Is there a prostaglandin involvement in the positive inotropic action of histamine in isolated pregnant rat uterus, apparently mediated via H1-receptors activation?

Cumulative dose-response curves for histamine induced responses in mesometrial (ME) and antimesometrial (AME) regions of uterine horns isolated from rats at 7th, 16th and 22nd days of pregnancy, were constructed. Histamine inhibited, in dose-related fashion, the isometric developed tension in ME and...

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Detalles Bibliográficos
Publicado: 1987
Materias:
acetylsalicylic acid
chlorpheniramine
cimetidine
histamine
histamine h1 receptor
histamine h1 receptor antagonist
mepacrine
mepyramine
phospholipase
prostaglandin
prostaglandin synthase
animal cell
dose response
drug mechanism
inotropism
nonhuman
pregnancy
uterus horn
Alprostadil
Animal
Aspirin
Chlorpheniramine
Cimetidine
Dinoprost
Dinoprostone
Female
Histamine
Pregnancy
Prostaglandins
Prostaglandins E
Prostaglandins F
Pyrilamine
Quinacrine
Rats
Receptors, Histamine
Receptors, Histamine H1
Stimulation, Chemical
Support, Non-U.S. Gov't
Uterine Contraction
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_02621746_v28_n3_p285_Viggiano
http://hdl.handle.net/20.500.12110/paper_02621746_v28_n3_p285_Viggiano
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling paper:paper_02621746_v28_n3_p285_Viggiano2023-06-08T15:22:52Z Is there a prostaglandin involvement in the positive inotropic action of histamine in isolated pregnant rat uterus, apparently mediated via H1-receptors activation? acetylsalicylic acid chlorpheniramine cimetidine histamine histamine h1 receptor histamine h1 receptor antagonist mepacrine mepyramine phospholipase prostaglandin prostaglandin synthase animal cell dose response drug mechanism inotropism nonhuman pregnancy uterus horn Alprostadil Animal Aspirin Chlorpheniramine Cimetidine Dinoprost Dinoprostone Female Histamine Pregnancy Prostaglandins Prostaglandins E Prostaglandins F Pyrilamine Quinacrine Rats Receptors, Histamine Receptors, Histamine H1 Stimulation, Chemical Support, Non-U.S. Gov't Uterine Contraction Cumulative dose-response curves for histamine induced responses in mesometrial (ME) and antimesometrial (AME) regions of uterine horns isolated from rats at 7th, 16th and 22nd days of pregnancy, were constructed. Histamine inhibited, in dose-related fashion, the isometric developed tension in ME and AME strips obtained at the 7th day of pregnancy, an action antagonized by cimetidine (10-4-10-5M). On the contrary, at the 16th and 22nd days, histamine (10-5-10-3M), stimulated spontaneous contractions in the ME region but had no effect in the AME segment. Although histamine and SKF-71481-A2,aH1-receptor agonist, both at 10-4M, enhanced similarly ME inotropism at the 16th and at 22nd days of pregnancy, the positive contractile action of histamine was greater at the 16th than at the 22nd day. Moreover, cumulative dose-response curves for histamine and SKF-71481-A2 in the ME region of uteri isolated at the 16th day of gestation, showed that both agonists have approximately the same inotropic potency and efficacy. On the other hand, pyrilamine (at 10-4M, but not at 10-5M),aH1-receptor antagonist, shifted to the right the dose-response curve for histamine in ME strips from uteri at the 16th day of pregnancy and attenuated significantly, the magnitude of the positiue inotropism evoked by the amine. Similar findings were observed in the presence of chlorpheniramine (at 10-6M) another H1-receptor blacker. In addition, the positive uterine inotropism evoked by histamine in the ME region of preparations isolated at the 16th day of pregnancy, was significantly reduced by an antagonist of phospholipase A2 (mepacrine, 10-4M) as well as by acetylsalicylic acid (ASA at 10-4M), an inhibitor of cyclooxygenase. Results also indicate that the excitatory uterine inotrpism elicited by the agonistic amine in ME strips isolated from rats at the 16 th day of pregnancy, was coincident with an enhanced release of prostaglandins (PGs) E2 and F2 α, but not of PGE1 and that both augmenting actions of histamine were antagonized by histamine H1 receptor-blockers, namely pyrilamine (mepyramine or chlorpheniramine. Results suggest that histamine at early pregnancy diminished myometrial inotropism via its interaction with H2-receptors, whereas from mid pregnancy up to the moment of parturition it evokes contractile stimulation, most likely due to the activation of H1-receptor located at the mesometrial region of rat uterine horns. Altogether the present data suggest that after mid pregnancy, histamine acts at the ME region of the uterus through a cascade of influences: (a) activation of H1 receptors, (b) stimulation of phospholipase A2 (via an increased permeability of calcium ions?), which catalyzes the release of a PG fatty acid precursor (most likely arachidonic acid rather than dihomo-gamma-linolenic acid) providing a substrate for cyclo-oxygenase and further enzymes involved in the synthesis of bioactive lipid metabolites of the 2 series (PGE2 and PGF2 α), and as a consequence,(c) induction of positive myometrial inotropism. © 1997. 1987 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_02621746_v28_n3_p285_Viggiano http://hdl.handle.net/20.500.12110/paper_02621746_v28_n3_p285_Viggiano
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic acetylsalicylic acid
chlorpheniramine
cimetidine
histamine
histamine h1 receptor
histamine h1 receptor antagonist
mepacrine
mepyramine
phospholipase
prostaglandin
prostaglandin synthase
animal cell
dose response
drug mechanism
inotropism
nonhuman
pregnancy
uterus horn
Alprostadil
Animal
Aspirin
Chlorpheniramine
Cimetidine
Dinoprost
Dinoprostone
Female
Histamine
Pregnancy
Prostaglandins
Prostaglandins E
Prostaglandins F
Pyrilamine
Quinacrine
Rats
Receptors, Histamine
Receptors, Histamine H1
Stimulation, Chemical
Support, Non-U.S. Gov't
Uterine Contraction
spellingShingle acetylsalicylic acid
chlorpheniramine
cimetidine
histamine
histamine h1 receptor
histamine h1 receptor antagonist
mepacrine
mepyramine
phospholipase
prostaglandin
prostaglandin synthase
animal cell
dose response
drug mechanism
inotropism
nonhuman
pregnancy
uterus horn
Alprostadil
Animal
Aspirin
Chlorpheniramine
Cimetidine
Dinoprost
Dinoprostone
Female
Histamine
Pregnancy
Prostaglandins
Prostaglandins E
Prostaglandins F
Pyrilamine
Quinacrine
Rats
Receptors, Histamine
Receptors, Histamine H1
Stimulation, Chemical
Support, Non-U.S. Gov't
Uterine Contraction
Is there a prostaglandin involvement in the positive inotropic action of histamine in isolated pregnant rat uterus, apparently mediated via H1-receptors activation?
topic_facet acetylsalicylic acid
chlorpheniramine
cimetidine
histamine
histamine h1 receptor
histamine h1 receptor antagonist
mepacrine
mepyramine
phospholipase
prostaglandin
prostaglandin synthase
animal cell
dose response
drug mechanism
inotropism
nonhuman
pregnancy
uterus horn
Alprostadil
Animal
Aspirin
Chlorpheniramine
Cimetidine
Dinoprost
Dinoprostone
Female
Histamine
Pregnancy
Prostaglandins
Prostaglandins E
Prostaglandins F
Pyrilamine
Quinacrine
Rats
Receptors, Histamine
Receptors, Histamine H1
Stimulation, Chemical
Support, Non-U.S. Gov't
Uterine Contraction
description Cumulative dose-response curves for histamine induced responses in mesometrial (ME) and antimesometrial (AME) regions of uterine horns isolated from rats at 7th, 16th and 22nd days of pregnancy, were constructed. Histamine inhibited, in dose-related fashion, the isometric developed tension in ME and AME strips obtained at the 7th day of pregnancy, an action antagonized by cimetidine (10-4-10-5M). On the contrary, at the 16th and 22nd days, histamine (10-5-10-3M), stimulated spontaneous contractions in the ME region but had no effect in the AME segment. Although histamine and SKF-71481-A2,aH1-receptor agonist, both at 10-4M, enhanced similarly ME inotropism at the 16th and at 22nd days of pregnancy, the positive contractile action of histamine was greater at the 16th than at the 22nd day. Moreover, cumulative dose-response curves for histamine and SKF-71481-A2 in the ME region of uteri isolated at the 16th day of gestation, showed that both agonists have approximately the same inotropic potency and efficacy. On the other hand, pyrilamine (at 10-4M, but not at 10-5M),aH1-receptor antagonist, shifted to the right the dose-response curve for histamine in ME strips from uteri at the 16th day of pregnancy and attenuated significantly, the magnitude of the positiue inotropism evoked by the amine. Similar findings were observed in the presence of chlorpheniramine (at 10-6M) another H1-receptor blacker. In addition, the positive uterine inotropism evoked by histamine in the ME region of preparations isolated at the 16th day of pregnancy, was significantly reduced by an antagonist of phospholipase A2 (mepacrine, 10-4M) as well as by acetylsalicylic acid (ASA at 10-4M), an inhibitor of cyclooxygenase. Results also indicate that the excitatory uterine inotrpism elicited by the agonistic amine in ME strips isolated from rats at the 16 th day of pregnancy, was coincident with an enhanced release of prostaglandins (PGs) E2 and F2 α, but not of PGE1 and that both augmenting actions of histamine were antagonized by histamine H1 receptor-blockers, namely pyrilamine (mepyramine or chlorpheniramine. Results suggest that histamine at early pregnancy diminished myometrial inotropism via its interaction with H2-receptors, whereas from mid pregnancy up to the moment of parturition it evokes contractile stimulation, most likely due to the activation of H1-receptor located at the mesometrial region of rat uterine horns. Altogether the present data suggest that after mid pregnancy, histamine acts at the ME region of the uterus through a cascade of influences: (a) activation of H1 receptors, (b) stimulation of phospholipase A2 (via an increased permeability of calcium ions?), which catalyzes the release of a PG fatty acid precursor (most likely arachidonic acid rather than dihomo-gamma-linolenic acid) providing a substrate for cyclo-oxygenase and further enzymes involved in the synthesis of bioactive lipid metabolites of the 2 series (PGE2 and PGF2 α), and as a consequence,(c) induction of positive myometrial inotropism. © 1997.
title Is there a prostaglandin involvement in the positive inotropic action of histamine in isolated pregnant rat uterus, apparently mediated via H1-receptors activation?
title_short Is there a prostaglandin involvement in the positive inotropic action of histamine in isolated pregnant rat uterus, apparently mediated via H1-receptors activation?
title_full Is there a prostaglandin involvement in the positive inotropic action of histamine in isolated pregnant rat uterus, apparently mediated via H1-receptors activation?
title_fullStr Is there a prostaglandin involvement in the positive inotropic action of histamine in isolated pregnant rat uterus, apparently mediated via H1-receptors activation?
title_full_unstemmed Is there a prostaglandin involvement in the positive inotropic action of histamine in isolated pregnant rat uterus, apparently mediated via H1-receptors activation?
title_sort is there a prostaglandin involvement in the positive inotropic action of histamine in isolated pregnant rat uterus, apparently mediated via h1-receptors activation?
publishDate 1987
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_02621746_v28_n3_p285_Viggiano
http://hdl.handle.net/20.500.12110/paper_02621746_v28_n3_p285_Viggiano
_version_ 1768546441775546368

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