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Secretion Process (secretion + process)

Distribution by Scientific Domains
Medical Sciences60%
Life Sciences40%

Selected Abstracts

Ultrastructural localization of salivary mucins MUC5B and MUC7 in human labial glands

EUROPEAN JOURNAL OF ORAL SCIENCES, Issue 1 2010
Monica Piras
Piras M, Hand AR, Tore G, Ledda GP, Piludu M. Ultrastructural localization of salivary mucins MUC5B and MUC7 in human labial glands. Eur J Oral Sci 2010; 118: 14,18. © 2010 The Authors. Journal compilation © 2010 Eur J Oral Sci As a result of their presence throughout the mouth in the submucosa or between muscle fibers, minor salivary glands secrete directly and continuously into the oral cavity, providing mucosal surfaces with highly glycosylated proteins that are active in bacterial aggregation and in oral tissue lubrication. In this study, we investigated the ultrastructural localization of the MUC5B and MUC7 mucins in human labial glands by means of a postembedding immunogold technique. Thin sections of normal human labial glands, obtained during surgery, were incubated with polyclonal antibodies to human salivary mucins MUC5B and MUC7, and then with gold-labeled secondary antibodies. Specific MUC5B reactivity was found in the secretory granules of mucous cells of all glands examined, and was associated with the luminal membrane of duct cells. MUC7 labeling was observed in the granules of both mucous and seromucous secretory cells of the glandular parenchyma. Quantitative analyses demonstrated that seromucous granules have higher immunogold labeling densities for MUC7 than mucous granules. Our immunohistochemical data extend the results of previous light microscopic studies of MUC5B and MUC7 localizations, pointing out the significant contribution of human labial glands in the secretion process of these two mucins. [source]

Simultaneous inactivation of the wprA and dltB genes of Bacillus subtilis reduces the yield of ,-amylase

LETTERS IN APPLIED MICROBIOLOGY, Issue 6 2002
K. Stephenson
Aims:,In Gram-positive bacteria, signal peptide-bearing secretory proteins are translocated through the cytoplasmic membrane and fold into their native conformation on the outside of the cell. The products of the Bacillus subtilis wprA and dltB genes separately influence post-translocational stages of the secretion process by mediating proteolytic degradation and folding of secretory proteins. Inactivation of either wprA or dltB in B. subtilis increases the yield of secretory proteins released into the culture medium in an intact and biologically active conformation. The aim of this work was to study the combined influence of these genes. Methods and Results:,A wprA/dltB double mutant was constructed, but did not have an additive effect on secretion and caused a significant reduction in the yield of ,-amylase. Conclusions and Significance:,The activities of the wprA gene and the dlt operon interact in a negative way to influence the growth cycle and protein secretion. The mechanism by which this may occur, and its potential significance for the secretion of native and non-native proteins from B. subtilis and related bacteria, is discussed. [source]

C-ring requirement in flagellar type III secretion is bypassed by FlhDC upregulation

MOLECULAR MICROBIOLOGY, Issue 2 2010
Marc Erhardt
Summary The cytoplasmic C-ring of the flagellum consists of FliG, FliM and FliN and acts as an affinity cup to localize secretion substrates for protein translocation via the flagellar-specific type III secretion system. Random T-POP transposon mutagenesis was employed to screen for insertion mutants that allowed flagellar type III secretion in the absence of the C-ring using the flagellar type III secretion system-specific hook,,-lactamase reporter (Lee and Hughes, 2006). Any condition resulting in at least a twofold increase in flhDC expression was sufficient to overcome the requirement for the C-ring and the ATPase complex FliHIJ in flagellar type III secretion. Insertions in known and unknown flagellar regulatory loci were isolated as well as chromosomal duplications of the flhDC region. The twofold increased flhDC mRNA level coincided in a twofold increase in the number of hook-basal bodies per cell as analysed by fluorescent microscopy. These results indicate that the C-ring functions as a nonessential affinity cup-like structure during flagellar type III secretion to enhance the specificity and efficiency of the secretion process. [source]

Disposition of acamprosate in the rat: Influence of probenecid

BIOPHARMACEUTICS AND DRUG DISPOSITION, Issue 7 2002
Teodoro Zornoza
Abstract The purpose of the present study was to investigate the disposition of acamprosate (calcium bis acetyl-homotaurine) in the rat. Initially, we studied the linearity of acamprosate disposition and the fraction of acamprosate excreted unchanged in the urine of the animals. Rats received 9.3, 36.6 or 73.3 mg/kg of the drug as an intravenous bolus. The statistical analysis of the pharmacokinetic parameters did not reveal any significant difference, indicating that acamprosate disposition was linear within the range of the doses assayed. On average, 95% of the administered dose was excreted unchanged in the urine of the animals in the 0,6 h post-administration period indicating that renal excretion is the main elimination route for this drug. Acamprosate was also administered by the intravenous route at three different constant infusion rates (2.65, 132.5 and 530 ,g/min) in order to quantify total (Clt) and renal (Clr) plasma clearances at steady-state conditions. The mean Clr values were, respectively, 4.60±0.42, 4.28±0.52 and 4.08±0.67 ml/min, practically equivalent to the Clt values (4.78±0.38, 4.51±0.36 and 4.21±0.56 ml/min), confirming that the drug is mainly eliminated via renal excretion. Moreover, Clr values were clearly higher than the glomerular filtration rate (2.61±0.26 ml/min), suggesting the existence of a highly efficient tubular secretion mechanism in the renal excretion of the drug. To confirm this hypothesis, two groups of rats were intravenously treated with probenecid (33.3 or 66.6 mg/kg) prior to acamprosate administration (9.3 mg/kg). Probenecid provoked a statistically significant dose-dependent reduction in the total clearance of acamprosate (from 5.8±0.7 ml/min in the control group to 2.6±0.1 ml/min in the animals treated with 66 mg/kg of probenecid) demonstrating the existence of a tubular secretion process on the renal excretion of acamprosate in the rat. Copyright © 2002 John Wiley & Sons, Ltd. [source]

An adipocentric view of signaling and intracellular trafficking

DIABETES/METABOLISM: RESEARCH AND REVIEWS, Issue 5 2002
Silvia Mora
Abstract Adipocytes have traditionally been considered to be the primary site for whole body energy storage mainly in the form of triglycerides and fatty acids. This occurs through the ability of insulin to markedly stimulate both glucose uptake and lipogenesis. Conventional wisdom held that defects in fuel partitioning into adipocytes either because of increased adipose tissue mass and/or increased lipolysis and circulating free fatty acids resulted in dyslipidemia, obesity, insulin resistance and perhaps diabetes. However, it has become increasingly apparent that loss of adipose tissue (lipodystrophies) in both animal models and humans also leads to metabolic disorders that result in severe states of insulin resistance and potential diabetes. These apparently opposite functions can be resolved by the establishment of adipocytes not only as a fuel storage depot but also as a critical endocrine organ that secretes a variety of signaling molecules into the circulation. Although the molecular function of these adipocyte-derived signals are poorly understood, they play a central role in the maintenance of energy homeostasis by regulating insulin secretion, insulin action, glucose and lipid metabolism, energy balance, host defense and reproduction. The diversity of these secretory factors include enzymes (lipoprotein lipase (LPL) and adipsin), growth factors [vascular endothelial growth factor (VEGF)], cytokines (tumor necrosis factor-,, interleukin 6) and several other hormones involved in fatty acid and glucose metabolism (leptin, Acrp30, resistin and acylation stimulation protein). Despite the large number of molecules secreted by adipocytes, our understanding of the pathways and mechanisms controlling intracellular trafficking and exocytosis in adipocytes is poorly understood. In this article, we will review the current knowledge of the trafficking and secretion processes that take place in adipocytes, focusing our attention on two of the best characterized adipokine molecules (leptin and adiponectin) and on one of the most intensively studied regulated membrane proteins, the GLUT4 glucose transporter. Copyright © 2002 John Wiley & Sons, Ltd. [source]