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)

Three clones of the pig kidney cell line LLC-PK1 were isolated and characterized with regard to morphology, growth, proximal tubule enzyme activity, sugar uptake capacity, and hormone and drug responsiveness in a defined medium. Clone N4 was similar in morphology to the wild type (WT), whereas clone F8 showed loose attachment to the substrate, formed large, sweeping domes, and had an elongated desmosome junction between cells. The third clone, F2, did not form domes and showed a marked reduction in growth rate. Cultures of WT, N4, and F8 had higher specific activities of the enzyme alkaline phosphatase and gamma-glutamyl transpeptidase at confluence relative to growing cells; however, there was no evidence of an increase in activity of either enzyme at confluence in F2. Phlorizin-sensitive alpha-methyl-D-glucoside uptake and cytochalasin B-sensitive 2-deoxy-D-glucose uptake were measured in confluent cultures grown on porous filter supports. None of the clones lacked either of the hexose transport systems, although quantitative differences were evident. N4 cells grown in a defined medium in 96-well culture plates were tested in situ for their enzyme responses to differentiation inducers, tumor promoters, and hormones. Alkaline phosphatase activity was significantly increased at confluence by serum, parathyroid hormone (PTH), and vasopressin (AVP), and was decreased by tetradecanoylphorbol acetate (TPA) and epinephrine (EPI). Glutamyl transpeptidase activity was decreased at confluence by serum, TPA, and EPI. Similar tests on alpha-methyl-D-glucoside uptake showed that serum, TPA, PTH, and AVP had no significant effect on phlorizin-sensitive uptake; however, calcitonin increased uptake by 84% (n = 18). It was concluded that LLC-PK1 clones maintained in a defined medium are useful models for studying renal cell function.
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PMID:Growth, enzyme activity, sugar transport, and hormone supplement responses in cells cloned from a pig kidney cell line LLC-PK1. 256 38

Dopamine, like other neurotransmitters, exerts its biological effects by occupation of specific receptor subtypes. The dopamine receptors in the central nervous system and certain endocrine organs are classified into the D1/D2 subtypes. Outside the central nervous system, the dopamine receptors are classified into the DA1/DA2 subtypes. The D1/D2 and DA1/DA2 receptor have marked similarities and some differences, the most notable of which is the lower affinity of the DA dopamine compared with the D dopamine receptor. DA1 receptor activation increases renal blood flow (RBF); stimulation of DA1 and DA2 receptors may also increase glomerular filtration rate (GFR). DA1 agonists inhibit fluid and electrolyte transport indirectly via hemodynamic mechanisms and directly by occupation of DA1 receptors in specific nephron segments. In the proximal tubule, DA1 agonists simulate adenylate cyclase and inhibit Na+-H+ antiport activity. They also increase phospholipase C and inhibit Na+-K+-ATPase activity (presumably as a consequence of protein kinase C activation). The latter effects may be facilitated by DA2 agonists. In cortical collecting ducts, dopamine antagonizes the effects of mineralocorticoids and the hydrosomotic effect of antidiuretic hormone. It has also been suggested that DA1 may also decrease sodium transport by influencing other hormones, such as atrial natriuretic peptide. Studies of dopamine in the young are complicated because of the propensity for dopamine to stimulate alpha-adrenoceptors. Dopamine alone may actually decrease RBF in the perinatal period. In some animals, the renal vasodilatory and natriuretic effects of dopamine increase with age. Renal tubular DA1-stimulated adenylate cyclase activity increases, whereas renal tubular DA1 receptors decrease with age. Renal DA2 receptor density is greater in the fetus; after birth renal DA2 receptors do not change. Endogenous dopamine may regulate sodium excretion in the young differently than in the adult. In the adult, sodium surfeit is associated with an increase in urinary dopamine; the opposite occurs in the young. A decrease in dopamine production or blockade of dopamine receptors results in an antinatriuresis in the adult; dopamine blockade in the young results in a natriuresis. It remains to be determined whether these age-related differences in dopamine effects are due to changes in receptor DA subtype density, second messengers, and/or interaction with other receptors.
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PMID:The dopamine receptor in adult and maturing kidney. 257 2

The present study quantitated the effects of extracellular volume expansion on sodium and water excretion in 118 anesthetized dogs. The animals received a priming injection of 10 ml kg-1 Ringer solution i.v. which was followed by a constant Ringer solution infusion at a rate of 0.25 ml.min-1.kg-1 until the end of the experiment. Fifteen minutes after the start of the constant infusion the renal parameters were examined in 11 subsequent 15 min periods (the total time was 3 hours). Volume expansion produced no significant change in arterial blood pressure, glomerular filtration rate (GFR), plasma sodium and potassium concentration or, haematocrit, but did reduce the CPAH from 284 ml.min-1 to 218 ml.min-1 (the data were calculated for 100 gram wet kidney weight). There were constant significant increases in the urinary excretion rate from 0.84 ml.min-1 to 4.06 ml.min-1 and the 39% of the infused water was excreted during the experiment. Volume expansion also caused a significant increase in sodium excretion during the three first periods from 120 mumol.min-1 to 329 mumol.min-1 followed by a small but significant decrease. The sodium excretion at the end of the experiment was 221 mumol.min-1 and the 23% of the infused sodium was excreted in the course of the experiment. The increase of the water excretion during the volume expansion was associated with fall of the urine osmolality and the urine because hypoosmotic as compared to the plasma. We have provided evidence that vasopressin was not involved in the control of water excretion in our experiments. It is concluded that neither filtered sodium nor decreased aldosterone secretion can account for the increase in sodium excretion that occurs after Ringer solution loading in the dog. It has been proposed that a decrease in plasma protein concentration may decrease passive sodium reabsorption due to oncotic forces in the proximal tubule. The Ringer solution diuresis elicits a rise in medullary blood flow, thereby causing a washout of medullary sodium. This might dissipate the osmotic force for the back-diffusion of water from the collecting duct. Our studies indicate that the response of the diluting segments of the distal nephron to increased delivery of sodium depends upon the presence or absence of volume expansion. However the increase of the distal tubular loading activates the tubuloglomerular feedback which increases the proximal tubular reabsorption. Based on these assumptions our studies provide further evidence that the tubuloglomerular feedback regulates the blood pressure in the peritubular capillaries in the cortex around the proximal tubules.
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PMID:The effect of Ringer solution induced extracellular volume expansion on kidney function. 260 31

That the adaptation of the kidney to the acid-base status may be controlled by peptide hormones is considered. In the proximal tubule parathyroid hormone (PTH) inhibits reabsorption of both bicarbonate and phosphate. The former effect is compensated for by an increase in bicarbonate absorption in Henle's loop, and the latter effect serves to augment phosphate concentration in the distal tubular fluid, which stimulates proton secretion in collecting ducts, the net effect of PTH administration being an enhancement of urinary acidification. In the thick ascending limb, both antidiuretic hormone (ADH) and glucagon inhibit bicarbonate absorption. In distal and cortical collecting tubules ADH stimulates net bicarbonate absorption and glucagon net bicarbonate secretion, which results in stimulation and inhibition of final urine acidification, respectively. Acute acid loading stimulates endogenous PTH secretion, which, by enhancing urinary acidification, constitutes a homeostatic response of the parathyroid glands. The major effects of ADH on urinary acidification serve at least to counterbalance disturbing consequences on urinary ammonia excretion of physiological variations in the urinary flow rate. The physiological significance of the effects of glucagon is unclear at present. Thus other peptide hormones may add to PTH and corticosteroid hormones to modulate urinary acidification, which leads to the concept of a pluri-hormonal control of acid-base balance.
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PMID:Peptide hormone effects on urinary acidification and acid-base balance: PTH, ADH, and glucagon. 266 May 94

Estimations of proximal tubule sodium reabsorption with the FELi method come closer to direct measurements than any other indirect method. There is little doubt that most lithium reabsorption takes place in the proximal tubules, very likely in proportion to the reabsorption of sodium and water. It is also likely that changes in proximal tubule sodium reabsorption due to changes in volume status are paralleled by changes in proximal tubule lithium reabsorption, at least in the superficial nephrons. Nonetheless, changes in FELi probably do not purely reflect changes in proximal reabsorption, since lithium is also handled beyond the proximal tubules. Acknowledged problems are lithium reabsorption in Henle's loop and in the late distal and collecting tubules. The latter occurs in the rat and the dog, but not or much less in men. Sodium restriction enhances this lithium transport considerably. It is as yet uncertain whether other conditions, such as increased vasopressin activity or lowering of renal perfusion pressure, also influence this transport. Amiloride appears to prevent this reabsorption of lithium. Therefore, this drug can be used in lithium clearance studies whenever unwanted "distal" lithium reabsorption is expected. Lithium reabsorption in Henle's loop forms a greater problem as it cannot be prevented by any drug without influencing proximal tubule reabsorption. It is estimated that about 7% of the filtered lithium (one-tenth of total lithium reabsorption) is normally taken up here, preferentially in deep nephrons. In view of studies with furosemide, this reabsorption probably varies with sodium intake, but the proportion of this variation to that of proximal tubule lithium reabsorption is obscure. This remains an uncertain factor in any circumstance where the lithium clearance method is used. In some conditions the change in FELi may be so large relative to the expected changes in proximal reabsorption, that use of FELi as marker of end-proximal solute delivery seems unjustified. Disproportionately large suppression is likely during mineralo-corticoid-induced volume expansion, and stimulation during prostaglandin synthesis inhibition and vasopressin. Based on observations in these conditions the potential range of lithium reabsorption in the loop of Henle would be 0 to 15% of filtered load. In this review attention was paid mainly to the validity of lithium clearance as a pure "proximal marker". Many of our interpretations suffer from incomplete certainty with respect to the renal effects of tested maneuvers, a problem which is acknowledged.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Evaluation of lithium clearance as a marker of proximal tubule sodium handling. 268 25

Water transport occurs in all biological membranes. A few selected membranes in the kidney, amphibian urinary bladder, and erythrocyte have very high water permeability and are thought to contain specialized water transporting units termed "water channels." The known biophysical properties of membranes containing water channels are a high osmotic water permeability coefficient (Pf), an osmotic-to-diffusional water permeability coefficient ratio (Pf/Pd) greater than unity, a low activation energy (Ea), and inhibition by mercurial compounds. The biochemical and molecular characteristics of water channel pathways are not known at present. Established and new methods to measure Pf and Pd in kidney tubules and in isolated membrane vesicles from kidney cells are reviewed and evaluated. In the mammalian proximal tubule, a high Pf results from transcellular movement of water across highly permeable apical and basolateral membranes containing water channels. It has been assumed that proximal tubule Pf is unregulated; however, recent results indicate that apical water channels are retrieved by endocytosis and that Pf is decreased fivefold with increasing transepithelial osmotic gradients. In the thin and thick ascending limbs, Pf is nearly the lowest of all biological membranes and is not subject to regulation. In contrast, collecting tubule Pf is subject to hormonal regulation by vasopressin. Vasopressin binding to receptors located at the basal membrane of principal cells initiates adenosine 3',5'-cyclic monophosphate production, which is thought ultimately to activate the exocytic insertion of intracellular vesicles containing water channels into the cell apical membrane. Vasopressin-induced endosomes from kidney collecting tubule and toad urinary bladder contain functional water channels but no proton pumps or urea transporters, supporting a membrane shuttle hypothesis that is selective for water channels. Future directions for the isolation and molecular cloning of kidney water channels are evaluated.
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PMID:Mechanisms and regulation of water permeability in renal epithelia. 268 34

The effects of the absence of various hormones (antidiuretic hormone, thyroid hormone, parathyroid hormone, and calcitonin) on proximal and distal structures were studied in diabetes insipidus (DI) Brattleboro rats. The cross-sectional area of the first segment of proximal convoluted tubules (S1) was significantly reduced in thyroparathyroidectomized (TPTX) DI rats compared with Long-Evans rats (the strain of origin of DI rats) and untreated DI rats. Administration of triiodothyronine (T3, 10 micrograms/day for 7 days) to TPTX-DI rats restored the proximal tubule structure. In the distal convoluted tubule (DCT) the cross-sectional area of the epithelium and the number of nuclei per cross-sectional area were significantly greater in untreated ADH-deficient DI rats than in the control Long-Evans rats. Daily administration of 1-desamino-8-D-arginine vasopressin (dDAVP, 500 ng/day for 3 wk) significantly reduced the size and the number of DCT cells in DI rats. Cortical micropuncture data indicated that the Na+ concentration in the fluid delivered to the DCT and the absolute amount of Na+ reabsorbed along the DCT were higher in DI than in dDAVP-treated DI rats. It is concluded that functional changes in the PCT, subsequent to chronic TPTX, are accompanied by marked alteration of the cell anatomy of this nephron segment, and that the processes that modify the Na load delivered to the DCT and the Na transport in the DCT are accompanied by structural modifications of this segment.
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PMID:A structural study of the rat proximal and distal nephron: effect of peptide and thyroid hormones. 271 59

Two types of mitochondria-rich (MR) cells have been identified in the rabbit collecting tubule based on differences in immuno- and lectin cytochemistry. We have produced a monoclonal antibody, immunoglobulin (Ig) G1 (mr-mct), that reacts specifically with the MR cells (identified by positive histochemical staining for succinate dehydrogenase) found predominantly in the outer medulla (OM) and cells of the proximal tubule. IgG1 (mr-mct) reacted with 18 +/- 2% of the cells of the outer medullary collecting tubule (OMCT) and did not colocalize with peanut lectin-binding MR cells in the cortex. To isolate MR-OMCT cells, collecting tubule cells from collagenase dispersions of the OM were first adsorbed onto plates treated with a monoclonal antibody reactive against all of the OMCT cells. Of the isolated OMCT cells, 17% reacted with IgG1 (mr-mct). Cells were then detached from the plate and transferred to plates coated with IgG1. Greater than 70% of the adsorbed cells were MR as determined by positive staining with IgG1 (mr-mct). This enrichment of MR-OMCT cells was associated with a severalfold increase in adenosine 3',5' cyclic monophosphate (cAMP) production in response to isoproterenol and an attenuated increase in cAMP production to vasopressin. In summary, we report the isolation of highly enriched populations of MR cells from the OM using two-stage solid-phase immunoadsorption. This approach should provide a useful and convenient method for further investigations of the physiological role of these poorly understood tubular cells.
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PMID:Immunodissection of mitochondria-rich cells from rabbit outer medullary collecting tubule. 283 10

Twenty-five years after the discoveries of the existence of atrial granules and of volume receptors in the heart atria the search for natriuretic hormones has led to the isolation and identification of the atrial natriuretic factors (ANF) now considered as a hormonal system. These peptides are probably synthesized and stored in the Golgi apparatus of cardiac myocytes and are released in response to atrial wall stretch following acute plasma volume expansion and increased central blood volume, e.g., during head-out water immersion, in arterial hypertension, or increased left and/or right atrial pressure in cardiac failure, but also possibly in response to increased frequency of myocardial contractions, e.g. in paroxysmal tachycardia. The mechanisms of the renal action of these potent natriuretic hormones are not yet precisely known. Increased GFR may contribute to the initial rise in urinary sodium excretion and increased renal medullary blood flow to the later phase of natriuresis. The proximal tubule, the thin descending and the ascending limb of Henle's loop and especially the medullary collecting tubule were so far incriminated as tubular sites of action of ANF. Finally, recycling of sodium in medullary tissue and secretion of sodium via back-flux from the interstitium into the medullary collecting tubule are postulated to result in the hypernatric urine observed after ANF administration. Direct suppression of the secretion of renin, aldosterone, vasopressin, and vasopressin-stimulated cAMP synthesis may also contribute to its diuretic, natriuretic, and antihypertensive effects. The renal hemodynamic and tubular as well as the adrenal and systemic vascular effects are related to enhanced cGMP synthesis in medium-sized arterial vessels, in glomeruli and specific tubular segments, and in adrenal tissue, and may be calcium dependent. Specific ANF-binding sites were detected in these target organs. Although increased ANF release was observed in response to atrial distension in various disease states, which may contribute to renal sodium elimination in human hypertension and congestive heart failure, further studies are needed to identify its precise physiological and pathophysiological significance.
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PMID:Atrial natriuretic hormones--thirty years after the discovery of atrial volume receptors. 294 41

Binding of [125I]glucagon was measured in microdissected pieces of tubules from the rat nephron. Specific glucagon binding sites were found only in nephron segments containing a glucagon-sensitive adenylate cyclase activity. At 7.5 nM labelled hormone, higher levels of specific binding (16-27 X 10(-18) mol mm-1) were found in the thick ascending limb of the Henle's loop and in the distal convoluted tubule and lower binding levels (2-5 X 10(-18) mol mm-1) in the collecting tubule whereas specific binding could not be detected in the proximal tubule and in the thin segments of the Henle's loop. In the medullary thick ascending limb, Scatchard analysis of specific [125I]glucagon binding indicated an apparent equilibrium dissociation constant of 2.4 nM. The stereospecificity of binding sites in medullary thick ascending limbs and medullary collecting tubules, was assessed by competition experiments using unlabelled glucagon, enteroglucagon and unrelated hormones (vasopressin, calcitonin, parathyroid hormone and insulin); in both segments, glucagon was more active than enteroglucagon in displacing labelled glucagon from its tubular binding sites, whereas all other hormones tested were inactive. These results indicate that tubule binding sites might be the physiological receptors for glucagon involved in adenylate cyclase activation.
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PMID:Glucagon receptors along the nephron: [125I]glucagon binding in rat tubules. 299 91


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