Effect of mercury on histological alterations in gill, liver and stomach tissues of Indian catfish, Clarias batrachus

Heavy metal pollution poses a great threat to aquatic ecosystem, ultimately threatening the survival of safe and healthy life on earth. Contaminated water persuades pathological alterations and behavioural changes in fish. Mercury is highly toxic and seriously affects aquatic organisms, ultimately affecting humans.The present study aimed to assess the histological alterations in tissues like gill, liver and stomach of Indian catfish Clarias batrachus. The fish were divided in to four groups i.e. one control (Group I) and three groups of different concentration of mercury chloride treated groups, i.e.0.0002mg/l (Group II), 0.002mg/l(Group III), and 0.02mg/l (Group IV) for 14 days. Each group contained 25 number of fish.The results indicated degenerative changes in gill, liver and stomach tissues of exposed fish. Level of changes were higher with respect to higher in concentration. Rupture of epithelial layer, club shaped gill filament, broken gill lamellae, hyperplasia of interlamellar epithelium, deletion of secondary lamellae, formation of vacuoles, blood conjugation and necrosis in gill filaments were observed in gill tissues of exposed fish. Liver damage included hepatocellular dissociation, inflamed hepatocytes, cloudy swelling, vacuole formation and hydropic degeneration. Besides, stomach tissues showed alterations such as thinner serosa, vacuolization, muscle damage, and necrosis at several points. The study confirmed that mercury is life hazardous even at very low concentration.

Perilipin 2 downregulation in β cells impairs insulin secretion under nutritional stress and damages mitochondria

Perilipin 2 (PLIN2) is a lipid droplet (LD) protein in β cells that increases under nutritional stress. Downregulation of PLIN2 is often sufficient to reduce LD accumulation. To determine whether PLIN2 positively or negatively affects β cell function under nutritional stress, PLIN2 was downregulated in mouse β cells, INS1 cells, and human islet cells. β Cell-specific deletion of PLIN2 in mice on a high-fat diet reduced glucose-stimulated insulin secretion (GSIS) in vivo and in vitro. Downregulation of PLIN2 in INS1 cells blunted GSIS after 24-hour incubation with 0.2 mM palmitic acid. Downregulation of PLIN2 in human pseudoislets cultured at 5.6 mM glucose impaired both phases of GSIS, indicating that PLIN2 is critical for GSIS. Downregulation of PLIN2 decreased specific OXPHOS proteins in all 3 models and reduced oxygen consumption rates in INS1 cells and mouse islets. Moreover, we found that PLIN2-deficient INS1 cells increased the distribution of a fluorescent oleic acid analog to mitochondria and showed signs of mitochondrial stress, as indicated by susceptibility to fragmentation and alterations of acyl-carnitines and glucose metabolites. Collectively, PLIN2 in β cells has an important role in preserving insulin secretion, β cell metabolism, and mitochondrial function under nutritional stress

Hemogenic Endothelial Cells Can Transition to Hematopoietic Stem Cells through a B-1 Lymphocyte-Biased State during Maturation in the Mouse Embryo

Precursors of hematopoietic stem cells (pre-HSCs) have been identified as intermediate precursors during the maturation process from hemogenic endothelial cells to HSCs in the aorta-gonad-mesonephros (AGM) region of the mouse embryo at embryonic day 10.5. Although pre-HSCs acquire an efficient adult-repopulating ability after ex vivo co-culture, their native hematopoietic capacity remains unknown. Here, we employed direct transplantation assays of CD45-VE-cadherin(VC)+KIT+(V+K+) cells (containing pre-HSCs) into immunodeficient neonatal mice that permit engraftment of embryonic hematopoietic precursors. We found that freshly isolated V+K+ cells exhibited significantly greater B-1 lymphocyte-biased repopulating capacity than multilineage repopulating capacity. Additionally, B cell colony-forming assays demonstrated the predominant B-1 progenitor colony-forming ability of these cells; however, increased B-2 progenitor colony-forming ability emerged after co-culture with Akt-expressing AGM endothelial cells, conditions that support pre-HSC maturation into HSCs. Our studies revealed an unexpected B-1 lymphocyte bias of the V+K+ population and acquisition of B-2 potential during commitment to the HSC fate

ANTIDIABETIC AND ANTIDYSLIPIDEMIC ACTIVITY OF ETHYL ACETATE FRACTIONS OF XYLOCARPUS GRANATUM AND XYLOCARPUS MOLLUCCENSIS ON HIGH FRUCTOSE HIGH FAT AND HIGH SUCROSE HIGH FAT FED-LOW DOSED STREPTOZOTOCIN TREATED DIABETIC RATS

Objectives: The present study was carried out to investigate the antidiabetic and antidyslipidemic effect of standardized fractions of X. granatum (CDR-134 F194) and X. molluccensis (CDR-267 F018) by measuring the status of blood glucose, serum insulin, lipid levels, hepatic and renal function markers of high fructose high fed streptozotocin treated rats and high sucrose high fat diet fed-low dosed Streptozotocin treated diabetic rats.Methods: Male rats of Sprague Dawley strain of body weight around 150 g when kept on high fructose high fat diet and high sucrose high fat diet for two weeks, respectively, showed abnormal glucose tolerance, dyslipidemia and obesity and at this stage when streptozotocin was given intraperitoneally at 45.0 mg/kg body weight caused persistent hyperglycemia in them addition to dyslipidemia along with impairment in their hepatic and renal functions.Results: The standardized fractions of X. granatum (CDR-134 F194) and X. molluccensis (CDR-267F018) when given to these high fructose high fat fed low dosed streptozotocin treated diabetic rats or high sucrose high fat diet fed-low dosed streptozotocin treated diabetic rats for 10 consecutive days showed significant improvement in their glucose intolerance, decline in their serum triglycerides and LDL-cholesterol levels. These CDR-134 F194 and CDR-267 F018 treated rats also showed elevation in their HDL-cholesterol levels and improvement in their hepatic and renal functions as evidenced by decline in SGOT, SGPT, urea, uric acid and creatinine levels.Conclusion: The present study thus concludes that the antidiabetic efficacy of standardized fractions of X. granatum (CDR-134 F194) and X. molluccensis (CDR-267F018) have favorable effect in bringing down the severity of hyperglycemia, hyperlipidemia, decline the increased level of renal and hepatic function markers and also improving glucose tolerance activity

Bmi1 maintains the self-renewal property of innate-like B lymphocytes

The self-renewal ability is a unique property of fetal-derived innate-like B-1a lymphocytes, which survive and function without being replenished by bone marrow (BM) progenitors. However, the mechanism by which IgM-secreting mature B-1a lymphocytes self-renew is poorly understood. In this study, we showed that Bmi1 was critically involved in this process. Although Bmi1 is considered essential for lymphopoiesis, the number of mature conventional B cells was not altered when Bmi1 was deleted in the B cell lineage. In contrast, the number of peritoneal B-1a cells was significantly reduced. Peritoneal cell transfer assays revealed diminished self-renewal ability of Bmi1-deleted B-1a cells, which was restored by additional deletion of Ink4-Arf, the well-known target of Bmi1 Fetal liver cells with B cell-specific Bmi1 deletion failed to repopulate peritoneal B-1a cells, but not other B-2 lymphocytes after transplantation assays, suggesting that Bmi1 may be involved in the developmental process of B-1 progenitors to mature B-1a cells. Although Bmi1 deletion has also been shown to alter the microenvironment for hematopoietic stem cells, fat-associated lymphoid clusters, the reported niche for B-1a cells, were not impaired in Bmi1 -/- mice. RNA expression profiling suggested lysine demethylase 5B (Kdm5b) as another possible target of Bmi1, which was elevated in Bmi1-/- B-1a cells in a stress setting and might repress B-1a cell proliferation. Our work has indicated that Bmi1 plays pivotal roles in self-renewal and maintenance of fetal-derived B-1a cells

Tinosporaside from Tinospora cordifolia Encourages Skeletal Muscle Glucose Transport through Both PI-3-Kinase- and AMPK-Dependent Mechanisms

The stem of Tinospora cordifolia has been traditionally used in traditional Indian systems of medicine for blood sugar control, without the knowledge of the underlying mechanism and chemical constitution responsible for the observed anti-diabetic effect. In the present study, Tinosporaside, a diterpenoid isolated from the stem of T. cordifolia, was investigated for its effects on glucose utilization in skeletal muscle cells, which was followed by determining the anti-hyperglycemic efficacy in our diabetic db/db mice model. We found that tinosporaside augmented glucose uptake by increasing the translocation of GLUT4 to the plasma membrane in L6 myotubes, upon prolonged exposure for 16 h. Moreover, tinosporaside treatment significantly increased the phosphorylation of protein kinase B/AKT (Ser-473) and 5′ AMP-activated protein kinase (AMPK, Thr-172). These effects were abolished in the presence of the wortmannin and compound C. Administration of tinosporaside to db/db mice improved glucose tolerance and peripheral insulin sensitivity associated with increased gene expression and phosphorylation of the markers of phosphoinositide 3-kinases (PI3Ks) and AMPK signaling in skeletal muscle tissue. The findings revealed that tinosporaside exerted its antidiabetic efficacy by enhancing the rate of glucose utilization in skeletal muscle, mediated by PI3K- and AMPK-dependent signaling mechanisms

Review Article MEDICAL WASTE MANAGEMENT AND MINIMIZATION

Abstract:We all know that medical wastes are more hazardous than the municipal solid waste and household waste. The medical wastes are the unwanted and discarded materials that are commonly used day by day. Various types of disease-causing agents called as pathogens are found in a high amount of medical wastes. Some commonly caused diseases are parasitic infections, infections of the airways and lungs, meningitis, disease from improperly disposed of with traces of vaccines, bacteremia, infections of reproductive organs, sexually transmitted infections, HIV, hepatitis B and C viruses, and hemorrhagic fevers, and many other diseases. The various wastes generated from the healthcare sectors are needed to be minimized and managed in a safe way. The medical wastes are having a high public risk as it affects the normal environment. The medical wastes are the key factors for environmental pollution. Now a day the medical waste management has become a great challenge and having a critical issue as it is affecting the connected population as well as the environment. The main problem with the unsuccessful waste management can be due to the untrained employees (not known about the waste management) in the healthcare units. Awareness among the health workers for proper medical waste management should be there to create control over the successful minimization the medical waste and its hazardous effect on the public. So the medical waste management, as well as the minimization, is most necessary. This systematic study refers to a brief report on the medical wastes and the possible processes to making the society safe and beware of the hazardous wastes and their management by which the environmental pollution, as well as the public risk, could be reduced

EFFECT OF MOMORDICA CHARANTIA FRUITS ON STREPTOZOTOCIN-INDUCED DIABETES MELLITUS AND ITS ASSOCIATED COMPLICATIONS

Objective: The present study was undertaken to assess the effect of Momordica charantia fruits on diabetes mellitus and its related complications.Methods: Crude powder, aqueous, 95% and 50% ethanol extract of Momordica charantia fruits were administered to normal rats post sucrose load and streptozotocin-induced (STZ-induced) diabetic rats in single-dose study. The aqueous extract was further fractionated into butanol and aqueous fractions which were evaluated for the antihyperglycemic activity at a single dose in STZ-induced diabetic rats. The multiple dose effect of aqueous fraction was studied in high-fructose diet fed (HFD) rats and STZ-induced diabetic rats. The effect of the same fraction on cellular glucose uptake and insulin-signaling was studied in rat skeletal muscle cells (L6).Results: The aqueous extract of Momordica charantia fruits showed significant lowering of postprandial hyperglycemia in normal rats and also lowered blood glucose level in STZ-induced diabetic rats. The butanol and aqueous fractions also significantly declined the blood glucose level of STZ-induced diabetic rats in single-dose administration with comparatively higher activity in aqueous fraction. In a multiple - dose study the aqueous fraction significantly improved fasting blood glucose, oral glucose tolerance, plasma insulin level, lipid profile, hepatic and renal parameters in both high-fructose diet fed and STZ-induced diabetic rats. In vitro study of L6 cells revealed that the aqueous fraction significantly increased glucose uptake by treated cells by upregulating the expression of IRS, AKT and GLUT4 at both mRNA and protein level.Conclusion: It can be concluded that the aqueous fraction of aqueous extract of Momordica charantia fruits is competent in the control of diabetes and its related complications.Â

Trends in Cytomorphological Study of Thyroid lesions: A two year prospective study in the malwa region of central India

Background: Thyroid lesions are commonly encountered in daily clinical practice. However, excision of thyroid lesions is associated with risk. Hence an effective preliminary test is needed to avoid unnecessary surgery. An assessment of thyroid lesion by FNAC has proved to provide early diagnosis and hence helps in avoiding invasive surgery. Aims and Objectives: The purpose of present study was to study various cytomorphological features of thyroid lesions in the tertiary teaching hospital of Malwa region with respect to age, sex and to categorize them into neoplastic and non-neoplastic lesions. Materials and methods: FNAC was performed on patients who presented with thyroid swelling in department of pathology of Sri Aurobindo Medical College and PG Institute, from 1st January 2014 to 31st December 2015. Results: Out of 186 patients in our study group 161(86.56%) were benign, 23(12.37%) were malignant and 2 were inconclusive. Benign follicular lesion 108 (67%) was commonest under non-neoplastic category and follicular neoplasm 19 (82.6%) under neoplastic category. Male to female ratio was 1:4. Conclusion: FNAC plays an important role in thyroid lesions as it is safe, cost effective and also helps in selections of patients for surgery, thus minimizing risk associated with surgery

Regulatory role of miRNAs in Wnt signaling pathway linked with cardiovascular diseases

MicroRNAs (miRNAs) are discovered in science about 23 years ago. These are short, a series of non-coding, single-stranded and evolutionary conserved RNA molecules found in eukaryotic cells. It involved post-transcriptional fine-tune protein expression and repressing the target of mRNA in different biological processes. These miRNAs binds with the 3′-UTR region of specific mRNAs to phosphorylate the mRNA degradation and inhibit the translation process in various tissues. Therefore, aberrant expression in miRNAs induces numerous cardiovascular diseases and developmental defects. Subsequently, the miRNAs and Wnt singling pathway are regulating a cellular process in cardiac development and regeneration, maintain the homeostasis and associated heart diseases. In Wnt signaling pathway majority of the signaling components are expressed and regulated by miRNAs, whereas the inhibition or dysfunction of the Wnt signaling pathway induces cardiovascular diseases. Moreover, inadequate studies about the important role of miRNAs in heart development and diseases through Wnt signaling pathway has been exist still now. For this reason in present review we summarize and update the involvement of miRNAs and the role of Wnt signaling in cardiovascular diseases. We have discussed the mechanism of miRNA functions which regulates the Wnt components in cellular signaling pathway. The fundamental understanding of Wnt signaling regulation and mechanisms of miRNAs is quite essential for study of heart development and related diseases. This approach definitely enlighten the future research to provide a new strategy for formulation of novel therapeutic approaches against cardiovascular diseases