Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P41181 (collecting duct)
5,183 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vasopressin is known to increase the permeability of the toad bladder, an analogue of the mammalian collecting duct, to water and hydrophilic solutes such as urea. In the present study, the effect of vasopressin on the permeability of a series of lipophilic compounds, including many commonly used drugs, has been determined. In all cases, permeability increased from 50 to 100%. The response to vasopressin was mediated by cyclic adenosine monophosphate (cAMP), and was generally not altered by phloretin, an agent that inhibits amide movement through the amide transport pathway. Evidence that these compounds move directly through the lipid phase of the membrane was provided in studies of phenobarbital permeability at low and high luminal pH. We would conclude from these studies that the effect of vasopressin on the luminal cell membrane is a widespread one, modifying both lipid components and components involved in amide, sodium and water transport. This may be of importance in the renal tubular reabsorption of many drugs, including barbiturates, glutethimide and antibiotics.
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PMID:Vasopressin-stimulated movement of drugs and uric acid across the toad urinary bladder. 0 5

Acute clearance studies were performed in normal subjects to assess the actions of the new diuretic, piretanide, on renal function. The drug increased both glomerular filtration rate and effective renal plasma flow in roughly proportionate amounts, so that filtration fraction did not change. In a dosage of 2 to 3 mg, it induced an increase in sodium excretion of almost 13% of filtered load, and there was an associated 2- to 3-fold increase in potassium excretion. The abstraction of solute-free water from the collecting duct was markedly reduced, but the drug induced no significant decline in the generation of free water. The rate of bicarbonate excretion, as well as that of titratable acid and ammonium, was increased approximately proportionately so that there was no increase in urinary pH or net hydrogen ion excretion. There was no phosphaturia, a unique finding, since all other drugs and maneuvers that cause a bicarbonate diuresis are also phosphaturic. Piretanide increased calcium excretion by approximately 19% of filtered load. The data suggest that the drug acts largely in the ascending limb of the loop of Henle and that it also affects the proximal tubule. Despite its sulfonamide structure, none of the drug's effects appear to be related to inhibition of carbonic anhydrase.
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PMID:Acute effects of piretanide in normal subjects. 3 85

We describe a patient with lithium-induced nephrogenic diabetes insipidus in whom detailed investigations of distal tubular function were performed. Clearance of free water during water diuresis was found to be augmented. This suggests proximal suppression of sodium reabsorption by lithium. Reabsorption of free water during high solute clearance was impaired. Acidification of the urine following ammonium chloride loading was abnormal, and this was corrected by sodium sulfate infusion. The cellular mechanism of lithium was investigated by means of indomethacin, an inhibitor of prostaglandin synthesis. Indomethacin caused a partial reversal of the nephrogenic diabetes insipidus, suggesting that the primary cellular action of lithium may be to inhibit the formation of cyclic AMP in the collecting duct cell, although a direct action of indomethacin in increasing solutes in the renal medulla could not be ruled out. It is possible that the lithium-induced polyuria is partially due to an enhancement by lithium of renal prostaglandin action.
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PMID:Lithium-induced nephrogenic diabetes insipidus: studies of tubular function and pathogenesis. 4 18

1. The proposition that changes in renal calcium excretion during vasopressin administration are positively correlated with concurrent changes in urine hydrogen ion concentration was tested by administration of vasopressin into twelve conscious diuresing sheep receiving either alkalinizing or acidifying infusions. 2. Vasopressin-induced antidiuresis in sheep with alkaline urine was associated with significant increases in urinary pH and decreases in the rate of calcium excretion whereas antidiuresis in sheep with acid urine was associated with significant decreases in urinary pH and no consistent effect on calcium excretion. 3. Magnesium excretion increased during vasopressin administration in most experiments regardless of urinary pH changes. 4. Vasopressin administration did not significantly alter the rate of excretion of sodium, potassium, chloride and phosphate or the rates of sodium, potassium, chloride, inulin, para-aminohippurate and osmolal clearance in sheep with either acid or alkaline urine. Potassium excretion and clearance in sheep with alkaline ruine was higher than that of sheep with acid urine during vasopressin infusion. 5. The results support the hypothesis that changes in renal tubular hydrogen ion concentration or bicarbonate concentration caused by water reabsorption from the collecting duct and possibly the late distal tubule could be part of the explanation for changes in renal calcium excretion which occur during vasopressin-induced antidiuresis.
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PMID:Renal calcium and magnesium excretion during vasopressin administration into sheep with acid or alkaline urine. 4 39

Most of filtered K+ is reabsorbed passively in the proximal tubule since the tubular fluid (TF): plasma (P) concentration ratio is almost identical to the equilibrium value calculated from the transtubular potential difference. In the loop of Henle, K+ also moves passively along chemical and electrical gradients. Only 5-10% of the filtered K+ remains in the early distal convoluted tubule. In the distal convoluted tubule TF/P K+ is lower than the calculated equilibrium value suggesting that K+ is passively secreted and actively reabsorbed. Most of the excreted K+ had been secreted by the end of the distal convoluted tubule. Aldosterone increases K+ secretion in this segment, an effect that may be dissociated from the effect on Na+. The relation between K+ secretion and Na+ absorption is the consequence of the luminal electronegativity produced by Na+ absorption and is not stoichiometric. Acidosis and alkalosis decrease and increase K+ secretion in the distal tubule respectively; this is not due to reciprocal changes in H+ secretion. Normally, some K+ is reabsorbed in the collecting duct. During K+ deprivation and loading the collecting duct may participate in the conservation or elimination of K+ respectively. Adaptation to chronic K+-loading consists of renal and extrarenal factors. The extrarenal mechanism is aldosterone-dependent and consists of rapid uptake of K+ by muscle. The renal mechanism consists of increased K+ secretion by the distal tubule. Luminal electronegativity and increased K+ pool in the distal tubular cell play a crucial role.
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PMID:Disposition and regulation of body potassium: an overview. 13 35

The effects of ethanol on the water permeability and short-circuit current of the isolated urinary bladder of the toad, Bufo marinus, were investigated. Ethanol alone did not alter the flow of water along an osmotic gradient. The increase in osmotic water flow caused by vasopressin, theophylline or cyclic adenosine-3',5'-monophosphate was inhibited by 4 to 40 mg per ml of ethanol in the mucosal or serosal bathing medium. The inhibition was more marked when ethanol was added to the serosal bathing medium, in spite of the increase in the osmotic gradient across the toad bladder caused by the ethanol. Ethanol had no effect on the increase in sodium transport (short-circuit current) due to vasopressin, although there was a significant inhibition of base-line short-circuit current. It is possible that the water diuresis due to ethanol may result in part from an inhibition of the effect of vasopressin on the collecting duct.
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PMID:Effect of ethanol on the water permeability and short-circuit current of the urinary bladder of the toad and the response to vasopressin, adenosine-3',5'-monophosphate and theophylline. 17 29

The mechanism of Ca2+ transport by various segments of the distal nephron was studied in vitro using the isolated perfused tubule technique. Calcium absorption in the distal convoluted tubule (DCT) and the granular portion of the cortical collecting duct (CCTg) was significantly enhanced in the presence of parathyroid hormone (PTH), 3 X 10(-2) U/ml. Na+ was absorbed from and K+ was secreted into the lumen of the DCT. The presence of amiloride (5 X 10(-5) M) or furosemide (5 X 10(-5) M) in the perfusate of DCT each caused a partial inhibition of Na+ but not Ca2+ absorption. The foregoing result with Na+ is consistent with the heterogeneous nature of DCT. Net Na+ absorption and K+ secretion also occurred in the CCTg; both processes were completely inhibited by amiloride. Ca2+ absorption occurred in the thick ascending limb of Henle's loop; it was not enhanced by PTH, and the results were consistent with passive movement. No net Ca2+ movement was observed in the nongranular (light) segment of the cortical collecting tubule in the presence or absence of PTH or dibutyryl cyclic adenosine monophosphate.
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PMID:Calcium transport across segments of the rabbit distal nephron in vitro. 21 62

Rapidly induced systemic alkalinization due to either sodium-lactate or sodium-bicarbonate infusion in prolonged-fasted subjects with steady-state ketoacidosis was associated with a decrease in urine pH. This decrease in urine pH from 5.50 to 5.20 was the result of a significant decrease in urinary ammonium excretion from 8.40 to 6.35 mEg/hr and was not accompanied by an increase in net acid excretion (11.3 vs. 10.6 mEg/hr). The decreased ammonium excretion is attributed to the raised pH of the proximal tubular fluid resulting in a less favorable pH gradient for gaseous ammonia entry. This would decrease gaseous ammonia generated in the loop of Henle for collecting duct buffering of secreted hydrogen ions.
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PMID:Mechanism for the paradoxical aciduria following alkali administration to prolonged-fasted patients. 23 93

The kidneys of a normal man filter approximately 24,000 meq sodium/day, reabsorb about 23,900, and yet can make a 1--2 meq change in 24-h urinary sodium excretion. The control of urinary sodium excretion, therefore, depends, first, on ensuring that the bulk of the sodium is reabsorbed, a function which is carried out in the proximal tubule and ascending loop of Henle. Second, it depends on adjusting the reabsorption of the small quantity of sodium which is delivered into the collecting duct so that the amount excreted in the urine is that required to maintain sodium balance. The bulk reabsorptive mechanisms can be considered as buffers to prevent large fluctuations in the amount of sodium delivered to the collecting duct, thus facilitating the fine adjustments of reabsorption which are made at this site. In conditions other than extreme salt loading or deprivation, changes in sodium reabsorption in the proximal tubule and loop of Henle probably have little, if any, effect on urinary sodium excretion. Sodium reabsorption in the proximal tubule and the collecting duct appears to be influenced by unidentified circulating substances.
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PMID:The control of sodium excretion. 35 40

Kallikrein excreted with the urine appears to be formed in the kidney. The kallikrein-kinin system in the kidney is localized in the distal nephron from the juxtaglomerular apparatus to the collecting duct. It has been shown that intrarenal infusion of kinins produces an increase in renal blood flow as well as diuresis and natriuresis. Part of the effect of kinins appears to be mediated by the release of prostaglandins. However, the precise role of the renal kallikrein-kinin system in sodium and volume homeostasis and in blood pressure regulation still remains to be determined. Mineralocorticoids as well as the diuretics furosemide, bumetanide and bendroflumethiazide increase, spironolactone decreases kallikrein excretion. Urinary kallikrein has been shown to increase acid-as well as cryoactivation of prorenin in vitro. It is unclear as yet, however, whether the renal kallikrein-kinin system takes part in converting inactive prorenin into active renin in vivo. There are reports on subnormal, normal as well as increased kallikrein excretion in spontaneously hypertensive rats. In rats susceptible to the hypertensive effect of salt a substantially decreased excretion of kallikrein has been observed. Kallikrein excretion has been described to be increased in primary aldosteronism and to be reduced in a proportion of patients with established essential hypertension. In patients with labile hypertension, however, kallikrein excretion appears to be normal suggesting that decreased urinary kallikrein in essential hypertension is a consequence rather than a cause of hypertension. The renal kallikrein-kinin system does not appear to play a primary role in the pathogenesis of hypertension.
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PMID:[Renal kallikrein-kinin system and control of blood pressure (author's transl)]. 39 77


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