Club Cell Secretion Protein 16 (CC16) Improve Chronic Obstructive Pulmonary Disease In Vivo Study

Purpose: The purpose of this study was to evaluate CC16 in COPD treatment and relative mechanism by vivo study. Materials and methods: The mice were divided into Normal, Model and CC16 groups. Measuring Pathology and goblet cell number by HE or AB/PAS staining; Evaluating apoptosis cell number by TUNEL assay; using flow separation to analysis inflammatory cells in difference groups; MAPK and NF-κB(p65) protein expression were evaluated by IHC assay in tissues; Total protein concentration of MUC5AC, CC16, Bax and Bcl-2 were evaluated by Western Blot (WB) assay. Results: Compared with Normal group, the pathology was deteriorate and goblet cell number were significantly up-regulation in Model group, apoptosis goblet cell number were significantly depressed (P < 0.001), lympbocyte rate and hypertrophic rate were significantly down-regulation and Eosinophils rate, Macrophage rate and Neutrophils rate were significantly up-regulation (P < 0.001, respectively) in Model group. By IHC assay, MAPK and NF-κB(p65) proteins expression were significantly increased (P < 0.001, respectively) in Model group; by WB assay, MUC5AC and Bcl-2 protein expression were significantly up-regulation and CC16 and Bax proteins expression were significantly down-regulation (P < 0.001, respectively) in Model group. CC16 supplement, the COPD were significantly improved with relative inflammatory cells rates significantly improving and relative proteins improving. Conclusion: CC16 could improve COPD by inducing goblet cell apoptosis increasing via regulation MAPK/NF-κB(p65) pathway In Vivo study.

Effects of Low-Dose Atorvastatin on the Peripheral BloodMononuclear Cell Secretion of Angiogenic Factors in Type 2 Diabetes

The aim of this study was to investigate the influence of statins on the secretion of angiogenesis mediators by the peripheral blood mononuclear cells (PBMCs) derived from patients suffering from type 2 diabetes. The study group comprised 30 participants and included: 10 statin-treated patients with diabetes, 10 statin-free diabetic subjects, and 10 statin-free non-diabetic individuals. PBMCs isolated from the blood were cultured in vitro in standard conditions and in an environment mimicking hyperglycemia. Culture supernatants were evaluated for VEGF, MCP-1, Il-10, and Il-12 by flow cytometry using commercial BDTM. Cytometric Bead Array tests. The secretion of VEGF, MCP-1 and Il-12 by PBMCs, cultured both in standard and hyperglycemic conditions, was significantly lower in the statin-treated patients with type 2 diabetes in comparison with the statin-free diabetic patients. Conversely, the secretion of Il-10 was higher in the statin-treated than in the statin-free diabetic patients. VEGF, MCP-1 and Il-12 levels in PBMCs supernatants from the glucose-containing medium were higher than those from the standard medium in each of the diabetic groups. The results of the study suggest that statins in low doses exhibit an antiangiogenic activity, reducing the secretion of potent proangiogenic factors, such as VEGF and MCP-1, and increasing the secretion of antiangiogenic Il-10 by PBMCs, also under hyperglycemic conditions characteristic for type 2 diabetes.

Multi-membrane search algorithm

This research proposes a new multi-membrane search algorithm (MSA) based on cell biological behavior. Cell secretion protein behavior and cell division and fusion strategy are the main inspirations for the algorithm. In order to verify the performance of the algorithm, we used 19 benchmark functions to compare the MSA test results with MVO, GWO, MFO and ALO. The number of iterations of each algorithm on each benchmark function is 100, the population number is 10, and the running is repeated 50 times, and the average and standard deviation of the results are recorded. Tests show that the MSA is competitive in unimodal benchmark functions and multi-modal benchmark functions, and the results in composite benchmark functions are all superior to MVO, MFO, ALO, and GWO algorithms. This paper also uses MSA to solve two classic engineering problems: welded beam design and pressure vessel design. The result of welded beam design is 1.7252, and the result of pressure vessel design is 5887.7052, which is better than other comparison algorithms. Statistical experiments show that MSA is a high-performance algorithm that is competitive in unimodal and multimodal functions, and its performance in compound functions is significantly better than MVO, MFO, ALO, and GWO algorithms.

Colonic lactulose fermentation has no impact on glucagon-like peptide-1 and peptide-YY secretion in healthy young men

Context The colon houses most of our gut microbiota, which ferments indigestible carbohydrates. The products of fermentation have been proposed to influence the secretion of glucagon-like peptide-1 (GLP-1) and peptide YY (PYY) from the many endocrine cells in the colonic epithelium. However, little is known about the colonic contribution to fasting or postprandial plasma levels of L-cell products. Objective To determine the impact of colonic lactulose fermentation on gut peptide secretion and to evaluate whether colonic endocrine secretion contributes to gut hormone concentrations measurable in the fasting state. Research Design and Methods Ten healthy young men were studied on three occasions after an overnight fast. On two study days, lactulose (20 g) was given orally, and compared to water intake on a third study day. For one of the lactulose visits participants underwent a full colonic evacuation. Over a six-hour study protocol, lactulose fermentation was assessed by measuring exhaled hydrogen (H2), while gut peptide secretion, paracetamol and short chain fatty acid levels were measured in plasma. Results Colonic evacuation markedly reduced hydrogen exhalation after lactulose intake (p=0.013). Our analysis suggests that the colon does not account for the measurable amounts of GLP-1 and PYY present in the circulation during fasting, and that fermentation and peptide secretion are not acutely related. Conclusion Whether colonic luminal contents affect colonic L-cell secretion sufficiently to influence circulating concentrations requires further investigation. Colonic evacuation markedly reduced lactulose fermentation, but hormone releases were unchanged in the present study.

Excretion of triacylglycerol as a matrix lipid facilitating apoplastic accumulation of a lipophilic metabolite shikonin.

Plants produce a large variety of lipophilic metabolites, many of which are secreted by cells and accumulated in apoplasts. The mechanism of secretion remains largely unknown, because hydrophobic metabolites, which may form oil droplets or crystals in cytosol, inducing cell death, cannot be directly secreted by transporters. Moreover, some secondary metabolic lipids react with cytosolic components leading to their decomposition. Lipophilic metabolites should thus be solubilized by matrix lipids and compartmentalized by membrane lipids. The mechanism of lipophilic metabolite secretion was assessed using shikonin, a red naphthoquinone lipid, in Lithospermum erythrorhizon. Cell secretion of shikonin also involved the secretion of about 30% of triacylglycerol (TAG), composed predominantly of saturated fatty acids. Shikonin production was associated with the induction of large amounts of the membrane lipid phosphatidylcholine. Together with in vitro reconstitution, these findings suggest a novel role for TAG as a matrix lipid for the secretion of lipophilic metabolites.

Scalable Fabrication of 3D Structured Microparticles Using Induced Phase Separation

Microparticles with defined shapes and spatial chemical modification can enable new opportunities to interface with cells and tissues at the cellular scale. However, conventional methods to fabricate shaped microparticles have trade-offs between the throughput of manufacture and precision of particle shape and chemical functionalization. Here, we achieved scalable production of hydrogel microparticles at rates of greater than 40 million/hour with localized surface chemistry using a parallelized step emulsification device and temperature-induced phase-separation. The approach harnesses a polymerizable polyethylene glycol (PEG) and gelatin aqueous-two phase system (ATPS) which conditionally phase separates within microfluidically-generated droplets. Following droplet formation, phase separation is induced and phase separated droplets are subsequently crosslinked to form uniform crescent and hollow shell particles with gelatin functionalization on the boundary of the cavity. The gelatin localization enabled deterministic cell loading in nanoliter-sized crescent-shaped particles, which we refer to as nanovials, with cavity dimensions tuned to the size of cells. Loading on nanovials also imparted improved cell viability during analysis and sorting using standard fluorescence activated cell sorters, presumably by protecting cells from shear stress. This localization effect was further exploited to selectively functionalize capture antibodies to nanovial cavities enabling single-cell secretion assays with reduced cross-talk in a simplified format.