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)

In cirrhotic patients without renal failure, salt retention could result from a decreased effective intravascular volume or could be a primary event leading to increased intravascular volume. Clearance of urea and uric acid depend on an effective intravascular volume. In the syndrome of inappropriate secretion of antidiuretic hormone (SIADH)--a state of increased intravascular volume--uric acid clearance is increased and that of urea is increased only when salt excretion is low. The intravascular volume of 60 consecutive cirrhotic patients without renal failure was estimated indirectly by studying the relationship between fractional excretion of filtered (FE) sodium, urea, and uric acid. Forty five per cent had a high FE uric acid (> 12%), which could mean a high intravascular volume, and presented with an FE urea that was inversely correlated with FE sodium (r = 0, 62; p < 0.001) as in SIADH, while in the controls the FE urea was positively correlated with FE sodium (r = +0, 46; p < 0.01). In patients who had a normal FE uric acid and low FE sodium (< 0.2%), the FE urea was significantly lower (40 (13)%, n = 20) than in subjects with high FE uric acid and a low FE sodium (61 (9)%, n = 16, p < 0.001); this last group also presented with lower mean blood urea concentrations (3.1 (1.2) mmol/l and 4.0 (1.8) mmol/l; p < 0.05) and a lower supine renin activity (p < 0.01). As observed in the SIADH, cirrhotic patient with high FE uric acid have raised FE urea only when salt excretion is low. It is believed that the low salt excretion is not caused by a decrease in effective intravascular volume and that this is increased in cirrhotic patients with raised FE uric acid.
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PMID:Raised urea clearance in cirrhotic patients with high uric acid clearance is related to low salt excretion. 139 36

Several cholinergic processes were demonstrated and partially characterized in rabbit kidney cortical minces: choline uptake, acetylcholine synthesis and calcium-dependent release. Minces took up labelled choline, acetylated it, and stored it in a pool that was not readily accessible to physostigmine-sensitive cholinesterase activity. [3H]Acetylcholine synthesis but not [3H]choline uptake was inhibited by the removal of sodium ions or incubation at 0 degrees C. The release of newly synthesized [3H]acetylcholine was increased by 300 mOsmol urea in a calcium-dependent manner, but not by potassium depolarization (300 mOsmol), vasopressin (10 microM), or bradykinin (10 microM). These results suggest that acetylcholine may be synthesized by non-neuronal rabbit kidney cortical cells and that this transmitter may be released in response to physiological levels of urea.
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PMID:Synthesis and release of acetylcholine in the rabbit kidney cortex. 143 79

The renal effects of acyclovir (100 mg/kg body weight i.p. for 7 days) were studied in rats. All animals became polyuric and presented an increase in blood urea nitrogen and fractional excretion of sodium and potassium. During hypotonic saline infusion, the acyclovir-treated rats showed higher distal fractional delivery compared to normal rats (27.8 +/- 4.7 vs. 11.3 +/- 0.9%, p less than 0.01) and a lower ratio of free-water clearance to distal sodium delivery (33.5 +/- 7.8 vs. 57.2 +/- 3.9%, p less than 0.02). Following hypertonic saline infusion, the ratio of osmolar to inulin clearance was higher in acyclovir rats (47.8 +/- 7.4%) than in normal rats (27.0 +/- 4.8%), whereas the ratio of free-water reabsorption to osmolar clearance was lower in the acyclovir rats (13.6 +/- 4.6 vs. 38.2 +/- 3.2%, p less than 0.01). These findings suggest an effect of acyclovir on the proximal tubule, thick ascending limb and/or inner medullary collecting duct (IMCD). In vitro measurements of 3H2O permeability of perfused IMCD of normal rats showed that vasopressin (50 microU/ml) added to the bath increased the diffusional water permeability (43.4 +/- 4.8 vs. 105.6 +/- 9.1 x 10(-5) cm/s), while in acyclovir rats, the control value (58.8 +/- 9.1 x 10(-5) cm/s) did not increase significantly in the presence of vasopressin (71.3 +/- 13.6 x 10(-5) cm/s). These results suggest that high doses of acyclovir produce azotemia and an abnormal function of the proximal tubule and thick ascending limb associated with resistance to vasopressin of the IMCD.
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PMID:Effects of acyclovir on renal function. 143 96

The kidney involvement in leptospirosis appears to be a special form of acute renal failure due to a higher frequency of polyuric forms and the presence of hypokalemia with an elevated urinary fractional excretion of potassium. Using a clearance technique, we detected higher fractional urinary potassium excretion in leptospirotic guinea pigs (26.5 +/- 4.7%) than in normal animals (14.1 +/- 2.8%, p < 0.05). After blocking distal NaCl reabsorption with furosemide, it was observed that in leptospirotic animals both fractional sodium excretion (40.0 +/- 7.4%) and fractional potassium excretion (136.3 +/- 32.7%) were higher than in normal animals (20.4 +/- 3.8%, p < 0.05, and 43.6 +/- 9.0%, p < 0.05, respectively). Microperfusion studies showed that the normal and leptospirotic medullary thick ascending limb had both identical transepithelial potential difference (+3.7 +/- 0.4 vs. 3.9 +/- 0.2 mV) and relative sodium-to-chloride permeability. The same technique showed that the osmotic water permeability (Posm; 0.9 +/- 0.4 x 10(-5) cm/s.atm) and diffusional permeability (34.7 +/- 6.6 x 10(-5) cm/s) observed in the leptospirotic inner medullary collecting duct (IMCD) in the presence of vasopressin were unchanged, as was also the case for urea permeability (3.74 +/- 0.7 x 10(-5) cm/s). These data show that acute renal failure in leptospirosis is characterized by tubular changes leading to potassium secretion probably due to a decrease in proximal sodium reabsorption. Furthermore, the inability to concentrate urine evidenced by the low P(o)sm present in leptospirotic animals is due, at least in part, to IMCD resistance to vasopressin.
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PMID:Renal involvement in leptospirosis: a pathophysiologic study. 143 48

Cardiovascular and renal responses to a step-up infusion of endothelin-1 (ET-1) (1, 5, and 15 ng kg-1 min-1) were investigated in conscious dogs. In addition, the disappearance of ET-1 in arterial and central venous plasma after an infusion of 10 ng kg-1 min-1 was quantified, and the effects of vasopressin (AVP, 10 ng kg-1 min-1) and angiotensin II (AII, 2, 5, and 10 ng kg-1 min-1) on plasma ET-1 were investigated. The step-up infusion of ET-1 increased the plasma level from 3.6 +/- 0.3 to 243 +/- 23 pg ml-1. Concomitantly, arterial blood pressure increased and heart rate (HR) decreased dose-dependently. Diuresis, sodium, and potassium excretion did not change significantly. However, free water clearance increased during the infusion. Clearance of creatinine and excretion of urea decreased (39 +/- 4 to 29 +/- 3 ml min-1 and 87 +/- 16 to 71 +/- 14 mumol min-1, respectively). Decay curves for ET-1 in venous and arterial plasma were identical, and initial t1/2 was 1.1 +/- 0.1 min. Vasopressin increased arterial blood pressure (107 +/- 4 to 136 +/- 3 mmHg) beyond the infusion period and increased plasma ET-1 (85%). An equipressor dose of AII tended to decrease plasma ET-1. It is concluded that the lung is apparently not important in the removal of ET-1, that the disappearance of ET-1 follows a complex pattern, and vasopressin--in contrast to angiotensin II--is able to increase the plasma concentration of ET-1.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects, release and disposal of endothelin-1 in conscious dogs. 144 35

The syndrome of inadequate secretion of antidiuretic hormone (SIADH) following treatment with a tricyclic antidepressant is demonstrated using the example of a 70 year-old man admitted for weakness and cognitive disturbances. Because of incontinence he had been periodically treated since 1989 with imipramine (Tofranil) by his family doctor. On admission he was seriously hyponatriemic and had low plasmatic osmolality, significantly lower than urinary osmolality. Creatinine, urea and uric acid in serum were also below normal values. Like other drugs tricyclic antidepressants can rarely induce an increased release of ADH by direct hypothalamic stimuli. In this patient imipramine was terminated and within a few days of reduced fluid intake and substitution of sodium a sustained clinical improvement and normalisation of laboratory parameters was noted. The patient was discharged to his home after three weeks.
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PMID:[Clinical-pharmacological case report: drug-induced inappropriate ADH secretion]. 144 36

Recent studies have suggested that the renal effects of high protein intake could be mediated, at least in part, by vasopressin and/or an increase in the urinary concentrating activity. The present study investigated the influence of the level of hydration, and hence of the activity of the concentrating process, on the renal response to an acute oral protein load. Clearance studies were performed before (Control) and during three hours after a protein meal (1.5 g/kg body wt protein as cooked meat) in ten healthy volunteers. This study was performed twice at a two to three week interval under either constant low (LowH) or high (HighH) hydration. In spite of the marked difference in initial diuresis (3.1 +/- 0.3 in LowH vs. 13.9 +/- 0.7 ml/min in HighH) and urine osmolality (501 +/- 42 in LowH vs. 99 +/- 3 mOsm/kg H2O in HighH), a similar relative decrease in urine flow rate was observed following the meal in both conditions. TcH2O increased progressively by 70% in LowH whereas CH2O decreased by 40% in HighH. Plasma vasopressin showed a progressive increase with time in LowH (from 1.10 +/- 0.26 in control, to 1.98 +/- 0.35 pg/ml at the third hour after the PM, P < 0.05) but not in HighH (0.53 +/- 0.09 to 0.70 +/- 0.17 pg/ml). Glomerular filtration rate (inulin clearance) increased significantly on the second post-prandial hour under LowH but not under HighH. Excretions rates of Na, Cl, K, and urea increased after the meal, however, not to the same extent nor with the same time course in the two conditions. Significant positive correlations were observed between GFR and TcH2O, urine osmolality, or the ratio of urine-to-plasma urea concentrations in LowH. These results suggest that the protein-induced hyperfiltration is partially blunted by a high water intake, and hence is dependent, directly or indirectly, on the urine concentrating activity.
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PMID:Influence of the level of hydration on the renal response to a protein meal. 145 5

In the present studies, we have found that New Zealand White rabbits kept on normal rabbit chow (16% protein, LP) are unable to raise fractional free water reabsorption [TCH2O divided by glomerular filtration rate (GFR)] as the fractional osmotic load (Cosm/GFR) is increased. Acute administration of urea (400 mosmol/l) or indomethacin (10 mg/kg iv bolus, followed by 0.25 mg/min infusion) corrects the defect. Moreover, rabbits kept for 2 wk on a 40% protein diet (HP) showed marked improvement in their renal concentration capacity. Balance studies showed that, in rabbits on HP, urine prostaglandin E2 (PGE2) excretion was lower while GFR, urine urea, and osmolar excretion were significantly higher than in rabbits in the LP group. Medullary tissue electrolytes in the HP vs. LP group were as follows: urea, 1,035 +/- 90 vs. 790 +/- 60 mmol.l-1 x g wet tissue wt-1; tissue Na+, 548 +/- 96 vs. 298 +/- 37 meq.l-1 x g wet wt-1; and K+, 201 +/- 43 vs. 99 +/- 16 meq.l-1 x g wet wt-1. Also, medullary slices from animals on HP had a lower PGE2 synthesis than those on LP when stimulated with angiotensin II (ANG II). Papillary plasma flow (PPF) measured by the accumulation of 125I-labeled albumin, after infusion of vasopressin, was 13.7 +/- 2.0 in the HP group and 22.7 +/- 3.4 ml.min-1 x 100 g-1 in the LP group. These findings suggest that lower PPF and higher urea and electrolyte content in the medullary interstitium of HP intake results from inability to produce medullary PGE2 even during ANG II or antidiuretic hormone (ADH) stimulation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of high-protein diet on renal concentration capacity in rabbits. 148 81

We previously reported that HgCl2 inhibits water and urea flux in tissues fixed with glutaraldehyde after antidiuretic hormone (ADH) stimulation and suggested that the ADH-induced water channel may share characteristics of the red blood cell and proximal tubule water transport pathway. To determine the specificity of mercury's action, we examined the effect of numerous other metals. In tissues fixed after ADH stimulation, water flow and urea and sucrose permeabilities are maintained from mucosal bath pH 2.5 through pH 12. Several metals including Ba, Co, Fe, Sr and Zn did not alter flux. Al, Cd, La, Li, Pb and U inhibited urea permeability but not water flow. At pH 2.8, Cu inhibited water flow by 30% and urea permeability by 50%. At pH 4.9-7.4, Cu inhibited urea permeability but not water flow. At pH less than or equal to 3.0, Pt inhibited flow in ADH-pretreated tissues. The inhibitory effect was not present at pH greater than 3.0. At pH less than 3.0, Au inhibited flow by 90% in tissues fixed after pretreatment with ADH but increased the permeability of tissues fixed in the absence of ADH. Ag inhibited flow by 70% but also increased sucrose, urea, and basal permeabilities. This suggests that Ag and Au disrupt epithelial integrity. These results indicate that at physiologic pH, the ADH-induced water channel is specifically blocked by Hg but not by other metals. This specificity may reflect the presence of a large number of sulfhydryl groups in the water channel.
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PMID:Comparative effect of metals on antidiuretic hormone induced transport in toad bladder: specificity of mercuric inhibition of water channels. 152 81

Isolated skate (Raja erinacea) hepatocytes swollen in hypotonic media exhibited a regulatory volume decrease (RVD) that was associated with only a small increase in K+ or 86Rb+ efflux but a substantial increase in the release of taurine, an amino acid found in high concentrations in skate hepatocytes. Taurine efflux was stimulated in media made hypotonic by addition of H2O or removal of NaCl, as well as in cells swollen in isotonic media containing rapidly penetrating solutes (202 mM ethylene glycol or 202 mM additional urea substituted for 101 mM NaCl), suggesting that cell swelling rather than hyposmolarity is the stimulus for the activation of taurine release. In contrast, release of glutathione, L-[14C]alanine and other alpha-amino acids (e.g., threonine, serine, glutamate, glutamine, glycine, or valine) was unaffected by dilution with 40% H2O. Taurine efflux was not altered by replacement of extracellular Na+ with choline+ or K+ and was only slightly diminished by replacing Cl- with NO3-. Addition of 50 mM taurine or hypotaurine to the incubation media also had no effect on volume-stimulated [14C]taurine efflux, suggesting that the taurine concentration gradient across the plasma membrane is not the driving force. Volume-stimulated taurine transport was temperature sensitive, 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid inhibitable (0.5 mM), and nearly completely blocked by metabolic inhibitors (2,4-dinitrophenol, KCN, sodium azide, oligomycin, carbonyl cyanide m-chlorophenylhydrazone, and antimycin A), suggesting an active energy-dependent process. Sulfhydryl-reactive reagents (N-ethylmaleimide, diamide, iodoacetate, tert-butyl hydroperoxide, and mercury) also blocked volume-stimulated taurine efflux, whereas efflux was unaffected by Ca2+ ionophore, phorbol ester, dibutyryl-adenosine 3',5'-cyclic monophosphate, vasopressin, or pretreatment with ouabain or furosemide. N-ethylmaleimide, diamide, 2,4-dinitrophenol, and iodoacetate plus KCN also inhibited the RVD. These findings suggest that, in contrast to hepatocytes from most vertebrate species, RVD in skate hepatocytes is associated with the release of only a small fraction of intracellular K+ but a substantial fraction of intracellular taurine and perhaps other organic osmolytes. This volume-activated taurine transport mechanism is energy and sulfhydryl group dependent and is not related to the taurine concentration gradient across the skate hepatocyte plasma membrane.
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PMID:Taurine transport in skate hepatocytes. II. Volume activation, energy, and sulfhydryl dependence. 155 Feb 35


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