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Science Signaling Aug 2020The oral bacterium is often found in colorectal cancer (CRC). In the 21 July 2020 issue of , Casasanta show that CRC cell-resident promotes cytokine secretion that... (Review)
Review
The oral bacterium is often found in colorectal cancer (CRC). In the 21 July 2020 issue of , Casasanta show that CRC cell-resident promotes cytokine secretion that may potentiate tumor growth and metastatic progression in patients.
Topics: Bodily Secretions; Cell Movement; Chemokine CXCL1; Colorectal Neoplasms; Fusobacterium nucleatum; Humans; Interleukin-8
PubMed: 32788340
DOI: 10.1126/scisignal.abc4218 -
Nutrients Mar 2021The gastrointestinal tract can assess the nutrient composition of ingested food. The nutrient-sensing mechanisms in specialised epithelial cells lining the... (Review)
Review
The gastrointestinal tract can assess the nutrient composition of ingested food. The nutrient-sensing mechanisms in specialised epithelial cells lining the gastrointestinal tract, the enteroendocrine cells, trigger the release of gut hormones that provide important local and central feedback signals to regulate nutrient utilisation and feeding behaviour. The evidence for nutrient-stimulated secretion of two of the most studied gut hormones, glucagon-like peptide 1 (GLP-1) and glucose-dependent insulinotropic polypeptide (GIP), along with the known cellular mechanisms in enteroendocrine cells recruited by nutrients, will be the focus of this review. The mechanisms involved range from electrogenic transporters, ion channel modulation and nutrient-activated G-protein coupled receptors that converge on the release machinery controlling hormone secretion. Elucidation of these mechanisms will provide much needed insight into postprandial physiology and identify tractable dietary approaches to potentially manage nutrition and satiety by altering the secreted gut hormone profile.
Topics: Bodily Secretions; Enteroendocrine Cells; Gastric Inhibitory Polypeptide; Gastrointestinal Hormones; Gastrointestinal Tract; Glucagon-Like Peptide 1; Humans; Nutritional Physiological Phenomena; Postprandial Period
PubMed: 33803183
DOI: 10.3390/nu13030883 -
Translational Vision Science &... Dec 2022To screen and compare the differential proteins in meibomian gland secretions between patients with blepharokeratoconjunctivitis (BKC) and healthy individuals and to...
PURPOSE
To screen and compare the differential proteins in meibomian gland secretions between patients with blepharokeratoconjunctivitis (BKC) and healthy individuals and to identify target proteins that may participate in the occurrence and development of BKC.
METHODS
Thirteen patients diagnosed with BKC in Shenzhen Eye Hospital and five healthy volunteers were included in this study. Meibomian gland secretions and clinical traits were collected before and after 1 month of standard BKC treatment. Label-free mass spectrometry was used for proteomic detection of meibomian gland secretions. Weighted protein coexpression network analysis (WPCNA) and several different protein analyses were performed to identify hub proteins associated with BKC and its clinical characteristics.
RESULTS
Patients with BKC had significantly lower cleanliness of the eyelid margin, higher palpebral margin scores, more serious clinical manifestations of secretions, and more damaged meibomian gland morphology compared with the healthy controls. One hundred fifteen differential proteins were associated with the clinical traits, which included diagnosis, sex, age, severity, corneal neovascularization, disease course, eyelid margin cleanliness, palpebral margin score, secretion characteristics, and meibomian gland morphology. Four hub proteins related to inflammation and the immune response (namely, S100A8, S100A9, ANXA3, and LCN2) were increased in BKC and remained increased after 1 month of treatment. The cleanliness, blepharon eyelid score, and secretion characteristics were improved after BKC treatment.
CONCLUSIONS
S100A8, S100A9, ANXA3, and LCN2 are BKC-associated proteins probably involved in the chronic inflammation of BKC.
TRANSLATIONAL RELEVANCE
Hub proteins probably involved in chronic inflammation of BKC were identified by proteomic methods.
Topics: Humans; Meibomian Glands; Proteomics; Bodily Secretions; Calgranulin A; Calgranulin B; Inflammation
PubMed: 36458945
DOI: 10.1167/tvst.11.12.4 -
Current Opinion in Insect Science Feb 2021Ecdysteroids are a class of steroid hormones that controls molting and metamorphic transitions in Ecdysozoan species including insects, in which ecdysteroid biosynthesis... (Review)
Review
Ecdysteroids are a class of steroid hormones that controls molting and metamorphic transitions in Ecdysozoan species including insects, in which ecdysteroid biosynthesis and its regulation have been extensively studied. Insect ecdysteroids are produced from dietary sterols by a series of reduction-oxidation reactions in the prothoracic gland and in Drosophila they are released into the hemolymph via vesicle-mediated secretion at the time of metamorphosis. To initiate precisely controlled ecdysteroid pulses, the prothoracic gland functions as a central node integrating both intrinsic and extrinsic signals to control ecdysteroid biosynthesis and secretion. In this review, we outline recent progress in the characterization of ecdysone biosynthesis and steroid trafficking pathways and the discoveries of novel factors regulating prothoracic gland function.
Topics: Animals; Bodily Secretions; Ecdysteroids; Insecta; Metamorphosis, Biological
PubMed: 32950745
DOI: 10.1016/j.cois.2020.09.004 -
Journal of Hepatology Feb 2021Many epithelia secrete bicarbonate-rich fluid to generate flow, alter viscosity, control pH and potentially protect luminal and intracellular structures from chemical... (Review)
Review
Many epithelia secrete bicarbonate-rich fluid to generate flow, alter viscosity, control pH and potentially protect luminal and intracellular structures from chemical stress. Bicarbonate is a key component of human bile and impaired biliary bicarbonate secretion is associated with liver damage. Major efforts have been undertaken to gain insight into acid-base homeostasis in cholangiocytes and more can be learned from analogous secretory epithelia. Extrahepatic examples include salivary and pancreatic duct cells, duodenocytes, airway and renal epithelial cells. The cellular machinery involved in acid-base homeostasis includes carbonic anhydrase enzymes, transporters of the solute carrier family, and intra- and extracellular pH sensors. This pH-regulatory system is orchestrated by protein-protein interactions, the establishment of an electrochemical gradient across the plasma membrane and bicarbonate sensing of the intra- and extracellular compartment. In this review, we discuss conserved principles identified in analogous secretory epithelia in the light of current knowledge on cholangiocyte physiology. We present a framework for cholangiocellular acid-base homeostasis supported by expression analysis of publicly available single-cell RNA sequencing datasets from human cholangiocytes, which provide insights into the molecular basis of pH homeostasis and dysregulation in the biliary system.
Topics: Acid-Base Equilibrium; Acid-Base Imbalance; Bicarbonates; Bile; Bile Ducts; Epithelium; Humans; Hydrogen-Ion Concentration; Secretory Pathway
PubMed: 33342564
DOI: 10.1016/j.jhep.2020.10.010 -
Pflugers Archiv : European Journal of... Apr 2024The transport of bicarbonate across the enterocyte cell membrane regulates the intracellular as well as the luminal pH and is an essential part of directional fluid... (Review)
Review
The transport of bicarbonate across the enterocyte cell membrane regulates the intracellular as well as the luminal pH and is an essential part of directional fluid movement in the gut. Since the first description of "active" transport of HCO ions against a concentration gradient in the 1970s, the fundamental role of HCO transport for multiple intestinal functions has been recognized. The ion transport proteins have been identified and molecularly characterized, and knockout mouse models have given insight into their individual role in a variety of functions. This review describes the progress made in the last decade regarding novel techniques and new findings in the molecular regulation of intestinal HCO transport in the different segments of the gut. We discuss human diseases with defects in intestinal HCO secretion and potential treatment strategies to increase luminal alkalinity. In the last part of the review, the cellular and organismal mechanisms for acid/base sensing in the intestinal tract are highlighted.
Topics: Animals; Mice; Humans; Bicarbonates; Ion Transport; Enterocytes; Cell Membrane; Bodily Secretions; Hydrogen-Ion Concentration; Cystic Fibrosis Transmembrane Conductance Regulator
PubMed: 38374228
DOI: 10.1007/s00424-024-02914-3 -
Journal of Nanobiotechnology Apr 2021Biochemical analysis of human body fluids is a frequent and fruitful strategy for disease diagnosis. Point-of-care (POC) diagnostics offers the tantalizing possibility... (Review)
Review
Biochemical analysis of human body fluids is a frequent and fruitful strategy for disease diagnosis. Point-of-care (POC) diagnostics offers the tantalizing possibility of providing rapid diagnostic results in non-laboratory settings. Successful diagnostic testing using body fluids has been reported on in the literature; however, small-volume detection devices, which offer remarkable advantages such as portability, inexpensiveness, capacity for mass production, and tiny sample volume requirements have not been thoroughly discussed. Here, we review progress in this research field, with a focus on developments since 2015. In this review article, we provide a summary of articles that have detailed the development of small-volume detection strategies using clinical samples over the course of the last 5 years. Topics covered include small-volume detection strategies in ophthalmology, dermatology or plastic surgery, otolaryngology, and cerebrospinal fluid analysis. In ophthalmology, advances in technology could be applied to examine tear or anterior chamber (AC) fluid for glucose, lactoferrin, interferon, or VEGF. These approaches could impact detection and care for diseases including diabetic mellitus, dry-eye disease, and age-related maculopathy. Early detection and easy monitoring are critical approaches for improving overall care and outcome. In dermatology or plastic surgery, small-volume detection strategies have been applied for passive or interactive wound dressing, wound healing monitoring, and blister fluid analysis for autoimmune disease diagnosis. In otolaryngology, the analysis of nasal secretions and mucosa could be used to differentiate between allergic responses and infectious diseases. Cerebrospinal fluid analysis could be applied in neurodegenerative diseases, central neural system infection and tumor diagnosis. Other small-volume fluids that have been analyzed for diagnostic and monitoring purposes include semen and cervico-vaginal fluids. We include more details regarding each of these fluids, associated collection and detection devices, and approaches in our review.
Topics: Biosensing Techniques; Bodily Secretions; Body Fluids; Cerebrospinal Fluid; Clinical Laboratory Techniques; Diagnostic Techniques and Procedures; Female; Humans; Male; Nasal Mucosa; Ophthalmology; Point-of-Care Systems; Point-of-Care Testing; Vagina; Wound Healing
PubMed: 33882955
DOI: 10.1186/s12951-021-00852-1 -
PloS One 2022We imaged the carbohydrate-selective spatial binding of 8 lectins in the ampullary organs (AOs) of electroreceptors on the rostrum of freshwater paddlefish (Polyodon...
We imaged the carbohydrate-selective spatial binding of 8 lectins in the ampullary organs (AOs) of electroreceptors on the rostrum of freshwater paddlefish (Polyodon spathula), by fluorescence imaging and morphometry of frozen sections. A focus was candidate sites of secretion of the glycoprotein gel filling the lumen of AOs. The rostrum of Polyodon is an electrosensory appendage anterior of the head, covered with >50,000 AOs, each homologous with the ampulla of Lorenzini electroreceptors of marine rays and sharks. A large electrosensory neuroepithelium (EN) lines the basal pole of each AO's lumen in Polyodon; support cells occupy most (97%) of an EN's apical area, along with electrosensitive receptor cells. (1) Lectins WGA or SBA labeled the AO gel. High concentrations of the N-acetyl-aminocarbohydrate ligands of these lectins were reported in canal gel of ampullae of Lorenzini, supporting homology of Polyodon AOs. In cross sections of EN, WGA or SBA labeled cytoplasmic vesicles and organelles in support cells, especially apically, apparently secretory. Abundant phalloidin+ microvilli on the apical faces of support cells yielded the brightest label by lectins WGA or SBA. In parallel views of the apical EN surface, WGA labeled only support cells. We concluded that EN support cells massively secrete gel from their apical microvilli (and surface?), containing amino carbohydrate ligands of WGA or SBA, into the AO lumen. (2) Lectins RCA120 or ConA also labeled EN support cells, each differently. RCA120-fluorescein brightly labeled extensive Golgi tubules in the apical halves of EN cells. ConA did not label microvilli, but brightly labeled small vesicles throughout support cells, apparently non-secretory. (3) We demonstrated "sockets" surrounding the basolateral exteriors of EN receptor cells, as candidate glycocalyces. (4) We explored whether additional secretions may arise from non-EN epithelial cells of the interior ampulla wall. (5) Model: Gel is secreted mainly by support cells in the large EN covering each AO's basal pole. Secreted gel is pushed toward the pore, and out. We modeled gel velocity as increasing ~11x, going distally in AOs (toward the narrowed neck and pore), due to geometrical taper of the ampulla wall. Gel renewal and accelerated expulsion may defend against invasion of the AO lumen by microbes or small parasites. (6) We surveyed lectin labeling of accessory structures, including papilla cells in AO necks, striated ectoderm epidermis, and sheaths on afferent axons or on terminal glia.
Topics: Animals; Lectins; Fishes; Bodily Secretions; Microvilli; Epithelial Cells
PubMed: 36395118
DOI: 10.1371/journal.pone.0276854 -
Brain : a Journal of Neurology Jun 2020Transportation of key proteins via extracellular vesicles has been recently implicated in various neurodegenerative disorders, including Parkinson's disease, as a new...
Transportation of key proteins via extracellular vesicles has been recently implicated in various neurodegenerative disorders, including Parkinson's disease, as a new mechanism of disease spreading and a new source of biomarkers. Extracellular vesicles likely to be derived from the brain can be isolated from peripheral blood and have been reported to contain higher levels of α-synuclein (α-syn) in Parkinson's disease patients. However, very little is known about extracellular vesicles in multiple system atrophy, a disease that, like Parkinson's disease, involves pathological α-syn aggregation, though the process is centred around oligodendrocytes in multiple system atrophy. In this study, a novel immunocapture technology was developed to isolate blood CNPase-positive, oligodendrocyte-derived enriched microvesicles (OEMVs), followed by fluorescent nanoparticle tracking analysis and assessment of α-syn levels contained within the OEMVs. The results demonstrated that the concentrations of OEMVs were significantly lower in multiple system atrophy patients, compared to Parkinson's disease patients and healthy control subjects. It is also noted that the population of OEMVs involved was mainly in the size range closer to that of exosomes, and that the average α-syn concentrations (per vesicle) contained in these OEMVs were not significantly different among the three groups. The phenomenon of reduced OEMVs was again observed in a transgenic mouse model of multiple system atrophy and in primary oligodendrocyte cultures, and the mechanism involved was likely related, at least in part, to an α-syn-mediated interference in the interaction between syntaxin 4 and VAMP2, leading to the dysfunction of the SNARE complex. These results suggest that reduced OEMVs could be an important mechanism related to pathological α-syn aggregation in oligodendrocytes, and the OEMVs found in peripheral blood could be further explored for their potential as multiple system atrophy biomarkers.
Topics: Aged; Animals; Bodily Secretions; Brain; Cell-Derived Microparticles; Disease Models, Animal; Exosomes; Female; Humans; Male; Mice; Mice, Transgenic; Middle Aged; Multiple System Atrophy; Neurons; Oligodendroglia; Parkinson Disease; SNARE Proteins; alpha-Synuclein
PubMed: 32428221
DOI: 10.1093/brain/awaa110 -
Advanced Drug Delivery Reviews May 2022The secreted mucus layer that lines and protects epithelial cells is conserved across diverse species. While the exact composition of this protective layer varies... (Review)
Review
The secreted mucus layer that lines and protects epithelial cells is conserved across diverse species. While the exact composition of this protective layer varies between organisms, certain elements are conserved, including proteins that are heavily decorated with N-acetylgalactosamine-based sugars linked to serines or threonines (O-linked glycosylation). These heavily O-glycosylated proteins, known as mucins, exist in many forms and are able to form hydrated gel-like structures that coat epithelial surfaces. In vivo studies in diverse organisms have highlighted the importance of both the mucin proteins as well as their constituent O-glycans in the protection and health of internal epithelia. Here, we summarize in vivo approaches that have shed light on the synthesis and function of these essential components of mucus.
Topics: Epithelial Cells; Glycosylation; Humans; Mucins; Mucus; Polysaccharides
PubMed: 35278522
DOI: 10.1016/j.addr.2022.114182