Placental mesenchymal stem cells restore glucose and energy homeostasis in obesogenic adipocytes.

Obesity (Ob) depicts a state of energy imbalance(s) being characterized by the accumulation of excessive fat and which predisposes to several metabolic diseases. Mesenchymal stem cells (MSCs) represent a promising option for addressing obesity and its associated metabolic co-morbidities. The present study aims at assessing the beneficial effects of human placental MSCs (P-MSCs) in mitigating Ob-associated insulin resistance (IR) and mitochondrial dysfunction both in vivo and in vitro. Under obesogenic milieu, adipocytes showed a significant reduction in glucose uptake, and impaired insulin signaling with decreased expression of UCP1 and PGC1α, suggestive of dysregulated non-shivering thermogenesis vis-a-vis mitochondrial biogenesis respectively. Furthermore, obesogenic adipocytes demonstrated impaired mitochondrial respiration and energy homeostasis evidenced by reduced oxygen consumption rate (OCR) and blunted ATP/NAD+/NADP+ production respectively. Interestingly, co-culturing adipocytes with P-MSCs activated PI3K-Akt signaling, improved glucose uptake, diminished ROS production, enhanced mitochondrial OCR, improved ATP/NAD+/NADP+ production, and promoted beiging of adipocytes evidenced by upregulated expression of PRDM16, UCP1, and PGC1α expression. In vivo, P-MSCs administration increased the peripheral blood glucose uptake and clearance, and improved insulin sensitivity and lipid profile with a coordinated increase in the ratio of ATP/ADP and NAD+ and NADP+ in the white adipose tissue (WAT), exemplified in WNIN/GR-Ob obese mutant rats. In line with in vitro findings, there was a significant reduction in adipocyte hypertrophy, increased mitochondrial staining, and thermogenesis. Our findings advocate for a therapeutic application of P-MSCs for improving glucose and energy homeostasis, i.e., probably restoring non-shivering thermogenesis towards obesity management.

Beneficial effects of secretome derived from mesenchymal stem cells with stigmasterol to negate IL-1ß-induced inflammation in-vitro using rat chondrocytes-OA management.

Osteoarthritis (OA) is the most prevalent joint disease predominantly characterized by inflammation which drives cartilage destruction. Mesenchymal stem cells-condition medium (MSC-CM) or the secretome is enriched with bioactive factors and possesses anti-inflammatory and regenerative effects. The present study aimed at evaluating the effects of combining MSC-conditioned medium with stigmasterol compared with the individual treatments in alleviating interleukin-1 beta (IL-1ß)-induced inflammation in rat chondrocytes. Stigmasterol is a phytosterol exhibiting anti-inflammatory effects. IL-1ß (10 ng/ml) was used to induce inflammation and mimic OA in-vitro in primary rat articular chondrocytes. The IL-1ß-stimulated chondrocytes were treated with MSC-CM, stigmasterol, and a combination of MSC-CM and stigmasterol for 24 h. Cell viability was measured using MTT assay. Protein expression of inducible nitric oxide synthase (iNOS), interleukin-6 (IL-6), collagen II (COL2A1) and matrix metalloproteinase (MMP)-13 were evaluated by immunofluorescence. Gene expression levels of MMP-3, MMP-13 and A Disintegrin-like and Metalloproteinases with Thrombospondin Motifs (ADAMTS)-5 were measured using qRT-PCR. NF-κB signaling pathway was studied using western blotting. A significant reduction in the expression of iNOS, IL-6, MMP-3, MMP-13 and ADAMTS-5, and a significant increase in COL2A1 expression was observed in the rat chondrocytes across all the treatment groups. However, the combination treatment of MSC-CM and stigmasterol remarkably reversed the IL-1ß-induced pro-inflammatory/pro-catabolic responses to near normal levels comparable to the control group. The combination treatment (MSC-CM + stigmasterol) elicited a superior anti-inflammatory/anti-catabolic effect by inhibiting the IL-1ß-induced NF-κB activation evidenced by the negligible phosphorylation of p65 and IκBα subunits, thereby emphasizing the benefit of the combination therapy over the individual treatments.

Conventional polymerase chain reaction and amplification refractory mutation system-multi-gene/ multi-primer PCR in the diagnosis of female genital tuberculosis.

This review mainly summarizes disease, immune-pathology and the clinical usefulness, advances, potential applications and limitations of new, cutting-edge technology (MG/MP-PCR and/or ARMS-MG/MP-PCR) in the detection of female genital tuberculosis (FGTB) disease and gene polymorphism among infertile patients. The investigation was set in the Department of Zoology, Osmania University and National Institute of Nutrition, Hyderabad, India. Desired articles were critically reviewed and analysed. Keywords and NET searches were conducted in all electronic databases starting from September, 2006. Full-text English-language reviews and research articles describing FGTB, infertility, gene polymorphism, conventional polymerase chain reaction (PCR) and multigene (MG)/multiprimer (MP)-PCR were included. The current review provides a comprehensive overview on the PCR and types (multiplex, nested, RT etc.) including the reagents, cycling conditions and pitfalls in the detection of FGTB disease and gene polymorphism among infertile patients. It provides limited information on MG/MP-PCR. At present, conventional PCR, MG/MP-PCR and/or amplification refractory mutation system (ARMS)-MG/MP-PCR have emerged as scientific innovations and perform significant function in medical research, mutational analysis and clinical investigations. This review admits that MG/MP-PCR and/or ARMS-MG/MP-PCR has the capacity to diagnose disease rapidly and to genotype a large number of samples. MG/MP-PCR and/or ARMS-MG/MP-PCR are considered as simple, reliable, non-isotopic, low-cost, fast, accurate and relatively easy-to-perform procedure. This review suggests that this method needs to be critically evaluated using huge number of clinical samples occurring across the world and then can be accredited for clinical utilization.

EXPERIMENTALLY-INDUCED ANIMAL MODELS OF PREDIABETES AND INSULIN RESISTANCE: A REVIEW.

Animal models are very common in diabetes research when rodents are mostly used in this regard. Although a number of animal models of type 1 and type 2 diabetes (T2D) are developed in last few decades, the numbers of animal models of prediabetes and insulin resistance are very scanty. Due to the rapidly changing pathogenesis of the disease and preventive study, the popularity of the prediabetic and insulin resistance models are largely increased in the recent years. Some genetically or spontaneously induced models of diabetes are used as models for prediabetes and insulin resistance in the early stage of their lives such as prediabetic SHROB rats, Zucker Diabetic Fatty (ZDF) rats, Goto Kakizaki rats, Otsuka Long Evan Tokushima Fatty Rats (OLETF), prediabetic BB-DP rats and prediabetic Chinese hamster (non-genetic model), however, these models are relatively expensive, not widely available compared experimentally-induced non-genetic models hence not suitable for routine pharmacological screening of anti-diabetic agents. In the present review, we carefully discussed the induction method, induction period, advantages, disadvantages and suitability of various non- genetic or experimentally-induced animal models of prediabetes and insulin resistance. We have also summa- rized the key factors of different models in a couple of tables to give a quick overview to the diabetes researchers in order to more appropriately select an authentic animal model of prediabetes and/or insulin resistance to achieve their specific research outcomes.

Human mesenchymal stem cells as a novel platform for simultaneous evaluation of cytotoxicity and genotoxicity of pharmaceuticals.

The in vitro micronucleus test is a well-known test for the screening of genotoxic compounds. However until now, most studies have been performed on either human peripheral lymphocytes or established cancer cell lines. This study provides human mesenchymal stem cells as an alternative to the conventional micronucleus test. We grew umbilical cord mesenchymal stem cells (UC-MSCs) on coverslips eliminating the cumbersome technique involving hypotonic treatment, fixation and preparing smears required for suspension culture (lymphocytes). The background frequency of nuclear blebs and micronuclei in UC-MSCs was found to be 7±5, in lymphocytes 16±3.5 and 9±3 and that for A549 cell line was 65±5 and 15±5 per 1000 cells, respectively, suggesting differences in the repair mechanism of normal and cancer cell lines. We inspected the cytotoxic and genotoxic effects of two known mutagens, mitomycin-C and hydrogen peroxide (H2O2), on UC-MSCs, lymphocytes and A549 cells. Treatment with mitomycin-C and H2O2 demonstrated drastic differences in the degree of cytotoxicity and genotoxicity suggesting a constitutional difference between normal and cancer cells. In addition we tested two solvents, dimethyl sulfoxide (DMSO) and ethanol, and two drugs, metformin and rapamycin. DMSO above 1% was found to be cytotoxic and genotoxic, whereas ethanol at same concentration was neither cytotoxic nor genotoxic indicating the minimal non-toxic level of the solvents. This study thus offers UC-MSCs as a better substitute to peripheral lymphocytes and cancer cell lines for high throughput screening of compounds and reducing the animal studies.

Promise(s) of using mesenchymal stem cells in reproductive disorders.

In recent times, infertility among both man and woman has become a major concern affecting about 20 per cent of the population worldwide and has been attributed in part to several aetiological factors such as changes in lifestyle, which includes sedentary life, dietary habits, sleep anomalies, environmental pollution, etc. Assisted reproductive technologies (ART) have come to the rescue of many such couples, but presence of metabolic disorders such as obesity, diabetes with insulin resistance (IR) and its secondary complications (micro- and macro-vascular complications), become confounders to the outcome of ART. Cell therapies are arising as a new hope in the management of reproductive disorders and currently, the efficacy of mesenchymal stem cells (MSCs) harvested from the adult sources finds wide application in the management of diseases like stroke, neuropathy, nephropathy, myopathy, wounds in diabetes, etc. Given the capacity of MSCs to preferentially home to damaged tissue and modulate the cellular niche/microenvironment to augment tissue repairs and regeneration, the present review outlines the applications of MSCs in the management of infertility/reproductive disorders.

Evaluation of the anti-inflammatory and antioxidant properties and isolation and characterization of a new bioactive compound, 3,4,9-trimethyl-7-propyldecanoic acid from Vitex negundo.

ETHNOPHARMACOLOGICAL RELEVANCE: Herbal medicines derived from plant extraction are affordable, more therapeutically effective, and have fewer side effects than contemporary medications. Vitex negundo L. (V. negundo). is a medicinal shrub, which contains numerous phytoconstituents. In ancient medicinal practices, V. negundo was primarily prescribed as an analgesic and anti-inflammatory drug. AIM OF THE STUDY: This study aims to evaluate the anti-inflammatory and antioxidant characteristics of crude extracts from V. negundo leaves, including those derived from petroleum ether (P), methanol (M), and aqueous (A) solvents. Additionally, the research seeks to identify the specific bioactive compounds responsible for these observed properties. MATERIALS AND METHODS: The nitric oxide scavenging study was performed to evaluate the V. negundo crude extract's ability to function as a nitric oxide scavenger. Protein denaturation and proteinase inhibition experiments were employed to study the ability of extracts to suppress proteolysis and inhibit the enzymes that cause tissue injury. The membrane-stabilizing potency of plant extracts were examined through the process of heat-induced hemolysis. The ability of the extracts to neutralize free radicals showed a dose-dependent response, and the aqueous extract exhibited substantially higher activity in both FRAP and DPPH. The GC-MS analysis of V. negundo extracts revealed a vast array of pharmacologically active metabolites. Based on this Bioassay-guided fractionation approach, the optimal extract was selected for the potent molecule isolation and characterization. RESULTS: The findings demonstrated that the aqueous extract of V. negundo exhibited markedly superior radical scavenging and anti-inflammatory capabilities compared to the other two extracts. Furthermore, a new molecule, 3,4,9-trimethyl-7-propyldecanoic acid was isolated from this extract, and its chemical structure was successfully determined. CONCLUSION: This study revealed that the aqueous extract of V. negundo demonstrated notably stronger in vitro anti-inflammatory and antioxidant properties in comparison to the methanol and petroleum ether extracts. The identified active compound, 3,4,9-trimethyl-7-propyldecanoic acid is likely responsible for the extract's free radical scavenging and anti-inflammatory effects. Furthermore, conducting both in vitro and in vivo studies is crucial to substantiate the potential of this active constituent for the development of an anti-inflammatory drug derived from V. negundo.

Safety and Performance of Continuous Glucose Monitoring: An Overview.

Diabetes (Type 1 and Type 2) is the most burdensome condition for the healthcare systems worldwide. Continuous glucose monitoring (CGM) is a powerful tool in the management of diabetes that has helped patients with diabetes to achieve better glycemic control as compared to traditional systems. It helps reduce the frequency as well as the severity of hypoglycemia. Continuous glucose monitoring technology is an integral part of the 'artificial pancreas'. This review provides an overview of CGM technology and its applications.

Obesity, Metabolic Syndrome, and Osteoarthritis-An Updated Review.

PURPOSE OF REVIEW: Metabolic syndrome (MetS), also called the 'deadly quartet' comprising obesity, diabetes, dyslipidemia, and hypertension, has been ascertained to have a causal role in the pathogenesis of osteoarthritis (OA). This review is aimed at discussing the current knowledge on the contribution of metabolic syndrome and its various components to OA pathogenesis and progression. RECENT FINDINGS: Lately, an increased association identified between the various components of metabolic syndrome (obesity, diabetes, dyslipidemia, and hypertension) with OA has led to the identification of the 'metabolic phenotype' of OA. These metabolic perturbations alongside low-grade systemic inflammation have been identified to inflict detrimental effects upon multiple tissues of the joint including cartilage, bone, and synovium leading to complete joint failure in OA. Recent epidemiological and clinical findings affirm that adipokines significantly contribute to inflammation, tissue degradation, and OA pathogenesis mediated through multiple signaling pathways. OA is no longer perceived as just a 'wear and tear' disease and the involvement of the metabolic components in OA pathogenesis adds up to the complexity of the disease. Given the global surge in obesity and its allied metabolic perturbations, this review aims to throw light on the current knowledge on the pathophysiology of MetS-associated OA and the need to address MetS in the context of metabolic OA management. Better regulation of the constituent factors of MetS could be profitable in preventing MetS-associated OA. The identification of key roles for several metabolic regulators in OA pathogenesis has also opened up newer avenues in the recognition and development of novel therapeutic agents.

Phytochemical analysis, anti-inflammatory, antioxidant activity of Calotropis gigantea and its therapeutic applications.

ETHNOPHARMACOLOGICAL RELEVANCE: Herbal remedies can be used to treat a variety of chronic inflammatory illnesses, like rheumatoid arthritis and leprosy. The plant Calotropis gigantea (C. gigantea) belongs to the family Apocynaceae. To treat numerous contagious diseases, C. gigantea is utilized alone or combine with certain medicinal herbs. Traditional Asian and African practitioners employed C. gigantea to treat a variety of inflammatory conditions like boils, rheumatoid arthritis, gout, leprosy and other disorders. AIM OF THE STUDY: The goal of this study is to examine the anti-inflammatory and antioxidant activities of C. gigantea leaf extracts extracted using methanol, petroleum ether, and water. MATERIALS AND METHODS: The leaf extracts of C. gigantea were obtained using the Soxhlet extraction technique. The phytoconstituents present in all three C. gigantea leaf extracts were confirmed by qualitative analysis, and the amounts of the alkaloids, flavonoids, terpenoids and phenols found in the extracts were quantified. C. gigantea crude extracts were subjected to a nitric oxide scavenging experiment to assess their free radical scavenging activities. Protein denaturation and proteinase inhibition assays were used to investigate the effectiveness of extracts to restrict denaturation of protein and to inhibit key enzymes responsible for tissue damage. Further, the membrane stabilization efficacy of plant extracts were examined by the heat-induced hemolysis method. The DPPH and FRAP experiments were performed to determine the antioxidant effectiveness of phytoconstituents extracted using different solvents. The GC-MS study of plant C. gigantea methanolic, aqueous and petroleum ether extracts displayed a broad range of compounds that possess beneficial therapeutic effects. RESULTS: This study reveals that the methanolic extract of C. gigantea provides significantly more anti-inflammatory and antioxidant activity than other extracts. CONCLUSION: Compared to the aqueous and petroleum ether extracts, the methanolic leaf extract of C. gigantea demonstrated greater in vitro anti-inflammatory and antioxidant properties.

Human placental mesenchymal stromal cell therapy restores the cytokine efflux and insulin signaling in the skeletal muscle of obesity-induced type 2 diabetes rat model.

Obesity poses a significant risk factor for the onset of metabolic syndrome with allied complications, wherein mesenchymal stem cell therapy is seen as a promising treatment for obesity-induced metabolic syndrome. In the present study, we aim to explore the beneficial effects of the human placental mesenchymal stromal cells (P-MSCs) on obesity-associated insulin resistance (IR) including inflammation. To understand this, we have analyzed the peripheral blood glucose, serum insulin levels by ELISA, and the glucose uptake capacity of skeletal muscle by a 2-NBDG assay using flow cytometry in WNIN/GR-Ob rats treated with and without P-MSCs. Also, we have studied insulin signaling and cytokine profile in the skeletal muscle by western blotting, dot blotting, and Multiplex-ELISA techniques. The skeletal muscle of WNIN/GR-Ob rats demonstrates dysregulation of cytokines, altered glucose uptake vis-a-vis insulin signaling. However, P-MSCs' treatment was effective in WNIN/GR-Ob rats as compared to its control, to restore HOMA-IR, re-establishes dysregulated cytokines and PI3K-Akt pathway in addition to enhanced Glut4 expression and glucose uptake studied in skeletal muscle. Overall, our data advocate the beneficial effects of P-MSCs to ameliorate inflammatory milieu, improve insulin sensitivity, and normalize glucose homeostasis underlining the Ob-T2D conditions, and we attribute for immunomodulatory, paracrine, autocrine, and multipotent functions of P-MSCs.

A novel therapeutic combination of mesenchymal stem cells and stigmasterol to attenuate osteoarthritis in rodent model system-a proof of concept study.

Mesenchymal stem cells (MSCs) have gained wide therapeutic acceptance in regenerative medicine due to their potential in repair process in restoring the damaged tissues and controlling inflammation. In the present study, we report for the first time the beneficial effects of combining placental-derived MSCs (hPMSCs) with stigmasterol-a plant-derived sterol to accelerate cartilage repair and regeneration in a monosodium-iodoacetate (MIA) induced osteoarthritis (OA) rat model. Control animals (Group I) received no treatment. Experimental animals (Group II) received a single intra-articular injection of MIA (2 mg) in the right knee joints. The Group II animals developed OA-like lesions within a week of MIA injection. They were subdivided further as: (II-A): OA, (II-B): OA+hPMSCs (2×106 cells, single-dose/intra-articular injection), (II-C): OA+stigmasterol (20 µg/mL, single-dose/intra-articular injection) and (II-D): OA+hPMSCs+stigmasterol. The animals were monitored for four more weeks after which they were sacrificed, the right limbs dissected out and assessed for cartilage repair and regeneration using micro-computed tomography (micro-CT) and histology. Results showed that the combined administration of hPMSCs with stigmasterol (II-D) was the most effective in correcting the OA lesions, with concomitant repair and regeneration. However, hPMSCs (II-B) or stigmasterol (II-C) per se treated groups showed only marginal beneficial effects and were not significant. Thus the present study provides valuable insights in situ using a combination of hPMSCs and stigmasterol towards cartilage repair and regeneration. We advocate the participation of populating cells or residual chondrocytes in addition to its anti-inflammatory functions.

Metabolic Syndrome Predisposes to Osteoarthritis: Lessons from Model System.

OBJECTIVE: The present study aims to assess for temporal changes in tibial subchondral bone and cartilage in WNIN/Gr-Ob rats (portraying obesity, insulin resistance, dyslipidemia, impaired glucose tolerance, hypertension) in comparison with Wistar controls (WNIN) using anthropometry, micro-computed tomography (micro-CT), scanning electron microscopy (SEM), histopathology, enzyme-linked immunosorbent assay (ELISA), and immunofluorescence. DESIGN: Body weight, abdominal circumference, body mass index (BMI), lean/fat mass, serum tumor necrosis factor (TNF)-α levels were measured (ELISA), followed by ultrastructural analysis of tibial subchondral bone (micro-CT) and cartilage architecture (histopathology and SEM) in WNIN/Gr-Ob and WNIN rats with age (3, 6 and 9 months). Additionally, primary cultures of articular chondrocytes isolated from 6-month-old WNIN/Gr-Ob and WNIN rats were assessed for matrix metalloproteinase (MMP)-13 and Collagen type II (COL2A1) by immunofluorescence. RESULTS: WNIN/Gr-Ob rats exhibited frank obesity with increased BMI, lean and fat mass vis-à-vis significantly higher levels of serum TNF-α (6>9>3 months) as compared with the controls. With an increase in BMI, WNIN/Gr-Ob rats presented with tibial cartilage fibrillation, erosion, osteophyte formation (6 months) and subchondral bone cyst (9 months) confirmed by histology and SEM. An increase in subchondral trabecular bone volume (sclerosis with decreased plate porosity) was observed in all ages in WNIN/Gr-Ob rats compared to their Control. Gaining insights, primary cultures of articular chondrocytes complemented with altered cellular expressions of COL2A1 and MMP-13 from WNIN/Gr-Ob rats, indicating osteoarthritis (OA) progression. CONCLUSION: Multiple metabolic perturbations featured in WNIN/Gr-Ob rats were effective to induce spontaneous OA-like degenerative changes affecting knee joints akin to human OA.

The promise(s) of mesenchymal stem cell therapy in averting preclinical diabetes: lessons from in vivo and in vitro model systems.

Obesity (Ob) poses a significant risk factor for the onset of metabolic syndrome with associated complications, wherein the Mesenchymal Stem Cell (MSC) therapy shows pre-clinical success. Here, we explore the therapeutic applications of human Placental MSCs (P-MSCs) to address Ob-associated Insulin Resistance (IR) and its complications. In the present study, we show that intramuscular injection of P-MSCs homed more towards the visceral site, restored HOMA-IR and glucose homeostasis in the WNIN/GR-Ob (Ob-T2D) rats. P-MSC therapy was effective in re-establishing the dysregulated cytokines. We report that the P-MSCs activates PI3K-Akt signaling and regulates the Glut4-dependant glucose uptake and its utilization in WNIN/GR-Ob (Ob-T2D) rats compared to its control. Our data reinstates P-MSC treatment's potent application to alleviate IR and restores peripheral blood glucose clearance evidenced in stromal vascular fraction (SVF) derived from white adipose tissue (WAT) of the WNIN/GR-Ob rats. Gaining insights, we show the activation of the PI3K-Akt pathway by P-MSCs both in vivo and in vitro (palmitate primed 3T3-L1 cells) to restore the insulin sensitivity dysregulated adipocytes. Our findings suggest a potent application of P-MSCs in  pre-clinical/Ob-T2D management.

Emerging Therapeutic Targets for Metabolic Syndrome: Lessons from Animal Models.

BACKGROUND: Metabolic syndrome is a cluster of medical conditions that synergistically increase the risk of heart diseases and diabetes. The current treatment strategy for metabolic syndrome focuses on treating its individual components. A highly effective agent for metabolic syndrome has yet to be developed. To develop a target for metabolic syndrome, the mechanism encompassing different organs - nervous system, pancreas, skeletal muscle, liver and adipose tissue - needs to be understood. Many animal models have been developed to understand the pathophysiology of metabolic syndrome. Promising molecular targets have emerged while characterizing these animals. Modulating these targets is expected to treat some components of metabolic syndrome. OBJECTIVE: To discuss the emerging molecular targets in an animal model of metabolic syndrome. METHODS: A literature search was performed for the retrieval of relevant articles. CONCLUSION: Multiple genes/pathways that play important role in the development of Metabolic Syndrome are discussed.

Immuolocalization of nestin in pancreatic tissue of mice at different ages.

AIM: To localize nestin positive cells (NPC) in pancreatic tissue of mice of different ages. METHODS: Paraffin sections of 6-8 mum of fixed pancreatic samples were mounted on poly-L-lysine coated slides and used for Immunolocalization using appropriate primary antibodies (Nestin, Insulin, Glucagon), followed by addition of a fluorescently labeled secondary antibody. The antigen-antibody localization was captured using a confocal microscope (Leica SP 5 series). RESULTS: In 3-6 d pups, the NPC were localized towards the periphery of the endocrine portion, as evident from immunolocalization of insulin and glucagon, while NPC were absent in the acinar portion. At 2 wk, NPC were localized in both the exocrine and endocrine portions. Interestingly, in 4-wk-old mice NPC were seen only in the endocrine portion, towards the periphery, and were colocalised with the glucagon positive cells. In the pancreas of 8- wk-old mice, the NPC were predominantly localized in the central region of the islet clusters, where immunostaining for insulin was at a maximum. CONCLUSION: We report for the first time the immunolocalization of NPC in the pancreas of mice of different ages (3 d to 8 wk) with reference to insulin and glucagon positive cells. The heterogeneous localization of the NPC observed may be of functional and developmental significance and suggest(s) that mice pancreatic tissue can be a potential source of progenitor cells. NPC from the pancreas can be isolated, proliferated and programmed to differentiate into insulin secreting cells under the appropriate microenvironment.

Treatment of 'Diabesity': Beyond Pharmacotherapy.

Obesity is a prominent risk factor for type 2 diabetes. Management of type 2 diabetes requires weight management in addition to glycemic parameters. For obese type 2 diabetes patients, metformin, Sodium-glucose co-transporter-2 inhibitors or Glucagon-Like Peptide-1 Receptor Agonists should be prescribed as the first priority for controlling both hyperglycemia and body weight or fat distribution. The combination of these drugs with sulfonylureas, thiazolidinediones, and insulin may also be required in chronic cases. These drugs cause weight gain. Fortunately, many phytochemicals having a beneficial effect on diabetes and obesity, have minimum side-effects as compared to synthetic drugs. This review discusses the treatment strategies for controlling glycemia and weight management, with the focus on anti-diabetic drugs and phytochemicals. Glucagonostatic role, activation of Adenosine monophosphate-activated protein kinase and adipocyte targeting potential of anti-diabetic drugs and phytochemicals are also discussed.

Understanding pluripotency under folic acid deficiency using embryonic stem cells as an in vitro model.

Innumerable studies have been carried out by people to trace out those elements, find out the mechanisms that are vital to the maintenance of stemness. Amongst them, the one which is gaining importance in the recent past is the metabolism of stem cells, especially One carbon metabolism. Being associated directly or indirectly, with DNA and Histone methylation, One carbon metabolism has an important role to play as far as epigenetic regulation of stemness is concerned. Folic acid being a methyl donor, forms an important component of One Carbon metabolism, and thus its availability has a significant effect on the methylation reactions. The present hypothesis says, using embryonic stem cells grown in vitro as a model system, one can study how deficiency of Folate during pre implantation embryonic development influence the self renewal as well as pluripotency of stem cells, from the perspective of One carbon metabolism and epigenetic mechanisms. Findings from such a study can possibly provide an explanation for the observed intra uterine growth retardation seen under maternal micronutrient deficiency.

Novel dihydropyrimidine derivatives as potential HDAC inhibitors: in silico study.

Dihydropyrimidine derivatives possess many biological activities due to presence of pyrimidine ring structure in various nucleic acids, vitamins, coenzymes, uric acid and their derivatives. They have possessed broad spectrum actions like antibacterial, antifungal, antiviral, anticancer and antihypertensive etc. Before synthesis of compounds, it is good to predict biological activity using in silico methods. Here, we have selected some of N (3a-f) and O (4a-f) mannich bases of dihydro pyrimidine derivatives emphasized on histone deacetylase 4 (HDAC-4) inhibitions activity. We have used the different software tools like Lipinski's rule of five; pass online; osiris property explorer and docking studies to predict anti cancer activity. All the selected compounds exhibited potential drug like molecule with anti cancer activity. Among all compound the substitution with methoxy group (3c) exhibited more drugs like property and substation with hydrogens (4a) showed high anti neoplastic activity; whereas substitution with dichloro groups (4e) showed more drug docking scores. These were compared with standard drugs tamoxifen and 5-flourouracil. The approach of predicting anticancer activity using in silico method may be more useful to select and synthesis novel compounds in research as well as in industry.

Beta-cell Management in Type 2 Diabetes: Beneficial Role of Nutraceuticals.

Inadequate functional beta cell mass seems to be the primary cause of type 2 diabetes. Increased oxidative stress and inflammation are the leading causes of betacell death. Preservation of functional beta-cell mass in type 2 diabetes is a critical target for type 2 diabetes management. Numerous studies have demonstrated beneficial effects of dietary components on beta cell management in type 2 diabetes, through multiple mechanisms. These dietary components modulate intercellular cascades that inhibit inflammatory molecule synthesis, the formation of free radicals, and nuclear damage, as well as induce antioxidant enzyme expression. The present review article focuses on dietary components and seeks to summarize their mechanism(s) in the prevention of diabetes initiation and progression through beta-cell management in type 2 diabetes.