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Query: UMLS:C0020440 (
hypercapnia
)
7,939
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have investigated whether enkephalin-containing peptides and catecholamines are increased in fetal plasma during periods of reduced uterine blood flow which produce moderate fetal asphyxia (i.e. hypoxemia,
hypercapnia
and acidemia). Experiments (n = 16) were performed in 11 ewes between 121-139 days gestation. In 8 experiments a clamp placed around the common iliac artery of the ewe was adjusted to produce a 50% reduction in the partial pressure of arterial oxygen (PO2) in fetal plasma for 30 min between 121-125 days gestation (n = 4) and between 131-139 days gestation (n = 4). Control (n = 8) experiments were performed when the arterial clamp was not adjusted. There was no significant effect of asphyxia on fetal plasma noradrenaline concentrations before 126 days gestation. After 130 days gestation during asphyxia, fetal plasma noradrenaline concentrations increased significantly from 2.20 +/- 0.72 pmol/ml (-15 min) to 14.06 +/- 0.75 pmol/ml (+5 min). The fetal adrenaline response to asphyxia did not change with increasing gestational age and after 130 days gestation fetal plasma adrenaline increased significantly from 1.48 +/- 0.46 pmol/ml (-15 min) to 4.05 +/- 1.22 pmol/ml (+10 min). Met-enkephalin-arg6-phe7 immunoreactivity was measurable (25-117 pg/ml) in all pre-experimental fetal sheep plasma samples collected between 121-139 days gestation. There was no specific effect of asphyxia on fetal plasma [
Met
]-enkephalin-arg6-phe7-IR before 130 days gestation. However after 130 days gestation, there was a significant increase in fetal plasma (Met-enkephalin Arg-6-phe7-IR above baseline values, when compared to control experiments.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Fetal asphyxia stimulates an increase in fetal plasma catecholamines and [Met]-enkephalin-arg6-phe7 in the late-gestation sheep fetus. 212 44
The effects of selective opioid receptor agonists and antagonists on neural discharge recorded from carotid body arterial chemoreceptors in vivo were studied in anaesthetized cats. Mean ID50 values were determined for each agonist and used to assess chemodepressant potency on intracarotid (i.c.) injection in animals artificially ventilated with air. [
Met
]enkephalin, [Leu]enkephalin, [D-Ala2, D-Leu5]enkephalin and [D-Pen2, D-Pen5]enkephalin were more potent chemodepressants than [D-Ala2, Me-Phe4, Gly-ol5]enkephalin, dynorphin (1-8) or ethylketocyclazocine; morphiceptin (mu-agonist) was inactive. The rank order of potency was compatible with the involvement of delta-opioid receptors in opioid-induced depression of chemosensory discharge. ICI 154129, a delta-opioid receptor antagonist, was used in fairly high doses and caused reversible dose-related antagonism of chemodepression induced by [
Met
]enkephalin. It also antagonized depression caused by single doses of [Leu]enkephalin, [D-Ala2, D-Leu5]enkephalin, [D-Ala2, Me-Phe4, Gly-ol5]enkephalin or dynorphin (1-8). ICI 174864, a more potent and selective delta-opioid receptor antagonist, also antagonized chemodepression induced by [
Met
]enkephalin or by the selective delta-receptor agonist [D-Pen2, D-Pen5]enkephalin. Comparison of background or 'spontaneous' chemosensory discharge during the 30 min periods immediately before and after injecting ICI 174864 (0.1-0.2 mg kg-1 i.c.) showed a significant increase in discharge in one experiment, but in four others discharge was either unaffected or decreased after the antagonist, which argues against a toxic depression of chemosensors by endogenous opioids under resting conditions in our preparation. Sensitivity of the carotid chemoreceptors to hypoxia (ventilating with 10% O2) was increased significantly after ICI 174864, which could be taken as evidence that endogenous opioids depress chemosensitivity during hypoxia. In contrast, responsiveness to
hypercapnia
was reduced after the antagonist, implying that endogenous opioids may potentiate chemoreceptor sensitivity during
hypercapnia
. The results obtained using 'selective' agonists and antagonists provide evidence that depression of chemosensory discharge caused by injected opioids involves a delta type of opioid receptor within the cat carotid body. Endogenous opioids may modulate arterial chemoreceptor sensitivity to physiological stimuli such as hypoxia and
hypercapnia
.
...
PMID:Characterization of opioid receptors in the cat carotid body involved in chemosensory depression in vivo. 287 62
Endogenous opioid peptides are present in cerebral perivascular nerves and in the CSF, and their concentrations are changing in response to stimuli that activate regulatory mechanisms of the cerebral circulation (e.g., alterations of the perfusion pressure or changes of the arterial O2 tension). Opiate receptors are expressed in the cells of the CNS and the cerebrovascular bed, and their activation modulates the function of other vasoregulatory mechanisms (i.e., the autonomic nervous system, nitric oxide, prostanoids, vasopressin) that are involved in the control of the cerebrovascular tone. The direct vasomotor effects of opioid peptides and opiates on the cerebral arteries under in vitro or in situ conditions appear to be weak or absent in several species. However,
Met
- and Leu-enkephalin induce pial arterial vasodilation in the newborn pig. In this species, beta-endorphin acts as a constrictor, whereas dynorphin may induce either dilation or constriction depending on the experimental conditions. The influence of exogenously applied natural and synthetic opioids on the cerebral blood flow (CBF) is determined mainly by their metabolic, neuronal, and respiratory effects. Hypothalamic and pituitary circulations are especially sensitive to opioids. Under resting conditions, endogenous opioid peptides do not participate in the regulation of the cerebrovascular tone and CBF. On the other hand, mu and delta opiate receptor stimulation by endogenous opioid peptides, interacting with other vasoactive factors, obviously contributes to the hypoxia- and
hypercapnia
-induced cerebral vasodilation. Furthermore, endogenous opioid mechanisms are involved in the autoregulation of the hypothalamic blood flow. Thus, the endogenous opioid system may well represent a latent regulatory mechanism, which is of limited importance under basal conditions, but becomes more important under conditions of stress. Synthetic exogenous opioids do not appear to influence the hypoxic or hypercapnic CBF responses or the cerebral autoregulatory process.
...
PMID:Opiate receptor-mediated mechanisms in the regulation of cerebral blood flow. 896 68
