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Query: UNIPROT:P01185 (
vasopressin
)
23,126
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The water permeability of the kidney collecting duct epithelium is regulated by
vasopressin
(VP)-induced recycling of water channels between an intracellular vesicular compartment and the plasma membrane of principal cells. To test whether the water channels pass through an acidic endosomal compartment during the endocytic portion of this pathway, we measured ATP-dependent acidification of FITC-dextran-labeled endosomes in isolated microsomal fractions from different regions of Brattleboro rat kidneys. Both VP-deficient controls and rat treated with exogenous VP were examined. ATP-dependent acidification was not detectable in endosomes containing water channels from distal papilla (osmotic water permeability Pf = 0.038 +/- 0.004 cm/s). In contrast, the addition of ATP resulted in a strong acidification of renal cortical endosomes (pHmin = 5.8, initial rate = 0.18-0.25 pH U/s). Acidification of cortical endosomes was reversed with nigericin and strongly inhibited by N-ethyl-maleimide. Passive proton permeability was similar and low in both cortical and papillary endosomes from rats treated or not treated with VP. The fraction of labeled endosomes present in microsomal preparations was determined by fluorescence imaging microscopy of microsomes nonspecifically bound to poly-l-lysine-coated coverslips and was 25% in cortical preparations compared to 14% (+VP) and 9% (-VP) in papillary preparations. The fraction of cortical endosomes was enriched 1.5-fold by immunoabsorption to coverslips coated with mAbs against the bovine vacuolar proton pump. In contrast, the fraction of papillary endosomes was depleted more than twofold by immunoabsorption to identical coverslips. Finally, sections of distal papilla stained with antibodies against the lysosomal glycoprotein LGP120 showed that most of the entrapped FITC-dextran did not colocalize with this
lysosomal protein
. These results demonstrate that vesicles which internalize water channels in kidney collecting duct principal cells lack functional proton pumps, and do not deliver the bulk of their FITC-dextran content to lysosomes. The data suggest that the principal cell contains a specialized nonacidic apical endocytic compartment which functions primarily to recycle membrane components, including water channels, to the plasma membrane.
...
PMID:Endocytic vesicles from renal papilla which retrieve the vasopressin-sensitive water channel do not contain a functional H+ ATPase. 169 62
The lysosomes of hepatocytes increase in numbers and size during acute cell injury in vivo. To elucidate the mechanism of this change, we have studied in vitro the response of the autophagic lysosomal system to several physiologic mediators of autophagy, and to agents known to induce injury and/or the accumulation of lysosomes in vivo. To this end, monolayer cultures of rat hepatocytes were labeled with [14C]leucine to measure hepatocyte protein degradation; ultrastructural analyses were carried out to measure the volume fraction of lysosomes in the hepatocytes. Dibutyryl cyclic AMP increased protein degradation in the hepatocytes either in the presence or absence of serum and insulin. Deprivation of serum and insulin also increased hepatocyte protein degradation. Morphometric analysis indicated parallel increases in the volume fraction of lysosomes in the hepatocytes. The calcium ionophore ionomycin (5 microM), in the presence of 1.3 mM extracellular calcium, increased protein degradation (but not the volume fraction of lysosomes), and this increase was abolished by the addition of ethyleneglycol bis(beta-aminoethyl ether)-N,N'-tetraacetic acid. On the other hand,
vasopressin
(5 nM) caused an increase in protein degradation coupled with an increase in volume fraction of lysosomes. The microtubule depolymerizer vinblastine decreased protein degradation. The microtubule stabilizer taxol did not prevent the inhibitory effects caused by vinblastine. Parallel decreases in the lysosomal compartment were found in the hepatocytes exposed to vinblastine or taxol. Dimethylnitrosamine inhibited protein degradation as well as decreased the volume fraction of lysosomes. Finally, carbon tetrachloride also decreased protein degradation. These data indicate that in physiologic conditions, increases in numbers of hepatocyte lysosomes reflect increased sequestration and degradation of cytoplasmic proteins in response to changes in the levels of hormones, serum factors and nutrients as well as cyclic AMP. The induction of acute cell injury in vitro by calcium ionophore, microtubule active agents, and hepatotoxins inhibits lysosomal proteolysis and causes a decrease in the volume fraction of lysosomes. We conclude that the increase in lysosomal size and numbers occurring in acutely injured hepatocytes in vivo is induced primarily by altered levels of nutritional and hormonal regulators of
lysosomal protein
degradation.
...
PMID:Response of autophagic protein degradation to physiologic and pathologic stimuli in rat hepatocyte monolayer cultures. 283 7
Autosomal dominant familial
neurohypophyseal
diabetes insipidus (adFNDI) is a progressive, inherited neurodegenerative disorder that presents as polydipsia and polyuria as a consequence of a loss of secretion of the
antidiuretic hormone
vasopressin
(VP) from posterior pituitary nerve terminals. VP gene mutations cause adFNDI. Rats expressing an adFNDI VP transgene (Cys67stop) show a neuronal pathology characterized by autophagic structures in the cell body. adFNDI has thus been added to the list of protein aggregation diseases, along with Alzheimer's, Parkinson's and Huntington's, which are associated with autophagy, a bulk process that delivers regions of cytosol to lysosomes for degradation. However, the role of autophagy in these diseases is unclear. To address the relationships between mutant protein accumulation, autophagy, cell survival, and cell death, we have developed a novel and tractable in vitro system. We have constructed adenoviral vectors (Ads) that express structural genes encoding either the Cys67stop mutant protein (Ad-VCAT-Cys67stop) or an epitope-tagged wild-type VP precursor (Ad-VCAT). After infection of mouse neuroblastoma Neuro2a cells, Ad-VCAT encoded material enters neurite processes and accumulates in terminals, while the Cys67stop protein is confined to enlarged vesicles in the cell body. Similar to the intracellular derangements seen in the Cys67stop rats, these structures are of ER origin, and colocalize with markers of autophagy. Neither Ad-VCAT-Cys67stop nor Ad-VCAT expression affected cell viability. However, inhibition of autophagy or
lysosomal protein
degradation, while having no effect on Ad-VCAT-expressing cells, significantly increased apoptotic cell death following Ad-VCAT-Cys67stop expression. These data suggest that activation of autophagy by the stress of the expression of an adFNDI mutant protein is a prosurvival mechanism.
...
PMID:Autophagy is a prosurvival mechanism in cells expressing an autosomal dominant familial neurohypophyseal diabetes insipidus mutant vasopressin transgene. 1578 9
Regulation of urea transporter UT-A1 in the kidney is important for the urinary concentrating mechanism. We previously reported that activation of the cAMP/PKA pathway by forskolin (FSK) leads to UT-A1 ubiquitination, endocytosis, and degradation. In this study, we discovered that FSK-induced UT-A1 ubiquitination is monoubiquitination as judged by immunoblotting with specific ubiquitin antibodies to the different linkages of the ubiquitin chain. UT-A1 monoubiquitination induced by FSK was processed mainly on the cell plasma membrane. Monoubiquitination facilitates UT-A1 endocytosis, and internalized UT-A1 is accumulated in the early endosome. Inhibition of ubiquitination by E1 ubiquitin-activating enzyme inhibitor PYR-41 significantly reduced FSK-induced UT-A1 endocytosis and degradation. Interestingly, FSK-stimulated UT-A1 degradation occurs through a
lysosomal protein
degradation system. We further found that the PKA phosphorylation sites of UT-A1 at Ser486 and Ser499 are required for FSK-induced UT-A1 monoubiquitination. The physiological significance was confirmed using rat kidney inner medullary collecting duct suspensions, which showed that
vasopressin
treatment promotes UT-A1 ubiquitination. We conclude that unlike under basal conditions in which UT-A1 is subject to polyubiquitination and proteasome-mediated protein degradation, activation of UT-A1 by FSK induces UT-A1 monoubiquitination and protein lysosomal degradation.
...
PMID:Activation of the cAMP/PKA pathway induces UT-A1 urea transporter monoubiquitination and targets it for lysosomal degradation. 2413 16
