Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0085383 (
hypocapnia
)
1,697
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A dose-related increase of pulmonary vasoconstrictive and bronchoconstrictive effects, as well as of the amounts in the perfusing fluid of TXB2, the stable metabolite of
TXA2
, was obtained through administration of arachidonic acid (AA) in normocapnic and deeply hypocapnic guinea-pig heart-lung preparations (HLPs) perfused with homologous red blood cells suspended in a modified Tyrode solution. Pulmonary hypertensive effects and the amounts of TXB2 detected in the perfusing fluid were reduced in hypocapnic preparations as compared with the normocapnic ones, while the bronchoconstrictive responses to AA were not affected by CO2 tension. It is concluded that: a) biosynthesis of
TXA2
is reduced in hypocapnic group if compared with that observed in normocapnic one, b) the quantitative change of AA metabolism is responsible for
hypocapnia
reduction of pulmonary vasoconstrictive effects of AA, c) stability of bronchoconstriction due to AA infusions in normocapnic and hypocapnic HLPs might indicate an up regulation for
TXA2
bronchial smooth muscle receptors by
hypocapnia
.
...
PMID:Thromboxane generation and pulmonary reactivity to arachidonic acid in heart-lung preparation of guinea-pig: modulation by PCO2. 212 27
In normocapnic and deeply hypocapnic guinea-pig heart-lung-preparations (HLPs), dose-response relationships were estimated for the bronchoconstrictor and pulmonary hypertensive responses to histamine (H), 5 hydroxytryptamine (5HT), arachidonic acid (AA) and U-46619, a prostaglandin endoperoxide analogue acting on thromboxane (
TXA2
) receptors.
Hypocapnia
potentiated in a different way the bronchoconstrictor effects of AA (increased slope of dose-response curve) and of U-46619 (shift to the left of the curve). The pulmonary vascular effects of U-46619 were unaffected by CO2 tension, whereas a linear log dose-dependence of the pulmonary hypertensive responses to AA was present only in hypocapnic HLPs. The amount of
TXA2
-like material released in normocapnic HLPs was compatible with the AA/U-46619 potency ratio calculated for the bronchoconstrictor responses in normocapnic HLPs and for the pulmonary vascular responses in hypocapnic HLPs. The above described effects of
hypocapnia
were different from those produced on the bronchial and pulmonary vascular reactivity to H and 5HT, suggesting that specific mechanisms are involved in the modulating effect of PCO2. The inhibition by indomethacin of AA-induced pulmonary vasoconstriction was unaffected by changes in CO2 tension; conversely, the bronchoconstrictor effects of AA were more substantially reduced by indomethacin in normocapnic HLPs. It is concluded that: the relative contribution of different AA metabolites to the final response of the airway system to the precursor is affected by changes in CO2 tension; different receptorial or prereceptorial mechanisms are involved in the CO2-AA interaction taking place in the two components of the lung parenchyma; the pulmonary outflow of AA metabolites provides only circumstantial evidence of the functional meaning of this release.
...
PMID:Arachidonic acid and pulmonary function in heart-lung-preparation of guinea-pig: modulation by PCO2. 310 84
