Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01185 (vasopressin)
 23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Light microscopic observations using Nomarski interference contrast optics or darkfield optics on unstained aldehyde-fixed vibratome sections of hypothalami from normal young adult male and female Long Evans rats and from vasopressin-deficient Brattleboro rats, revealed the presence of cells in the supraoptic, paraventricular and periventricular nuclei which possessed yellow birefringent inclusions of globular or filamentous appearance in their somata. These inclusions were morphologically distinct from the large lipid droplets present in vasopressinergic magnocellular neurons of diabetes insipidus mice. Small portions of the vibratome sections containing the birefringent cells were excised and prepared for correlative electron microscopy. This revealed that the birefringent inclusions represented electron-dense material within cisterns of endoplasmic reticulum in magnocellular neurons. Antibodies to oxytocin or oxytocin-associated neurophysin immunolabelled the intracisternal electron-dense material and neurosecretory granules in resin-embedded ultrathin sections. Antibodies to vasopressin or vasopressin-associated neurophysin, and a panel of lectins did not label the intracisternal material. Quantitation revealed a small increase in the numbers of birefringent cells in aged rats and in rats drinking saline for 3 days. Subcutaneous injection of oestradiol benzoate for 7 days prior to fixation caused a large increase. After cessation of oestradiol administration the numbers of birefringent cells decreased; observations on the remaining cells showed that the endoplasmic reticulum cisterns were frequently fused with the plasmalemma, resulting in direct release of neurosecretory material into the extracellular spaces.
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PMID:Peptide accretions in the endoplasmic reticulum of magnocellular neurosecretory neurons in normal and experimentally manipulated rats. 181 Sep 24

Freeze-fracture electron microscopy reveals intramembrane particle arrays in basal membranes of granular epithelial cells as well as both upper and lower plasma membranes of the underlying basal cells in the toad urinary bladder. These particle arrays are morphologically indistinguishable from the luminal membrane aggregates which are known to be associated with antidiuretic hormone (ADH)-stimulated water transport. In both granular and basal cells particle arrays are frequently located in and/or around the openings of vesicular and/or tubular structures fused to the plasma membranes, suggesting that they may be transferred from the cytoplasm by membrane fusion. Quantification of cytoplasmic aggrephores in control granular cells shows that they can be numerous and as close to the basolateral membrane as they are with the luminal membrane, to which they are known to fuse and deliver aggregates upon ADH stimulation. Aggrephore-like tubules were also found in the basal cells. Particle array densities were quantified for 6 pairs of control and ADH-stimulated hemibladders. At least 1440 microns 2 area of plasma membrane for each membrane domain was examined. Results indicate that the presence of these particle arrays in granular and basal cell membranes is highly variable and that exposure to ADH does not cause a statistically significant increase in their frequency.
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PMID:Intramembrane particle structures in epithelial cells of the toad urinary bladder: a quantitative freeze-fracture study. 250 77

In the neural sheath of the fused thoracicoabdominal ganglia of the blowfly Calliphora erythrocephala, extensive neurohaemal areas can be seen in the electron microscope. A separate set of neurohaemal areas located in the sheath of the lateral abdominal nerve roots contain neural terminals of at least three morphological types. To determine which bioactive substances are stored and possibly released from the neurons supplying these neurohaemal areas, we applied a large number of antisera raised against different neuropeptides of invertebrate and mammalian type. Antisera to two types of neuropeptides react with neurons innervating the sheath of the abdominal nerve roots: antisera to lysine-vasopressin and proctolin. There are only 14-24 vasopressin-like immunoreactive (VPLI) neurons in the entire nervous system of Calliphora. These are all restricted to a bilateral cluster in the fused abdominal ganglia. From this cluster, the neurohaemal areas in abdominal nerve roots are supplied. Proctolin-like immunoreactivity (PLI) can be seen in a large number of neurons in the nervous system of blowflies. The supply of PLI terminals to the abdominal nerve roots is from 12 to 14 neurons in a bilateral cluster of abdominal PLI neurons. It is clear from light- and electron-microscopic immunocytochemistry that the two antisera label two separate populations of neurons that form overlapping terminals in the neural sheath. The immunoreactive terminals are located just below the permeable acellular basal lamina of the neural sheath. Hence, it is likely that at least two different bioactive peptides can be released neurohormonally into the circulation. An additional set of four efferent PLI neurons send axons into the medial abdominal nerve. These do not form neurohaemal terminals in the nerve root, but may innervate the hindgut. Also in the larval nervous system, VPLI and PLI neurons can be recognized. In the larva, the peptide-containing neurons are segmentally arranged. The 14 larval VPLI neurons supply segmental abdominal nerves with axons that run inside the nerves to their targets. During metamorphosis, the segmental nerves fuse and the VPLI axons invade the neural sheath where they arborize and form varicose terminals. About the same number of PLI neurons could be detected in the abdominal ganglia of larval and adult flies. Only for a set of four caudal PLI neurons could efferent axons be traced in the larva. These axons run inside the medial abdominal nerves. The same four PLI neurons, with the same axonal projections, can be recognized in the adults.
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PMID:Vasopressin- and proctolin-like immunoreactive efferent neurons in blowfly abdominal ganglia: development and ultrastructure. 256 72

The dynamic insertion and retrieval of membrane at the apical surface plays an important role in the action of antidiuretic hormone (ADH). The addition of membrane with water channels is a crucial event in initiating the water permeability response. ADH-stimulated bladders display distinctive differentiations in the apical membrane that represent sites where intracellular vesicles carrying intramembrane particle aggregates have fused with the apical surface. In the absence of an osmotic gradient these fusion sites appear to be relatively stable structures, but in the presence of an osmotic gradient there seems to be continuous addition and retrieval of membrane during sustained exposure to ADH. It is now clear that a dynamic feedback process is present, such that the water permeability of the apical membrane is adjusted by retrieval or addition of membrane depending on the magnitude of the transepithelial osmotic gradient. Removal of ADH leads to a striking retrieval of apical membrane, and intact aggregates have been demonstrated in the membrane of the vesicles that form in the apical cytoplasm after reversal of the response. Structure-function analysis has provided unique information, demonstrating that membrane dynamics is central to the mechanism whereby ADH regulates osmotic permeability in the toad urinary bladder.
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PMID:Dynamics of apical membrane responses to ADH in amphibian bladder. 268 71

This review focuses on events at the apical plasma membrane of toad urinary bladder and mammalian collecting duct as their permeability to water changes in response to antidiuretic hormone (ADH) and to its withdrawal. The major marker of the permeability change is observed in freeze-fracture electron microscopy of the apical plasma membrane and consists of a dramatic increase in membrane particle aggregates and, in toad bladder but not in collecting duct, in fused vesicles (aggrephores) that contain particle aggregates in their limiting membranes. Withdrawal of ADH is accompanied by endocytosis at the apical membrane, reflecting retrieval of water-permeable, particle aggregate-containing membrane. Covalent labeling of the external surface of the apical membrane of toad bladder identifies specific proteins that are present in the apical membrane only during the response to ADH. Proteins of the same molecular weights are also present in the retrieved membrane when ADH is withdrawn. Several controversial areas are considered, including the extent of cell swelling as water flows across the epithelium from dilute apical solution to isotonic basal solution, whether only principal cells or principal cells and intercalated cells participate in the water permeability response of the collecting duct, the role of the cytoskeleton in the water permeability response, and the proposed second water permeability barrier that is affected by ADH, but not by adenosine 3',5'-cyclic monophosphate.
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PMID:Antidiuretic hormone moves membranes. 284 50

We have reported that Pf/Pd(w) (the ratio of osmotic and diffusional water permeabilities) for the luminal membrane of toad urinary bladder is approximately 17 for tissues stimulated with either vasopressin or 8-bromoadenosine 3',5'-cyclic monophosphate (8-BrcAMP). In a recent abstract, Kachadorian and co-workers have shown that tissues stimulated with adenosine 3',5'-cyclic monophosphate (cAMP) or forskolin have a lower Pf than would be anticipated from the frequency of aggregates visualized on the flat portion of the luminal membrane using freeze-fracture electron microscopy. We report here measurements of Pf/Pd(w) for the luminal membrane of tissues receiving these agents: Pf/Pd(w) for submaximally stimulated tissues was the same, regardless of whether the stimulant was vasopressin (12.7 +/- 0.3), forskolin (13.7 +/- 0.9), or cAMP (12.0 +/- 1.3). The calculated Pd(w)'s for the series barrier were also identical (6.8 +/- 0.5, 6.5 +/- 0.3, and 8.2 +/- 1.0 X 10(-4) cm/s respectively). Our data, taken together with those of Kachadorian et al. are consistent with a number of possibilities: because our methodology does not permit estimation of Pf for the series barrier, we cannot rule out the possibility of a "post-luminal barrier" that is rate-limiting for Pf, but not for Pd(w) in forskolin- and cAMP-stimulated tissues, Pf and Pd(w) of the luminal surface aggregates could decrease in parallel, so that luminal membrane Pf/Pd(w) remains constant, and there could be a diminished frequency of fused aggregate-rich aggrephores, but not of aggregates that are on the flat portion of the luminal membrane. Only the latter can be unequivocally quantitated using freeze-fracture electron microscopy.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparison of effects of forskolin, cAMP, and vasopressin on Pf/Pd(w) of toad urinary bladder luminal membrane. 302 75

It has been assumed from studies in toad bladder that antidiuretic hormone (ADH)-stimulated particle delivery to the luminal membrane is mediated by particle-carrying tubular structures (aggrephores). We report studies in frog and toad urinary bladder showing that vesicles, rather than aggrephores, appear to play the major role in particle delivery in the frog and that vesicle and aggrephore delivery proceed in parallel in the toad. Our principal evidence for this view is that in the frog, transmission electron microscopy shows virtually no fused aggrephores. Supporting evidence includes the following. 1) Freeze-fracture studies show that the diameters of fusion events delivering particles can be quite small, indicating that they are formed by fused vesicles rather than fused aggrephores. 2) A significant population of small fusion events is also seen in the toad, along with larger fusion events related to both aggrephores and large vesicles. 3) Surface aggregate areas in both species are small, consistent with vesicular delivery. 4) Freeze-fracture replicas indicate delivery from shallow pits. We propose a system of transport of particles in which aggrephores act largely as intermediate storage organelles in the frog and as storage and fusion organelles in the toad.
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PMID:Role of vesicular transport in ADH-stimulated aggregate delivery. 314 70

Fetal vasopressin neurons were grafted into adult Long-Evans rats with vasopressin deficiencies created by neural lobe ablation one week prior to implantation. Control animals and recipients with ectopic grafts still possessed significant deficits in fluid regulation 6 weeks following implantation. However, recipients with grafts fused to the host median eminence and containing magnocellular vasopressin neurons juxtaposed to the host portal vasculature showed restored peripheral vasopressin activity as measured by normal urine volumes and osmolalities. These findings suggest that structural integration of grafted neuroendocrine tissue with the appropriate target in the host brain is a necessary prerequisite for physiological activity.
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PMID:Structural and functional relationships of grafted vasopressin neurons. 370 31

Freeze-fracture electron microscopy of the toad urinary bladder indicates that distinctive intramembrane particle aggregates are responsible for the increase in apical membrane water permeability that occurs with vasopressin (VP) stimulation. In unstimulated bladders the aggregates occur in the cytoplasm of the cells in tubular membrane structures now called aggrephores. After stimulation by VP, aggrephores are shuttled to the surface and fuse with the apical membrane. It is suggested by structural observations and by measurements of membrane capacitance that the area of aggregates inserted into the apical membrane is much greater than previously suspected because many aggregates remain in the wall of the fused aggrephores. The area of the aggregates in a stimulated bladder is sufficiently large for these structures to represent an organized array of water channels that mediates the change in apical membrane permeability. Work with antibodies supports the concept that these channels are not always resident in the apical membrane but become inserted only after stimulation by the hormone VP.
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PMID:Membrane structural studies of the action of vasopressin. 389 54

A method for screening monoclonal antibodies (McAbs) to neuropeptides was evaluated using 8-arginine-vasopressin (AVP) as a model. Mice were immunized with AVP-thyroglobulin conjugate and their spleen cells were fused with X 63-Ag8.653 mouse myeloma cells. The resulting hybridoma supernatants were screened for specific antibody production using 3 different assays: solid phase enzyme radioimmunoassay in Terasaki plates (Ter-ELISA), liquid phase radioimmunoassay (LPRIA) and an immunohistochemical technique. From 2 independent fusions, 7 McAbs specific for AVP were obtained. They belonged to the IgG1 subclass and reacted more strongly to the ring part of the nonapeptide. The screening strategy proposed relies upon a crude selection of conjugate-reacting hybridomas, followed by neuropeptide-specific hybridoma identification using both LPRIA (with radioiodinated synthetic peptide) and an immunohistochemical technique (to detect natural neuropeptide). During subcloning steps Ter-ELISA is then chosen, to select for specific clones and to eliminate those reacting with the carrier thyroglobulin.
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PMID:Comparison of three immunoassays in the screening and characterization of monoclonal antibodies against arginine-vasopressin. 401 47


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