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Query: UNIPROT:P01185 (
vasopressin
)
23,126
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Pial artery constriction following fluid-percussion injury to the brain is associated with elevated cerebrospinal fluid (CSF)
vasopressin
concentration in newborn pigs. It has also been observed that fluid-percussion injury reverses the function of
vasopressin
from that of a dilator to a constrictor. Endothelin-1 (ET-1), a purported mediator of cerebral vasospasm, can be released by several stimuli, including
vasopressin
. The present study was designed to investigate the role of ET-1 in pial artery constriction and in the reversal of
vasopressin
from a dilator to a constrictor, which is observed after fluid-percussion injury. Brain injury of moderate severity (1.9-2.3 atm) was produced in anesthetized newborn pigs that had been equipped with a closed cranial window. Endothelin-1 elicited pial dilation at low concentrations and vasoconstriction at higher concentrations. Fluid-percussion injury reversed the process of dilation to that of constriction at the low ET-1 concentration and potentiated this constriction at high ET-1 concentrations (10% +/- 1%, -8% +/- 1%, and -15% +/- 1% vs. -6% +/- 1%, -17% +/- 1%, and -26% +/- 2% for 10(-12), 10(10),10(-8) M ET-1 before and after fluid-percussion injury, respectively). Vasopressin modestly increased CSF ET-1 concentration before fluid-percussion injury. Fluid-percussion injury markedly increased CSF ET-1 concentration and the ability of
vasopressin
to release ET-1 (20 +/- 2, 26 +/- 3, and 40 +/- 4 pg/ml vs. 93 +/- 6, 141 +/- 9, and 247 +/- 31 pg/ml for control, 40 pg/ml
vasopressin
, and 400 pg/ml
vasopressin
before and after fluid-percussion injury, respectively). An ET-1 antagonist,
BQ 123
(10(-6) M) blunted pial artery constriction following fluid-percussion injury (146 +/- 5 microns -127 +/- 6 microns vs.144 +/- 5 microns-136 +/- 4 microns). The
BQ 123
also blocked the reversal of
vasopressin
's function from that of a dilator to a constrictor after fluid-percussion injury (8% +/- 1%, 21% +/- 3%, and -5% +/- 1%, -14% +/- 2% vs. 8% +/- 1%, 21% +/- 2% and 4% +/- 1%, 2% +/- 1% for 40 and 4000 pg/ml
vasopressin
before and after fluid-percussion injury in the absence and presence of
BQ 123
, respectively). The
BQ 123
blocked the constrictor component to ET-1, whereas it had no effect on the dilator component. These data show that ET-1 contributes to pial constriction after fluid-percussion injury. These data also indicate that
vasopressin
-induced release of ET-1 contributes to the reversal of
vasopressin
from a dilator to a constrictor following fluid-percussion injury. Furthermore, these data indicate that elevated CSF
vasopressin
and ET-1 interact in a positive feedback manner to promote pial artery constriction following fluid-percussion injury.
...
PMID:Role of endothelin in pial artery vasoconstriction and altered responses to vasopressin after brain injury. 889 30
Alterations of the endothelium may play a role in the generation of cerebral vasospasm. The objective of this study was to investigate the involvement of the endothelium and of endogenous endothelin (ET) on the NG-nitro-L-arginine (L-NOARG)-induced contractions in isolated rat basilar arteries. L-NOARG, NG-nitro-L-arginine methyl esther, and methylene blue, but not D-NOARG, induced concentration-dependent contractions and spontaneous vasomotion. The effect of L-NOARG was reversed by L-arginine and submaximally reduced in de-endothelialized arteries. The contractile effect of L-NOARG was completely suppressed by the ET-antagonists
BQ 123
and Ro 46-2005 in a part of the basilar arteries. After washout of the respective antagonist, the L-NOARG-induced contraction started, but was not influenced by a second application of the antagonist. In another part of preparations the antagonists failed to influence the L-NOARG-induced contraction. Inconsistent suppressor effects were also observed after preincubation with ketanserin, Manning compound, losartan, or indomethacin. None of these antagonists reversed the established L-NOARG-induced contraction. Thus, endothelium-derived NO suppresses spontaneous contraction and vasomotion in rat basilar arteries. Endogenous ET, 5-HT,
vasopressin
, angiotensin or cyclooxygenase metabolites do not cause the contraction induced by inhibition of the NO synthase, but may act as 'trigger factors', that may play a role in rat models of cerebral vasospasm or infarction.
...
PMID:Contractions induced by NO synthase inhibition in isolated rat basilar artery: role of the endothelium and endogenous vasoconstrictors. 947 Nov 5
