18 research outputs found
The Impact of Resveratrol on Diet Induced Obesity Changes in Thymic Function
Purpose: Progenitor cells, produced in the bone marrow, migrate to the thymus where the thymic microenvironment plays a critical role in their differentiation and maturation into T cells. Fat accumulates in the thymus beginning at 1 year of age, causing the thymus to gradually involute as age progresses, thus resulting in a decline in the production of mature T-cells. Obesity augments thymic fat accumulation and hastens the decline in thymic output. Resveratrol, a phytoalexin produced in plants, has also been shown to regulate fat metabolism, in an attempt to reduce hepatic fat accumulation, via 5\u27 adenosine monophosphate-activated protein kinase (AMPK). The effect of AMPK on thymic involution, however, has not yet been determined. The purpose of this study, therefore, was to study the impact of resveratrol on thymic involution caused by diet-induced obesity. Method: C57Bl/6 male mice were fed a normal or high-fat diet in the presence or absence of resveratrol, and comparisons made in thymic fat accumulation and architecture, thymocyte proliferation and apoptosis (analyzed by flow cytometry), and thymic T cell output (measured using the TRECs assay). Results: Although negligible change in weight was observed in the low fat groups, the high fat resveratrol fed groups weighed significantly less than the high fat control group. This was also accompanied by a decrease in percent body fat and thymic weight. In addition, changes were also observed in thymocyte proliferation, apoptosis and thymic T cell output. Conclusions: The results reported provide a link between changes in lipid metabolism and thymocyte production, and may identify a dietary approach to reduce the deleterious effects of obesity on adaptive immunity
Polyphenols and Their Role in Obesity Management: A Systematic Review of Randomized Clinical Trials
Polyphenols have been suggested to reduce body weight and modify body composition through different
mechanisms. These effects have been extensively studied in animals and in vitro and to a lesser extent in humans.
The aim of this review is to consider the association between polyphenols and body weight status by focusing on
human intervention studies. We conducted a systematic literature search in MEDLINE (via EBSCOhost),
ProQuest CENTRAL, and Cochrane CENTRAL without time restrictions. Randomized controlled trials
assessing the effect of polyphenols on weight and/or body composition in the overweight and/or obese population
were included. Nineteen studies met our inclusion criteria. Results suggest that further research is required
before supporting a potential role of polyphenols in reducing weight in overweight and obese individuals (nine
studies showed a significant decrease in weight by a mean of 1.47 ± 0.58 kg). Nevertheless, several studies
indicated that polyphenols might be effective in preventing small increases in weight during periods of
overfeeding rather than reducing weight as such. The outcomes noted do not yet support polyphenol
supplementation as a complementary approach in weight loss diets. Further larger trials with a duration of
12 months or more are needed to elucidate the effect of polyphenols on body weight status
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The influence of obesity and lipid metabolism on thymic function
textApproximately two-thirds of US adults are overweight or obese, and obesity is also becoming more prevalent in children and adolescents. Similar to adults, obese children are at a higher risk of developing health problems due in part to dysfunctional immune surveillance. Obesity has been shown reduce the generation of new T-cells by accelerating thymic aging in an adult mouse. This study therefore aimed at determining whether similar diet induced obesity (DIO) changes can be induced in a young mouse. Comparisons made between lean and DIO C57Bl/6 mice showed a significant increase in thymic weight, decrease in thymic cellularity and thymic output, and impaired T-cell development at the double negative stage. We associate these alterations with changes in thymic architecture and accumulation of lipid droplets within the thymic cortex and medulla of the obese mice. The above observations indicate that DIO can induce fat accumulation and reduce thymic function at a young age. Resveratrol, a natural polyphenolic compound, was then used to regulate fat metabolism in an attempt to reduce these DIO changes we observed. Resveratrol induces fat oxidation via 5' adenosine monophosphate-activated protein kinase (AMPK), and its reciprocal regulation of glycerol-3-phosphate acyltransferase-1 (GPAT-1) and carnitine palmitoyltransferase-1 (CPT-1), the rate-limiting enzymes required for glycerophospholipid biosynthesis and oxidation, respectively. Through resveratrol feeding, we were able to prevent the effects of DIO on thymic architecture and thymic T-cell proliferation. This was achieved by manipulating AMPK into inhibiting GPAT-1 and enhancing CPT-1 activity. Since the expression of GPAT-1 was upregulated in the obese mice, we investigated whether deleting GPAT-1 altogether might prevent the thymic involution, by inhibiting synthesis of glycerophospholipids and triacylglycerol. Instead, we found that GPAT-1 deletion slowed thymic growth and reduced cellularity in young mice, which we associated with impaired thymic T-cell function and development, suggesting that the deleterious effects of GPAT-1 deficiency may be due to perturbations in thymic T-cell activation and signaling. These data provide a novel link between lipid metabolism and T-cell development, and identify the use of the naturally-occurring resveratrol to reduce lipid accumulation within the involution-prone thymus, thus providing a useful approach to preventing a decline in thymic function in childhood.Nutritional Science
Incidence of vitamin B12 / D3 deficiency among company executives
The present cross-sectional and interventional study was carried out to assess the incidence of vitamin B12 / vitamin D deficiency in male office executives in the tropical city of Mumbai, India. A total of 75 senior executives were surveyed and subjected to analysis of blood levels of vitamin D (25 Hydroxy Cholecalciferol) by RIA method and vitamin B12 by CLIA method. The same was performed in a reputed analytical laboratory with NABL accreditation. History of smoking, exposure to sunlight, exercise, dietary habits, consumption of vitamin supplements, medication etc. was obtained
Hysteresis in sorption. XVI. Sorption of water on some Indian soils and soil fractions
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Nuclear position relative to the Golgi body and nuclear orientation are differentially responsive indicators of cell polarized motility.
Cell motility is critical to biological processes from wound healing to cancer metastasis to embryonic development. The involvement of organelles in cell motility is well established, but the role of organelle positional reorganization in cell motility remains poorly understood. Here we present an automated image analysis technique for tracking the shape and motion of Golgi bodies and cell nuclei. We quantify the relationship between nuclear orientation and the orientation of the Golgi body relative to the nucleus before, during, and after exposure of mouse fibroblasts to a controlled change in cell substrate topography, from flat to wrinkles, designed to trigger polarized motility. We find that the cells alter their mean nuclei orientation, in terms of the nuclear major axis, to increasingly align with the wrinkle direction once the wrinkles form on the substrate surface. This change in alignment occurs within 8 hours of completion of the topographical transition. In contrast, the position of the Golgi body relative to the nucleus remains aligned with the pre-programmed wrinkle direction, regardless of whether it has been fully established. These findings indicate that intracellular positioning of the Golgi body precedes nuclear reorientation during mouse fibroblast directed migration on patterned substrates. We further show that both processes are Rho-associated kinase (ROCK) mediated as they are abolished by pharmacologic ROCK inhibition whereas mouse fibroblast motility is unaffected. The automated image analysis technique introduced could be broadly employed in the study of polarization and other cellular processes in diverse cell types and micro-environments. In addition, having found that the nuclei Golgi vector may be a more sensitive indicator of substrate features than the nuclei orientation, we anticipate the nuclei Golgi vector to be a useful metric for researchers studying the dynamics of cell polarity in response to different micro-environments