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Query: UMLS:C0022116 (
ischemia
)
91,303
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Separate studies show that NPY and enkephalins are widely distributed in peripheral noradrenergic neurons. In the present study, the subcellular costorage and release in response to intense sympathetic stimulation and reserpine at near therapeutic doses (0.05 mg/kg every other day) were examined. In young pig arteries and vas deferens, enkephalin and D beta H immunofluorescence show consistent but not total overlap. Also NPY is colocalized with D beta H in many fibers but with VIP (nonnoradrenergic) in others. Ultrastructural immunogold labeling indicates that individual terminals contain large dense cored vesicles (LDVs) which store either NPY or enkephalins, even though costorage of both peptides occurs. Some LDVs costore NPY and VIP, especially in the middle cerebral artery and in the lamina propria of vas deferens. Acute CNS
ischemia
depletes enkephalins and norepinephrine in all tissues analyzed without parallel loss of NPY.
Reserpine
depletes norepinephrine 70-85% but does not deplete NPY or enkephalins. The latter is in contrast to commonly used high doses known to produce nonspecific, detergent-like effects. In fact, low doses of reserpine induce a time-dependent new synthesis and processing of NPY precursor peptides in vas deferns. Contrasting effects of reserpine on NPY and enkephalin contents, new synthesis and apparent processing, and a differential response to acute CNS
ischemia
were found in every tissue studied. Activation of precursor neuropeptide processing occurred immediately upon intense sympathetic stimulation in most tissues. Dual localization of NPY in noradrenergic and nonnoradrenergic fibers and differences in subcellular LDV storage help explain why enkephalin correlates better than NPY with norepinephrine loss in response to acute CNS
ischemia
. Furthermore, the costorage of NPY and enkephalins in distinct subpopulations of noradrenergic fibers, which varies according to tissue, is likely to be under separate CNS control.
...
PMID:Are NPY and enkephalins costored in the same noradrenergic neurons and vesicles? 219 51
Co-storage of enkephalins and catecholamines in coronary artery, mesenteric artery and vein, middle cerebral artery, vas deferens and adrenal medulla was studied in domestic pig (Sus scrofa). Responses to acute CNS
ischemia
were correlated with time to peak plasma levels of central venous and adrenal vein outflow samples in controls, during reserpine treatment and after drug withdrawal. Endogenous enkephalins are co-stored in chromaffin granules of adrenal epinephrine-type cells and large dense cored vesicles of noradrenergic terminals. After a lag period, reserpine at near 'therapeutic' doses caused an apparent induction of opioid peptide precursor synthesis accompanied by processing to enkephalins in adrenal medulla up to 8-fold by 30 days and in mesenteric vein up to 4.5-fold by 14 days. Upon 14 days recovery from reserpine, elevated adrenal enkephalins were maintained and depleted catecholamines were largely replenished. Acute CNS
ischemia
produced rises in MAP (approx. 80 mmHg), marked net depletions of noradrenergic enkephalin stores, and net increases in adrenal vein outflow and central venous levels of enkephalins and catecholamines. Noradrenergic terminals contributed significantly to circulating enkephalins as well as norepinephrine.
Reserpine
for 7 days nearly abolished all tested responses to acute CNS
ischemia
, but immediate net 200-400% elevations of endogenous enkephalin stores occurred in coronary artery and mesenteric artery and vein (apparent processing of reserpine-induced neuronal precursor stores). Thus, induction of new synthesis of precursor opioid peptides by reserpine, with or without parallel processing to enkephalins, occurs in noradrenergic terminals in many tissues. All effects of reserpine on endogenous enkephalins implicate a central mechanism to inhibit sympathoadrenal outflow to the periphery. At 14 days recovery from reserpine, when near normal cardiovascular responses to acute CNS
ischemia
were regained, there was increased net release of the elevated adrenal enkephalins, exaggerated peak plasma enkephalin concentrations, but only minimal depletions of enkephalins from noradrenergic terminals.
...
PMID:Neuronal and adrenal enkephalins and catecholamines in response to acute CNS ischemia and reserpine in pig. 234 53
Hemispheric
ischemia
was induced in normothermic, artificially ventilated and anesthetized rats, by electrocauterization of the vertebral arteries and a transient occlusion of the common carotid arteries for 10 minutes. Cerebrospinal fluid (CSF) was continuously pumped out of the third cerebral ventricle for potassium, dopamine and serotonin metabolite determinations. Levels were stable until
ischemia
, which interrupted the CSF production. During early recirculation a marked increase in dopamine metabolites occurred. The metabolite of serotonin increased slightly with a delay. Potassium in CSF was transitorily increased following
ischemia
.
Reserpine
pretreatment prevented most of the changes such as the early increase in dopamine metabolites. A delayed increase of these metabolites was still observed. This model of short
ischemia
altered the neurological functioning and survival time of the animals especially 15 minutes after removal of bilateral carotid occlusion, as compared to the later periods of observation. This model is therefore applicable to the study of cerebral alterations secondary to
ischemia
in vivo. The presently observed alterations of metabolite levels could reflect an increased neuronal release of parents monoamines that could participate to the neurological deficit.
...
PMID:[The effects of cerebral ischemia on the level of metabolites of dopamine and serotonin in the rat cerebrospinal fluid]. 620 29
Nonexocytotic norepinephrine bulk overflow from sympathetic nerves has been previously demonstrated in the perfused isolated heart only after inhibition of sympathetic nerve metabolism by hypoxia,
ischemia
, or metabolic inhibitors. The measurement, however, ignores simultaneous uptake of norepinephrine by sympathetic nerves. We quantitated simultaneous norepinephrine uptake and release in pentobarbital-anesthetized dogs by the use of a transient tracer approach, the multiple indicator dilution technique, combined with measurement of endogenous arterial and venous plasma norepinephrine levels. Sympathetic vesicles were previously depleted by reserpine, and desipramine was used to inhibit the neuronal membrane pump. Labeled albumin, sucrose, and norepinephrine were injected into the coronary artery, and sequential samples were collected from the coronary sinus.
Reserpine
pretreatment significantly depleted tissue and decreased plasma norepinephrine levels; tracer norepinephrine uptake increased slightly, and there was a substantial decrease in the rate of release of unlabeled norepinephrine. Desipramine then decreased tracer uptake and virtually eliminated norepinephrine release. We conclude that desipramine-suppressible, constitutive nonexocytotic norepinephrine release is present in cardiac sympathetic nerves.
...
PMID:Constitutive nonexocytotic norepinephrine release in sympathetic curves of in situ canine heart. 818 16
We investigated the hypothesis that a cardioprotective, antiarrhythmic effect might be obtained by brief
ischemia
of a remote part of the body before
ischemia
of the heart. Regional
ischemia
(RI) was induced in isolated Langendorff-perfused rat hearts: group I, 30-min RI and reperfusion (control hearts; n = 18); group II, 5-min RI before 30-min RI (a reference group of "classic" ischemic preconditioning; n = 12); and group III, ischemic preconditioning with in vivo 10-min limb
ischemia
(LI) before 30-min RI in the perfused heart (n = 20). A significant decrease in reperfusion arrhythmia was found in groups II and III compared with group I (P < 0.02). Release of norepinephrine (NE) and prostacyclin was higher in hearts from animals pretreated with LI (P < 0.05). Prostacyclin increased in all groups at minute 1 of reperfusion, but there was no correlation to the antiarrhythmic effect. NE increased at the beginning of reperfusion after 30 min of
ischemia
; this release was significantly diminished after preconditioning with LI (P < 0.05). We further investigated the role of NE in preconditioning with LI using drug interventions. Pretreatment with exogenous NE protected against tachyarrhythmia.
Reserpine
given 24 h before LI partially abolished the antiarrhythmic effect of LI preconditioning. However, the alpha1-adrenoreceptor blocker prazosin did not prevent the effect of LI preconditioning on either ischemic or reperfusion tachyarrhythmia. Therefore, brief
ischemia
of an extremity protects against reperfusion tachyarrhythmia. One of the humoral mediators involved in this response appears to be NE; others remain to be identified.
...
PMID:Limb ischemia preconditions the heart against reperfusion tachyarrhythmia. 936 34
The role of adrenergic mechanism in the cardioprotective effect of ischemic preconditioning against
ischemia
-reperfusion induced injury in in vivo dog heart and isolated rat heart was investigated. Anesthetized dogs were subjected to LAD coronary artery ligation for 60 min followed by reperfusion for 4 h. Preconditioning protocol was 5 min of
ischemia
followed by reperfusion for 10 min. Rat hearts were subjected to global
ischemia
for 30 min followed by reperfusion for 30 min. Preconditioning protocol was 5 min global
ischemia
followed by reperfusion for 5 min repeated four times. Infarct size, electrocardiographic changes and release of LDH were estimated to assess the extent of cardiac injury. Preconditioning reduced the infarct size, ST segment elevation and prevented the loss of R wave. Prazosin attenuated the cardioprotective effect of preconditioning in dog. Preconditioning conferred protection against
ischemia
-reperfusion induced cardiac injury and reperfusion-induced arrhythmias in isolated rat heart.
Reserpine
pretreatment attenuated this protective effect of preconditioning on reperfusion-induced arrhythmias. These observations suggest the involvement of adrenergic mechanism in the cardioprotective and antiarrhythmic effect of ischemic preconditioning in dog and rat species respectively.
...
PMID:The possible role of adrenergic component in ischemic preconditioning. 941 33
