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Query: UNIPROT:P01185 (
vasopressin
)
23,126
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The renal response to changes in hydration includes variation in intracellular sorbitol, a major inner medullary osmolyte. To examine the mechanism for changes in net sorbitol production, we measured activities of enzymes regulating sorbitol production (aldose reductase) and degradation (sorbitol dehydrogenase) in untreated, water diuretic, and antidiuretic (water restriction and/or
vasopressin
administration) rats. Collecting duct segments dissected from collagenase-treated kidneys of Sprague-Dawley rats were divided into outer medullary and three distinct inner medullary regions.
Aldose reductase
activity increased during antidiuresis and decreased during diuresis. In contrast, sorbitol dehydrogenase activity was very low during antidiuresis and increased during diuresis. These changes in enzyme activity were found after 3 days, but not after 1 day, of water diuresis/antidiuresis. Enzyme activity changed only in the deepest 50% of the inner medullary collecting duct. Thus, there is coordinated regulation of aldose reductase and sorbitol dehydrogenase activities so that (a) during water diuresis, aldose reductase activity decreases while sorbitol dehydrogenase activity increases; and (b) during antidiuresis (water restriction and/or
vasopressin
administration), aldose reductase activity increases while sorbitol dehydrogenase activity remains low. We conclude that long-term osmoregulation in response to physiologic stimuli involves both aldose reductase and sorbitol dehydrogenase activities in rat terminal inner medullary collecting duct segments.
...
PMID:Coordinated response of renal medullary enzymes regulating net sorbitol production in diuresis and antidiuresis. 212 8
For the purpose of clarifying the role of
vasopressin
V1 and V2 receptors in osmolyte accumulation, we determined the effects on the inner medullary osmolyte content of the administration of orally active
vasopressin
V1 and/or V2 receptor antagonists OPC-21268 (i.e., 1-(1-[4-(3-acetylaminopropoxy)benzoyl]-4-piperidyl)- 3,4-dihydro-2(1H)-quinolinone) and OPC-31260 (i.e., 5-dimethylamino-1-[4-(2-methylbenzoylamino)benzoyl]-2,3,4,5-tet rah ydro-1H- benzazepine] under a condition of maximal urine concentration achieved by water deprivation for 4 days. Taurine content increased significantly with the use of the V2 antagonist, irrespective of the use of the V1 antagonist. Inner medullary betaine content decreased with the administration of the V1 antagonist, irrespective of the administration of V2 antagonist. The administration of either the V1 or V2 antagonist alone did not affect sorbitol content, aldose reductase activity, or aldose reductase mRNA abundance in renal inner medulla. However, the combined administration of the V1 and V2 antagonists decreased all of these significantly. Myo-inositol content was not affected by the administration of the V1 or V2 antagonists. Glycerophosphorylcholine content was decreased with the use of the V2 antagonist, irrespective of the use of the V1 antagonist, and this effect paralleled urine osmolality. In conclusion, the individual organic osmolytes responded differently to the antagonists of
vasopressin
V1 and/or V2 receptors. The mechanisms linked to
vasopressin
V1 and/or V2 receptors appeared to modulate the accumulation of some organic osmolytes in the inner medulla.
Aldose reductase
mRNA abundance and sorbitol accumulation in the inner medulla appeared to be mediated through either V1 or V2 receptors.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Organic osmolytes in rat renal inner medulla are modulated by vasopressin V1 and/or V2 antagonists. 804 55
