Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C1332347 (ADH)
 2,230 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Isolated frog urinary bladder epithelial cells, upon dissociation lose their polarity and develop microridges and occasional microvilli in a global fashion. These cells, when exposed only to isotonic Ringer's solution manifest a membrane conformation with smooth discontinuous microridges, a cytoplasm with numerous free ribosomes, rough ER, thin Golgi cisternae, mitochondria, small vacuoles, electron-dense granules, few microtubules, and numerous microfilaments and intermediate filaments with an apparent random distribution, the dissociated cells, when treated with ADH or calcium ionophore (A23187), have the appearance of numerous elongated microvilli over the entire cell surface. The cytoplasm, under these conditions, is occupied by large vacuoles with a distribution of long profiles of aggrephores and associated vesicles. The peripheral cytoplasm as well as the cavities of the elongated microvilli of these cells contain large concentrations of microfilaments often showing a strong axial orientation to the long axis of the microvilli. Many of these filamentous elements appear in contact with the apical membrane of these microvilli with an alignment with the external glycocalyx. There is an indication that these morphocytological changes as revealed by SEM and TEM studies, correlated with a redistribution and realignment of microfilaments and possibly microtubules as detected by fluorescent microscopy using immunofluorescent antibody labeling for actin and tubulin. Cells treated with verapamil, a calcium antagonist, presented dwarf and stout microvilli with little detectable alterations in the cytoplasmic compositions from that of non-hormonal treated cells. Verapamil prevented ADH induction of microvilli, with the membrane, under these conditions, appearing as compact microridges. The results indicate that calcium ionophore, like ADH, produces intense formation of microvilli in dissociated cells, mobilization and realignment of microfilaments, microtubules, increase in the density of vesicles, aggrephores and possibly secretory granules, whereas the calcium antagonist, verapamil, opposes these actions. The results suggests a prominent role of calcium in the morphological changes induced by ADH.
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PMID:Morphometric analysis of epithelial cells of frog urinary bladder, II. Effect of ADH, calcium ionophore (A23187) and verapamil on isolated dissociated cells. 313 21

Vasopressin (ADH) increases transepithelial water flow in renal epithelia by a process that involves the insertion of water channels into the apical membrane. The objective of the present study was to examine membrane surface remodeling under conditions that promote the recovery of water channels. Hemibladders were set up as sacs with an imposed osmotic gradient. The control sacs received no hormone treatment, whereas the other sacs were stimulated with 100 mU/ml ADH for 10 or 15 min to induce exocytosis and enhanced water flow. ADH was then washed from the tissues with fresh buffer rinses to abolish the hormone actions. These tissues were then allowed to recover for 15, 30 and 60 min. During this time water channels are recovered intracellularly by a process of endocytosis. This time period was called the retrieval period. At specified time intervals, tissues were fixed and processed for SEM or embedded in epon for ultrathin sectioning for TEM studies. Control tissues, regardless of the length of time, showed little or no sign of surface remodeling that was indicative of endocytosis during pre- or post-buffer washes, whereas the ADH-treated tissues showed a time-dependent remodeling of the apical membrane during activation and following removal of the hormone during the retrieval period. At the 10 min retrieval period, greater than 47% of the granular cells showed extensive surface remodeling. By 30 and 60 min posthormone treatment during recovery, fewer than 23% of granular cells showed signs of surface membrane changes. During retrieval the apical membrane undergoes a transition with a loss of both microridges and microvilli prior to membrane restoration. These observations suggest that apical membrane remodeling is crucial for the restoration of membrane permeability following hormone activation and termination.
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PMID:Surface membrane remodeling following removal of vasopressin in toad urinary bladder. 802 24

The present study investigates prospective of tailored nanoparticles as vectors to provide improved therapeutic efficacy of encapsulated anti-cancer drug 5-FU. Condritin Sulphate (CS) conjugated PLGA nanoparticles were prepared using PEG-bis-amine and adipic dihydrazide as spacers and loaded with an anti-cancer drug 5-FU (CS-PEG-PLGA-FU and CS-ADH-PLGA-FU). The formulations were then compared with non CS-anchored monomethoxy(polyethylene glycol) (MPEG-PLGA-FU) nanoparticles. Nanoparticlulate systems were further characterized by FTIR, NMR, TEM studies and particle size/polydispersity index (PDI) analysis. DSC and XRD were also performed to assess the nature of 5-FU inside the nanoparticles. The nanoparticles prepared using amphiphilic block copolymer CS-PEG-PLGA were able to sustain the release of 5-FU up to 48 h whereas those of CS-ADH-PLGA and MPEG-PLGA released the drug up to 24 h. The CS-PEG-PLGA-FU nanoparticles were found to be least haemolytic when compared to free drug, CS-ADH-PLGA-FU and MPEG-PLGA-FU nanoparticles. Cytotoxicity studies were performed on MCF-7/MDA-MD 231 breast cancer cells. PLGA nanoparticles exhibited more potent cytotoxic effect on MCF-7/MDA-MD 231 cells than free doxorubicin. Further, enhanced cytotoxicity and lower hemolytic potential of CS-PEG-PLGA-FU nanoparticles suggest a potential application in cancer chemotherapy.
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PMID:Chondroitin sulphate decorated nanoparticulate carriers of 5-fluorouracil: development and in vitro characterization. 2132 7