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Query: UNIPROT:P41181 (
collecting duct
)
5,183
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The dive was carried out in the open sea to a depth of 850 fsw (26.7 ATA) for 6 days (DD 1--6) in the saturated mode, with personnel transfer capsule (PTC) excursions between 0 and 150 fsw and diver excursions between 0 and 50 fsw from the saturation base. Each diver had two excursion dives on alternate days. Although each PTC excursion lasted approximately 7 h, the actual time spent in the water averaged 10.5 min per diver. For 12 divers, daily excretion of water, electrolytes, aldosterone, and antidiuretic hormone (ADH) was studied, along with plasma composition (including
prolactin
), before, during, and after hyperbaric exposure. A significant increase in urine flow was observed on DD2--4 (1604 ml/day predive vs. 2300 ml/day on DD 4; P less than 0.05), after which the degree of diuresis decreased to about 1800 ml/day. Urine osmolality changed inversely with urine flow, with the lowest value of 532 mOsm/kg on DD 4. During the postdive period, both urine flow and urine osmolality returned to the predive level. The endogenous creatinine clearance was maintained at about 200 liters/day throughout the dive. The fractional excretion of Na+ remained unchanged while that of K+ increased significantly during hyperbaric exposure, thus decreasing the urinary Na+/K+ ratio. The fractional excretion of total osmotic substances showed a small hyperbaric exposure. Body weight decreased progressively during the initial 4 days of pressure exposure, equalling 2.6 kg on DD 4. These findings suggest that the observed diuresis may be accompanied by a net loss of body water. Neither the plasma
prolactin
level nor urinary excretion of aldosterone and ADHshowed any consistent change throughout the dive. It thus appears that, although there is a small osmotic component, the observed diuresis is primarily due to the ADH-independent inhibition of fre water reabsorption from the
collecting duct
by means of a mechanism yet to be identified.
...
PMID:Urinary excretion of water and electrolytes during open-sea saturation diving to 850 fsw. 52 29
Prolactin was shown to activate adenylate cyclase in broken cellular enzyme preparations from rat renal medulla. Likewise, vasopresin was effective on this enzyme system. Parathyroid hormone was similarly active in the renal cortex. The simultaneous administration of vasopressin and
prolactin
to medullary kidney slices did not result in an additive effect in stimulating medullary adenyl cyclase. Audioradiographic techniques revealed a selective and prolonged localization of intravenously injected 125I-
prolactin
to the thick limb of the loop of Henle, the distal tubule and the
collecting duct
. It is concluded that
prolactin
activates medullary adenylate cyclase, and may do so by occupying ADH receptors.
...
PMID:Prolactin-induced stimulation of rat renal adenylate cyclase and autoradiographic localization to the distal nephron. 86 55
The effect of injections of ovine
prolactin
on kidney structure was examined in the first 10 days following transfer of seawater sticklebacks to fresh water. In hormone injected animals as well as in controls the glomeruli increase slightly in size after transfer. The podocytes intensify the secretion of mucopolysaccharides, which is indicative of increased turnover of the components of the glomerular basal lamina. The nuclei of the podocytes become enlarged, while those of the juxtaglomerular cells decrease in size. These changes are related to the well known rise of the glomerular filtration rate following transfer to fresh water. Structural indications that
prolactin
is involved in the control of glomerular filtration were not found. The epithelial cells of the three nephronic segments and of the ureter become considerably better developed after transfer to fresh water. Cell height, nuclear and mitochondrial volume, and surface of the membranes of the basal labyrinth increase in all tubular epithelia, although not to the same extent. Increases are moderate in the first proximal segment, but increasingly higher for the second proximal segment,
collecting duct
and the ureter. Especially the growth of membrane surface of the basal labyrinth, site of ion transport mechanisms, is impressive. In controls, values characteristic for freshwater fishes are reached in 6 to 9 days for all parameters for cellular development. Prolactin injections greatly stimulate growth rates in all tubular epithelia: freshwater values are reached within 3 days. No further increase was found, however.
...
PMID:The effect of prolactin on kidney structure of the euryhaline teleost Gasterosteus aculeatus during adaptation to fresh water. 94 16
MIWC is a 32 kDa mercurial-insensitive water channel [Hasegawa et al. (1994) J. Biol. Chem. 269, 5497-5500] expressed in kidney
collecting duct
, brain ependymal cells, airways, and other tissues. We showed recently that the homologous water channel CHIP28 spanned the endoplasmic reticulum (ER) membrane 4 times with N- and C-termini in the cytoplasm [Skach et al., (1994) J. Cell Biol. 125, 803-815]. Hydropathy analysis of MIWC indicated up to eight hydrophobic regions (HRs) comprising potential membrane-spanning domains. To determine MIWC transmembrane topology at the ER, 10 cDNA chimeras were constructed which encoded increasing lengths of MIWC upstream from a reporter epitope (
prolactin
P-domain) at residues 13, 46, 73, 92, 120, 140, 164, 209, 276, and 2097, corresponding to putative polar extramembrane loops in the MIWC sequence. The chimeras were translated cell-free (rabbit reticulocyte lysate+ER-derived microsomes) and in Xenopus oocytes. Peptide chains were labeled with [35S]methionine and immunoprecipitated with a P-domain antibody. Transmembrane topology as determined by protease accessibility of the P-reporter indicated six membrane-spanning domains with N- and C-termini in the cytoplasm. The predicted topology was confirmed by demonstrating N-linked glycosylation at native residue N131 and an engineered consensus site at residue 197. Membrane integration of the nascent chain, as assayed by extractability at pH 11.5, occurred after synthesis of the first HR (residues 1-46). Translocation was terminated by a stop transfer sequence in the second HR (residues 32-73) as demonstrated by translation of the heterologous construct, [
prolactin
signal sequence]-[globin]-[HR2]-P.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Distinct biogenesis mechanisms for the water channels MIWC and CHIP28 at the endoplasmic reticulum. 754 Dec 39
Arginine vasopressin is the main hormone involved in the regulation of body fluid osmolality. The hormone is released by the posterior pituitary whenever water deprivation causes an increased plasma osmolality or whenever the cardiovascular system is challenged by hypovolaemia and/or hypotension. The main site of action of this hormone is the renal
collecting duct
, but vasopressin is also a potent vasopressor and neurotransmitter, it has a role in the secretion of corticotrophin, in the regulation of the cardiovascular system, temperature and other visceral functions. Vasopressin also promotes the release of coagulation factors by vascular endothelium and increases platelet aggregability. In addition to its classical contractile effect on uterine myometrial and mammary glandular myoepithelial cells, oxytocin acts as neurotransmitter, stimulates endometrial prostaglandin production, pituitary
prolactin
secretion, luteolysis, sperm transport and natriuresis, and may play a role in immune function. Sensorial stimuli arising from the cervix and vagina as well as stimulation of the breast can induce secretion of oxytocin from the posterior pituitary. There are many vasopressin and oxytocin analogues (agonists and antagonists) that are synthetized with the goal of increasing duration of action and selectivity for the receptor subtypes, while non-peptide antagonists are orally active. The oxytocin and the vasopressin V1a, V1b and V2 receptors have recently been cloned and shown to form a sub-family within the large superfamily of G-protein-linked receptors. Renal V2 receptors mediate vasopressin-induced water reabsorption via induction of intracellular cAMP production in
collecting duct
cells. Most remaining actions of vasopressin on blood vessel constriction, liver glycogenolysis, platelet adhesion, adrenal angiotensin II secretion and certain brain functions are mediated via V1a-type receptors that are coupled to a Gq/11 protein. V1 receptor activation leads to stimulation of phospholipases C, D and A2, and an increase in intracellular calcium. Vasopressin stimulates pituitary corticotrophin release via a third vasopressin receptor type (V1b) which is present in corticotrophs. Oxytocin induces myometrial contraction, endometrial prostaglandin F2a production, mammary gland milk ejection, renal natriuresis and specific sexual, affilitative and maternal behaviours via oxytocin receptors which are also coupled to a G1/11 protein. Although only one oxytocin receptor type has been cloned so far, recent binding studies indicate that uterine endometrial oxytocin receptors may constitute a distinct receptor subtype. Expression of oxytocin receptors have relevant up- and down-regulation by oestrogens and progesterone.
...
PMID:[Hormones of the posterior region of the hypophyseal gland]. 986 66
