	TANG, DAN	NO.71, DONGPENG ROAD, EASTERN DISTRICT, ECONOMY TECHNOLOGY DEVELOPMENT PARK, GUANGZHOU 510 530, P.R.
4	ZHENG, ZHAOGUANG	NO.71, DONGPENG ROAD, EASTERN DISTRICT, ECONOMY TECHNOLOGY DEVELOPMENT PARK, GUANGZHOU 510 530, P.R.
5	HE, BAO	NO.71, DONGPENG ROAD, EASTERN DISTRICT, ECONOMY TECHNOLOGY DEVELOPMENT PARK, GUANGZHOU 510 530, P.R.
6	DUAN, TINGTING	NO.71, DONGPENG ROAD, EASTERN DISTRICT, ECONOMY TECHNOLOGY DEVELOPMENT PARK, GUANGZHOU 510 530, P.R.
7	GU, FEI	NO.71, DONGPENG ROAD, EASTERN DISTRICT, ECONOMY TECHNOLOGY DEVELOPMENT PARK, GUANGZHOU 510 530, P.R.
8	CHENG, HUIQUAN	NO.71, DONGPENG ROAD, EASTERN DISTRICT, ECONOMY TECHNOLOGY DEVELOPMENT PARK, GUANGZHOU 510 530, P.R.
9	HUANG, XIAOLING	NO.71, DONGPENG ROAD, EASTERN DISTRICT, ECONOMY TECHNOLOGY DEVELOPMENT PARK, GUANGZHOU 510 530, P.R.
10	HUANG, YANXIA	NO.71, DONGPENG ROAD, EASTERN DISTRICT, ECONOMY TECHNOLOGY DEVELOPMENT PARK, GUANGZHOU 510 530, P.R.
11	WANG, RUSHANG	NO.71, DONGPENG ROAD, EASTERN DISTRICT, ECONOMY TECHNOLOGY DEVELOPMENT PARK, GUANGZHOU 510 530, P.R.

PCT International Classification Number

A61K31/27

PCT International Application Number

PCT/CN2009/000351

PCT International Filing date

2009-04-01

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	CN200910036716.6	2009-01-16	China