Molecular phylogenetic profiling of gut-associated bacteria in larvae and adults of flesh flies.

Flesh flies of the genus Sarcophaga (Diptera: Sarcophagidae) are carrion-breeding, necrophagous insects important in medical and veterinary entomology as potential transmitters of pathogens to humans and animals. Our aim was to analyse the diversity of gut-associated bacteria in wild-caught larvae and adult flesh flies using culture-dependent and culture-independent methods. Analysis of 16S rRNA gene sequences from cultured isolates and clone libraries revealed bacteria affiliated to Proteobacteria, Actinobacteria, Firmicutes and Bacteroidetes in the guts of larval and adult flesh flies. Bacteria cultured from larval and adult flesh fly guts belonged to the genera Acinetobacter, Bacillus, Budvicia, Citrobacter, Dermacoccus, Enterococcus, Ignatzschineria, Lysinibacillus, Myroides, Pasteurella, Proteus, Providencia and Staphylococcus. Phylogenetic analysis showed clone sequences of the genera Aeromonas, Bacillus, Bradyrhizobium, Citrobacter, Clostridium, Corynebacterium, Ignatzschineria, Klebsiella, Pantoea, Propionibacterium, Proteus, Providencia, Serratia, Sporosarcina, Weissella and Wohlfahrtiimonas. Species of clinically significant genera such as Ignatzschineria and Wohlfahrtiimonas spp. were detected in both larvae and adult flesh flies. Sequence analysis of 16S rRNA gene libraries supported culture-based results and revealed the presence of additional bacterial taxa. This study determined the diversity of gut microbiota in flesh flies, which will bolster the ability to assess microbiological risk associated with the presence of these flies. The present data thereby establish a platform for a much larger study.

Dental pulp stem cells immobilized in alginate microspheres for applications in bone tissue engineering.

AIM: To immobilize dental pulp stem cells (DPSC) in alginate microspheres and to determine cell viability, proliferation, stem cell characteristics and osteogenic potential of the immobilized DPSCs. METHODOLOGY: Human DPSCs isolated from the dental pulp were immobilized in 1% w/v alginate microspheres. Viability and proliferation of immobilized DPSCs were determined by trypan blue and MTT assay, respectively. Stem cell characteristics of DPSCs post immobilization were verified by labelling the cells with CD73 and CD90. Osteogenic potential of immobilized DPSCs was assessed by the presence of osteocalcin. Alizarin red staining and O-cresolphthalein complexone method confirmed and quantified calcium deposition. A final reverse transcriptase PCR evaluated the expression of osteogenic markers - ALP, Runx-2 and OCN. RESULTS: More than 80% of immobilized DPSCs were viable throughout the 3-week study. Proliferation appeared controlled and consistent unlike DPSCs in the control group. Presence of CD73 and CD90 markers confirmed the stem cell nature of immobilized DPSCs. The presence of osteocalcin, an osteoblastic marker, was confirmed in the microspheres on day 21. Mineralization assays showed high calcium deposition indicating elevated osteogenic potential of immobilized DPSCs. Osteogenic genes- ALP, Runx-2 and OCN were also upregulated in immobilized DPSCs. Surprisingly, immobilized DPSCs in the control group cultured in conventional stem cell media showed upregulation of osteogenic genes and expressed osteocalcin. CONCLUSION: Dental pulp stem cells immobilized in alginate hydrogels exhibit enhanced osteogenic potential while maintaining high cell viability both of which are fundamental for bone tissue regeneration.

Optimization of condition(s) towards establishment of primary islet cell cultures from WNIN/Ob mutant rat.

WNIN/Ob, a mutant rat strain, developed at the National Center for Laboratory Animal Sciences (NCLAS) facility of National Institute of Nutrition (NIN), is a new animal model to study the metabolic syndrome. These animals have 47% fat in their body and isolation of islets from these animals were compounded due to the formation of amorphous viscous and jelly like material which reduced the islet yield. However, islets isolated from WNIN adult (≥12 months) control rats gave a good islet recovery, under standard isolation procedures using collagenase digestion. In the present study we optimized culture conditions in WNIN/Ob rats to isolate islets with higher yield, and also established primary islet cell cultures from these mutant rats, retaining cellular integrity and functionality.

Enhanced neogenic potential of Panc-1 cells supplemented with human umbilical cord blood serum--An alternative to FCS.

The promise(s) of using Fetal Calf Serum (FCS) as a supplement for the maintenance of cell cultures has been well documented. However, FCS forms the xenogenic source for any human derived cells/organ and limits its application. Recently, the usage of human umbilical cord blood serum (hUCBS) for maintenance of mesenchymal cells has been supportive. In the present study we investigated the effects of hUCBS and FCS on the proliferation (viability, proliferative) and its differentiation potential (DTZ staining, immunofluroscence) to generate islet like cellular aggregates (ICAs) using the human derived Panc-1 cell lines. A comparative analysis of hUCBS and FCS for each parameter demonstrated that hUCBS supplemented media was better for proliferation and differentiation of the Panc-1 cells. The ICAs obtained from hUCBS primed cultures showed a higher yield, increased islet size, and showed an increase for insulin staining compared to FCS. We suggest that hUCBS can be explored as an alternate serum supplement for FCS, making it more feasible in cell systems of human derived origin and can also find its application for the human transplantation programmes.

Differentiation of dental pulp stem cells into islet-like aggregates.

The post-natal dental pulp tissue contains a population of multipotent mesenchymal progenitor cells known as dental pulp stromal/stem cells (DPSCs), with high proliferative potential for self-renewal. In this investigation, we explored the potential of DPSCs to differentiate into pancreatic cell lineage resembling islet-like cell aggregates (ICAs). We isolated, propagated, and characterized DPSCs and demonstrated that these could be differentiated into adipogenic, chondrogenic, and osteogenic lineage upon exposure to an appropriate cocktail of differentiating agents. Using a three-step protocol reported previously by our group, we succeeded in obtaining ICAs from DPSCs. The identity of ICAs was confirmed as islets by dithiozone-positive staining, as well as by expression of C-peptide, Pdx-1, Pax4, Pax6, Ngn3, and Isl-1. There were several-fold up-regulations of these transcription factors proportional to days of differentiation as compared with undifferentiated DPSCs. Day 10 ICAs released insulin and C-peptide in a glucose-dependent manner, exhibiting in vitro functionality. Our results demonstrated for the first time that DPSCs could be differentiated into pancreatic cell lineage and offer an unconventional and non-controversial source of human tissue that could be used for autologous stem cell therapy in diabetes.

Cryopreservation of chick islets.

The avian endocrine pancreas shares some similarities with those of mammals. Previously we have reported a technique of isolation of B islets from chick pancreas and also demonstrated their possible use for hypoglycemic drug screening as efficiently as mammalian islets. Here we describe a novel cryopreservative medium for the cryopreservation of chick islets. Isolated chick islets were suspended in a cryo medium consisting of Dulbecco's modified Minimum Essential Medium: Ham's F12 (1:1), Fetal Bovine Serum (20%), Dimethylsulfoxide (10%) with different concentrations (50 microg/ml to 500 microg/ml) of riboflavin or nicotinamide. The viability of revived islets after three and half months was checked by trypan blue dye exclusion and functionality was assessed by insulin secretion in response to glucose challenge. The maximum recovery of viable islets and insulin secretion was obtained in response to glucose challenge at 250 microg/ml concentration of Riboflavin or Nicotinamide. This is a first report on cryopreservation of chick islets exhibiting cryoprotective role of water soluble vitamins without vitamin C.

In situ synthesis of water dispersible bovine serum albumin capped gold and silver nanoparticles and their cytocompatibility studies.

A simple and convenient one step room temperature method is described for the synthesis of bovine serum albumin (BSA) capped gold and silver nanoparticles. BSA reduces silver ions to silver nanoparticles but does not directly reduce gold ions to gold nanoparticles at room temperature and varying pH conditions. However, when silver and gold ions are simultaneously added to BSA, silver ions get reduced to metallic silver first and these in turn reduce gold ions to gold nanoparticles through a galvanic exchange reaction. The so synthesized silver and gold nanoparticles are easily water dispersible and can withstand addition of salt even at high concentrations. It is shown that the capped protein retains its secondary structure and the helicity to a large extent on the nanoparticles surface and that the protein capping makes the nanoparticles cytocompatible.

Islet-derived stellate-like cells as a novel source for islet neogenesis in chicks.

The therapeutic potential of stem cells has led to renewed interest in regenerative biology. Pancreatic stellate cells have been reported in the mammalian pancreas; however, there are very few reports on stellate cells in the chicken pancreas. The intercalated duct epithelial cells observed in the A and B islets of the chicken pancreas have been claimed to be stellate cells from their morphological appearance. While isolating islets and acinar cells from the chick pancreas, we have found a population of stellate-like cells, which has been successfully propagated in a defined nutrient medium. These cells were immunopositive for vimentin, desmin, and fibronectin and also expressed alkaline phosphatase, indicating their undifferentiated state. On exposure to serum-free medium containing specific nutrients and differentiating agents, these stellate-like-cells gave rise to islet-like cell clusters. Islet-like clusters stained positive for the islet specific stain diphenyl thiocarbazone and were immunopositive for C-peptide indicating de novo insulin synthesis. These clusters secreted insulin in response to glucose challenge, thus suggesting their similarity to islets. Thus stellate cells found in chick pancreatic islets exhibit potential to differentiate into islet-like clusters. Taken together, our study documents for the first time the presence of a stellate-like cell population in chick pancreatic islets providing a source for islet neogenesis.

Novel role of curcumin in the prevention of cytokine-induced islet death in vitro and diabetogenesis in vivo.

BACKGROUND AND PURPOSE: Oxidative stress caused by cytokine exposure is a major cause of pancreatic islet death in vitro and of diabetogenesis. Antioxidant compounds may prevent cytokine-induced damage to islet cells. Hence, we studied the potential of curcumin, an antioxidant and anti-inflammatory compound, in vitro to protect islets against pro-inflammatory cytokines and in vivo to prevent the progression of diabetes induced by multiple low doses of streptozotocin (MLD-STZ). EXPERIMENTAL APPROACH: Pancreatic islets from C57/BL6J mice were pretreated with curcumin (10 microM) and then exposed to a combination of cytokines. Islet viability, reactive oxygen species (ROS), NO, inducible NO synthase and NF-kappaB translocation were studied. Curcumin pretreated (7.5 mg kg(-1) day(-1)) C57/BL6J mice were given MLD-STZ (40 mg kg(-1)), and various parameters of diabetes induction and progression were monitored. KEY RESULTS: Curcumin protected islets from cytokine-induced islet death in vitro by scavenging ROS and normalized cytokine-induced NF-kappaB translocation by inhibiting phosphorylation of inhibitor of kappa B alpha (IkappaBalpha). In vivo, curcumin also prevented MLD-STZ, as revealed by sustained normoglycaemia, normal glucose clearance and maintained pancreatic GLUT2 levels. Pro-inflammatory cytokine concentrations in the serum and pancreas were raised in STZ-treated animals, but not in animals pretreated with curcumin before STZ. CONCLUSIONS AND IMPLICATIONS: Here, we have demonstrated for the first time that curcumin in vitro protects pancreatic islets against cytokine-induced death and dysfunction and in vivo prevents STZ-induced diabetes.

Development and characterization of two new cell lines from milkfish (Chanos chanos) and grouper (Epinephelus coioides) for virus isolation.

Two new cell lines, SIMH and SIGE, were derived from the heart of milkfish (Chanos chanos), a euryhaline teleost, and from the eye of grouper (Epinephelus coioides), respectively. These cell lines were maintained in Leibovitz's L-15 supplemented with 20% fetal bovine serum (FBS). The SIMH cell line was subcultured more than 50 times over a period of 210 days and SIGE cell line has been subcultured 100 times over a period of 1 1/2 years. The SIMH cell line consists predominantly of fibroblastic-like cells. The SIGE cell line consists predominantly of epithelial cells. Both the cell lines were able to grow at temperatures between 25 and 32 degrees C with an optimum temperature of 28 degrees C. The growth rate of these cells increased as the proportion of FBS increased from 2% to 20% at 28 degrees C with optimum growth at the concentrations of 15% or 20% FBS. Seven marine fish viruses were tested to determine the susceptibility of these cell lines. The SIGE cell line was found to be susceptible to nodavirus, MABV NC-1 and Y6, and the infection was confirmed by cytopathic effect (CPE) and reverse transcriptase-polymerase chain reaction. When these cells were transfected with pEGFP-N1 vector DNA, significant fluorescent signals were observed, suggesting that these cell lines can be a useful tool for transgenic and genetic manipulation studies. Further, these cell lines are characterized by immunocytochemistry using confocal laser scanning microscopy (CFLSM).

Chick pancreatic B islets as an alternative in vitro model for screening insulin secretagogues.

Previously, we reported a simple technique to isolate functional B islets from chick pancreata with retention of their insulin secretory ability in response to glucose challenge. To test the hypothesis that chick B islets are equally good candidates as mammalian islets for screening hypoglycemics and insulin secretagogues, we compared the structural and functional status of chick B islets with those of normal and diabetic mouse islets. Pancreata from chick, normal (nondiabetic) mice, and diabetic mice were collected, fixed, and processed for histological analysis using Gomori stain to distinguish A and B cells from islets. Similarly isolated islets from these animals were treated with different concentrations of tolbutamide, a known insulin secretagogue, and glucose to study insulin release. Histological analysis of pancreata from chicks and normal mice revealed intact B cells, whereas those from diabetic mice were destroyed. The insulin secretory response of chick B islets against the tolbutamide and glucose challenge was comparable to that of normal mouse islets. However, diabetic mouse islets did not respond to glucose challenge, indicating impaired functionality. We have identified a critical window that lies within 5 to 6 d posthatching for isolating chick B islets showing maximum glucose responsiveness and insulin secretion. The previous reports on chicken pancreatic islets involve the use of 4- to 6-wk-old chicks in which islets were found to be nonresponsive to glucose and, hence, could not be used for testing insulin secretory activity. However, our data on B islets from 5- to 6-d-old chick pancreata is highly promising, as islets are responsive to insulin secretagogues. The present data thus indicates that chick B islets can be used as an alternative in vitro model for screening insulin secretagogue and hypoglycemics.

Analysis of morphological and functional maturation of neoislets generated in vitro from pancreatic ductal cells and their suitability for islet banking and transplantation.

The pancreatic ductal stem cells are known to differentiate into islets of Langerhans; however, their yield is limited and the islet population is not defined. Therefore, the aims of the present study were to improvise a methodology for obtaining large numbers of islets in vitro and to characterize their morphological and functional status for islet cell banking and transplantation. Pancreatic ductal epithelial cell cultures were set in serum-free medium. Monolayers of epithelial cells in culture gave rise to islet-like clusters within 3-4 weeks. The identity of neoislets was confirmed by dithizone staining and analysis of the gene expression for endocrine markers by reverse transcriptase-polymerase chain reaction (RT-PCR). The islet population obtained was analysed by image analysis and insulin secretion in response to secretagogues. The cellular extracts from neoislets were immunoreactive to anti-insulin antibody and expressed insulin, glucagon, GLUT-2, PDX-1 and Reg-1 genes. The islets generated within 3-4 weeks exhibited a mixed population of large- and small-sized islets with clear cut dichotomy in the pattern of their insulin secretion in response to L-arginine and glucose. These neoislets maintained their structural and functional integrity on cryopreservation and transplantation indicating their suitability for islet cell banking. Thus, the present study describes an improved method for obtaining a constant supply of large numbers of islets from pancreatic ductal stem cell cultures. The newly generated islets undergo functional maturation indicating their suitability for transplantation.

Pancreatic islet-cell viability, functionality and oxidative status remain unaffected at pharmacological concentrations of commonly used antibiotics in vitro.

Environmental factors such as diet, physical activity, drugs, pollution and life style play an important role in the progression and/or precipitation of diseases like diabetes, hypertension, obesity and cardiovascular disorders. Indiscriminate use of antibiotics to combat infectious diseases is one of the commonest forms of misuse of drugs. Antibiotics seem to have a correlation with diabetes and pancreatic function. There are controversial reports about the effect of antibiotics on the pancreatic islets; some suggesting their harmless action, some depicting a beneficial role and others indicating deleterious effect. Moreover, use of antibiotics is mandatory during islet isolation and cultivation to reduce incidences of microbial contamination. It is likely that antibiotic treatment may adversely affect islet viability and its functioning leading to failure of islet transplantation. The present in vitro study was undertaken to examine the effect of commonly used antibiotics such as gentamycin, penicillin, streptomycin, tetracycline, neomycin, erythromycin and chloramphenicol on islet viability, its functioning and induction of oxidative stress if any. The viability and insulin production data showed that none of the antibiotics used in the present study affect the viability and the functioning of the islets at their pharmacological concentrations. Free radical levels measured in terms of melonyldialdehyde (MDA), nitric oxide (NO) and reduced glutathione (GSH) reveal that except for a marginal increase in lipid peroxidation with tetracycline and slight increase in NO levels with streptomycin, none of these antibiotics affect the oxidative status of the cells. Antioxidant enzymes such as superoxide dismutase and catalase remain unaffected after this treatment. Our results reveal the innocuous nature of the antibiotics used at pharmacological concentrations, suggesting their safety whenever prescribed to combat infections and also during islet isolation procedures.

Selective cytotoxicity of MIA Pa Ca-2 conditioned medium to acinar cells: a novel approach to reduce acinar cell contaminants in isolated islet preparations from BALB/c mice.

Contamination of acinar cells in islet preparations has been shown to affect islet viability, functionality and yield adversely. Therefore, a strategy which would reduce acinar contamination in islet preparations is much sought. We here demonstrate selective cytotoxicity of conditioned medium (CM) of MIA Pa Ca-2 (human pancreatic carcinoma) cells to acinar cells and suitability of this approach as a simple method of obtaining a pure islet population without affecting their viability and yield. When isolated, islet preparations from BALB/c mice were exposed to conditioned media of MIA Pa Ca-2, acinar cells underwent extensive degeneration to yield 80-85% pure islet population, and islets showed comparable viability to controls not exposed to conditioned media. They also maintained their normal morphology, as assessed by digital image analysis. Islets treated with a conditioned medium also preserved in vitro insulin secretion. Flow cytometric analysis of acinar cells treated with conditioned media revealed accelerated DNA damage (45%), compared to controls (22%). Results emphasize the role of factors secreted by MIA Pa Ca-2 cells in inducing selective toxicity to acinar cells.

Effect of chitosan-polyvinyl pyrrolidone hydrogel on proliferation and cytokine expression of endothelial cells: implications in islet immunoisolation.

Earlier we have shown the suitability of chitosan-polyvinyl pyrrolidone (PVP) hydrogel for islet immunoisolation and its inability to activate macrophages. Biomaterials that support vascularization without activating immune competent endothelial cells are desirous in islet immunoisolation. The aim of the present study was to evaluate effect of chitosan-PVP hydrogel on proliferation and activation of endothelial cells. Hydrogel did not allow the majority of cells to adhere well but maintained their viability. Hydrogel leachouts were nontoxic to the cells, as confirmed by tetrazolium reduction (MTT) and Neutral red uptake assays. Exposure to leachouts also did not alter their functionality as seen from normal expression of von Willebrand factor. 3H-thymidine incorporation revealed that hydrogel leachouts did not induce endothelial cell proliferation. Cells cultured on hydrogel and polystyrene control showed comparable expression of interleukin (IL) 6, IL-10, and transforming growth factor beta, with higher expression of tumor necrosis factor alpha as determined by reverse transcription-polymerase chain reaction. Taken together these results point out that hydrogel is compatible with endothelial cells and maintains their nonactivated status and hence is suitable as immunoisolation matrix.

Islet cryopreservation: improved recovery following taurine pretreatment.

Simple and efficient freezing methods with maximal postthawing recovery form the basis of ideal cryopreservation. Taurine (2-amino ethanesulfonic acid), an end-product of sulphur amino acid metabolism, is one of the most abundant free amino acids in the body. The membrane stabilizing, free radical scavenging, and osmoregulatory roles of taurine have been well documented. We studied the effect of physiological and supra-physiological concentrations (0.3 and 3.0 mM) of taurine on islet cryopreservation. Islet viability on cryopreservation was significantly improved in both the taurine-treated groups (91.9 +/- 2.3% in 0.3 mM and 94.6 +/- 1.58% in 3.0 mM group, p < 0.05) compared with the controls (85.7 +/- 3.4%). Loss of peripheral islet cells was highly reduced in the taurine group, as examined under phase contrast and quantified by islet morphometric analysis (p < 0.05) using a digital image analysis system. Taurine-treated islets showed significant reduction in lipid peroxidation (0.905 and 0.848 nM MDA/microg protein for 0.3 and 3.0 mM taurine, respectively, p < 0.05) compared with control (1.307 nM MDA/microg protein) islets. In all, 500 islet equivalents (IE) of treated or control group islets were transplanted to BALB/c mice rendered diabetic with STZ. All animals showed a normal glucose clearance following a glucose load. Graft functionality was confirmed by normoglycemia (fasting plasma glucose: fpg < 150 mg/dl) after transplantation and reappearing hyperglycemia (fpg > 200 mg/dl) following removal of the graft. Suboptimal islet transplantation using 250 IE suggests that the grafted islet mass was inadequate for diabetes reversal. In addition, no significant differences were observed in the islet insulin content between the three groups following cryopreservation of the islets at -196 degrees C. Our studies indicate that taurine pretreatment and its continued presence during islet cryopreservation improves the postthawing viable recovery of islets.

Polyamide 6 composite membranes: properties and in vitro biocompatibility evaluation.

The aim of the present study was to develop polyamide 6 membrane blended with gelatin and chondroitin sulfate using the phase precipitation method and evaluate its in vitro biocompatibility. Morphology of membranes was studied by laser scanning confocal microscopy which allowed the nondestructive visualization of internal bulk morphology of membranes. Membranes exhibited porous morphology with pores spanning across the membrane width with interconnections at various depths. Membranes showed adequate mechanical properties with tensile strengths of 20.10 +/- 0.64 MPa, % strain of 3.01+/-0.07, and modulus of 1082.50+/-23.50 MPa. In vitro biocompatibility of membranes by direct contact test did not show degenerative effects on NIH3T3 cells and also its leach-out products (LOP), as determined by tetrazolium (MTT) and neutral red uptake (NRU) assay. Mouse peritoneal macrophage cultured in contact with membranes and PTFE control showed comparable expression of activation markers such as CD11b/CD18, CD45, CD14, and CD86 suggesting the membranes' non-activating nature. Membrane LOP did not induce excessive proliferation of mouse splenocytes suggesting its non-antigenic nature. Preliminary blood compatibility of membranes was observed with no detectable hemolysis in static incubation assay. Taken collectively, the present data demonstrate that polyamide 6 composite membranes are biocompatible and prospective candidates for tissue engineering applications.

Suitability of cellulose molecular dialysis membrane for bioartificial pancreas: in vitro biocompatibility studies.

The success of immunoisolation devices for islet transplantation depends on the properties and biocompatibility of semipermeable immunobarrier membranes. In the present study, we have evaluated the in vitro biocompatibility of the cellulose membrane Spectra/Por 2 (MW no larger than 12- 14,000) for its possible application in islet immunoisolation. The membrane was found to be hydrophilic (octane contact angle: 153.2+/-0.66 degrees) and exhibited decreased protein adsorption. It showed mechanical stability after 1 month of storage in PBS (pH 7.4) with tensile strength, percent elongation, and Young's modulus of 88.88 MPa, 36.22, and 291.8 MPa, respectively. It allowed regulated transport of glucose and insulin in an in vitro diffusion assay. The high viability of NIH3T3 fibroblasts and the inability of lymphocytes to proliferate in vitro on exposure to the membrane leach-out products suggested its noncytotoxic and nonimmunogenic nature. Macrophages, when cultured on membranes, did not show increased expression of inflammatory surface marker such as CD11b/CD18, CD45, CD14, and B 7.2. Image analysis studies showed integrity and intact morphology of mouse islets cultured on and inside the membranes with high viability (91%, 89.7%). These islets also retained their functionality, as judged by insulin secretion. The present study provides sufficient documentation to consider cellulose molecular dialysis membrane Spectra/Por 2 (MW no larger than 12-14,000) as a potential candidate for immunoisolation of islets.

Islet immunoisolation: experience with biopolymers.

Incidence of Type I diabetes is increasing globally and has become a major health concern. There is enough evidence suggesting involvement of autoimmunity in destruction of insulin-producing islets of langerhans which leads to impaired glucose homeostasis. Islet transplantation is one of the approaches that received wide attention. Due to the autoimmune nature of the disease. strategies to protect transplanted islet graft from rejection are sought. Immunoisolation of islets inside semipermeable biocompatible materials is amongst them. Natural biopolymers have been used extensively as immunoisolation materials due to their satisfactory biocompatiblity and tissue tolerance. Here we attempt to address the need for islet immunoisolation and our experience in using natural biopolymers such as chitosan, cellulose and alginate for this application.

Combined effect of nicotinamide and streptozotocin on diabetic status in partially pancreatectomized adult BALB/c mice.

Pancreatic regeneration after pancreatectomy has been well documented in the animal models. We have recently reported that STZ diabetic animals operated for partial pancreatectomy showed normoglycemic status after the operation as compared to uncontrolled hyperglycemia and even death in the diabetic sham operated animals. In drug and virus-induced experimental diabetic models there is a high mortality of animals due to uncontrolled destruction of the beta-cells. In order to destroy sufficient beta-cell mass so as to induce diabetes but prevent mortality, we designed present studies to investigate the combined effect of pancreatectomy, nicotinamide, and streptozotocin (STZ) on diabetic status of BALB/c mice. BALB/c mice of either sex were subjected to 50% pancreatectomy. These were then treated with nicotinamide (350 mg/kg body weight) before and after streptozotocin (200 mg/kg body weight) administration. The changes in body weight, blood glucose levels, serum and pancreatic insulin contents of these animals were monitored in experimental and control group for 12 weeks, and follow up studies were made of these animals for further 12 weeks. It was found that there was a drastic loss of body weight, decreased serum and pancreatic insulin levels coupled with sustained and low levels of hyperglycemia in the experimental group as opposed to the control group. The results indicate that partial pancreatectomy followed by nicotinamide and streptozotocin treatment leads to a long-lasting hyperglycemic state, depicting the clinical symptom of NIDDM without mortality. The study probably reveals a new model for experimental diabetes.