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Target Concepts:
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Query: UNIPROT:P01185 (
vasopressin
)
23,126
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The role of pituitary
vasopressin
(
antidiuretic hormone
-
-ADH
) in the formation and dynamics of aqueous humour was studied in rabbits employing different techniques. Using isolated ciliary body preparations the changes in transepithelial short-circuit current were measured, and natural
vasopressin
and Lys8-
vasopressin
were found to increase the transepithelial short-circuit current at concentrations less than 10 muU/ml (i.e. within the physiological range), indicating increased sodium transport across the ciliary epithelium. In another series of experiments with intact rabbits given an ethanol load to suppress endogenous ADH, administration of exogenous
vasopressin
raised the intraocular pressure, and a similar effect was observed when endogenous ADH production was stimulated with nicotine. Direct measurements of outflow showed that
vasopressin
was without effect when given intravenously and that the only effect when given intracamerally was to increase the facility which would tend to lower rather than raise the intraocular pressure. Finally, the intra-arterial and intravenous effects of
vasopressin
on circulation in the iris and on the intraocular and systemic arterial pressures were studied. Local effects on the vascular bed in the eye and changes in systemic blood pressure were observed only at rates of administration well in excess of the physiological range for endogenous
vasopressin
production. It is concluded that, at physiological levels,
antidiuretic hormone
can stimulate active sodium transport into the eye thereby tending to raise the intraocular pressure, and it is suggested that this may act as a homeostatic regulating mechanism limiting changes in the rate of formation of aqueous humour and in intraocular pressure which might otherwise result from diurnal variations in the state of body hydration. This also offers some explanation for the ocular hypotensive action of ethanol.
...
PMID:Role of pituitary vasopressin in the formation and dynamics of aqueous humour. 28 4
Inner medullary methylamine [glycerophosphorylcholine (GPC) and glycine betaine (betaine)] and polyol [sorbitol and myo-inositol (inositol)] osmolytes were measured in water-restricted and
antidiuretic hormone
(
ADH
)-infused Brattleboro (DI) rats. Compared with DI rats allowed water ad libitum, rats dehydrated for 3 days had higher urinary osmolality (Uosmol) (812 vs. 239 mosmol/kgH2O) and plasma osmolality (Posmol) (333 vs. 296 mosmol/kgH2O). Dehydration reduced betaine content (36 vs. 66 nmol/mg protein) but had no significant effect on GPC, sorbitol, or inositol. In separate protocols, DI rats, allowed water ad libitum, were infused for either 3 or 12 days with either
ADH
in saline (+ADH) or saline alone (
-ADH
). Compared with
-ADH
controls, 3- or 12-day
ADH
-infused rats were antidiuretic (Uosmol, 1,000-1,300 mosmol/kgH2O) but not dehydrated (Posmol, 297-300 mosmol/kgH2O). Three days of
ADH
infusion caused an increase in GPC (340%), betaine (80%), and sorbitol (248%) but not in inositol. After 12 days of
ADH
, further increases were observed in GPC (730%) and sorbitol (870%); inositol was also elevated (170%), whereas betaine was unchanged. Consequently, the total osmolyte content was significantly higher in +ADH than in
-ADH
[449 vs. 256 (3 days) and 778 vs. 199 (12 day) nmol/mg protein], whereas total osmolyte levels in dehydrated and control rats were similar (222 vs. 219 nmol/mg protein).(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Organic osmolytes in inner medulla of Brattleboro rat: effects of ADH and dehydration. 271 21
The kidney is a target organ for
antidiuretic hormone
(
ADH
) and it is also the main organ involved in the clearance of this hormone. There is controversy on the mechanisms involved in the renal handling of
ADH
, mainly in regard to whether it is secreted or reabsorbed. Kinetic and renal clearance studies of
ADH
were performed in water-loaded rats and were compared with inulin (glomerular filtration marker) and tetraethylammonium (TEA, marker of organic cation secretion). The kinetics of the three molecules fitted a bicompartmental model. Distribution constants of [125I]
-ADH
were twofold higher than those of inulin. Elimination constant was higher for inulin than for
ADH
(0.049 +/- 0.001 vs. 0.020 +/- 0.003 min-1, respectively), suggesting reabsorption of the hormone. The ratios of Clearance
ADH
/Clearanceinulin and ClearanceTEA/Clearanceinulin were 0.14 and 4.86, respectively. In summary, data from kinetic studies and from renal clearances suggested that
ADH
is reabsorbed.
...
PMID:Participation of the kidney in the kinetics of arginine vasopressin in the water-loaded rat. 771 46
