Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0022116 (ischemia)
 91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The effects of calcitonin gene-related peptide (CGRP) and neuropeptide Y (NPY) were examined on sheep circumflex (2-2.5 mm o.d.) coronary artery rings, with and without endothelium, under oxygenated, hypoxic and simulated ischaemic conditions. The interaction between the vasoconstrictor effects of NPY and the thromboxane mimetic, U46619, was also studied. 2. Ischaemia was simulated by modification of the composition of the physiological salt solution by increasing potassium and H+, including lactate and reducing glucose and PO2. 3. Hypoxia alone and simulated ischaemia increased the maximum vasodilatation produced by CGRP. CGRP (30 nM) abolished and markedly reduced the contraction that was induced by hypoxia and simulated ischaemia respectively. 4. Hypoxia increased and simulated ischaemia reduced the contractile response to NPY in endothelium intact rings. When the endothelium was removed, NPY caused a contraction under ischaemic conditions only. The hypoxic and ischaemic-induced contractions were augmented by NPY (30 nM). 5. In the rings containing endothelium, NPY enhanced the contraction caused by U46619 during hypoxia only. In endothelium-denuded preparations, NPY increased or partially restored the contraction caused by U46619. 6. These results show that the responsiveness of coronary artery rings isolated from sheep to either CGRP or NPY is modified by hypoxia or simulated myocardial ischaemia.
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PMID:Effects of neuropeptide Y and calcitonin gene-related peptide on sheep coronary artery rings under oxygenated, hypoxic and simulated myocardial ischaemic conditions. 236 Nov 72

Distribution and amount of neuropeptide Y- and synaptophysin-immunoreactive nervous structures within the heart were investigated in dogs 4 days after ligation of the left anterior descending coronary artery (LAD). In the right atrium and posterior left ventricular regions, which were taken as (non-infarcted) control areas, neuropeptide Y-immunoreactive paravascular nerves and a perivascular nerve plexus running within the adventitia of the coronary arteries and their branches down to the arterioles were observed. Morphometric measurements of the area density revealed 0.099 +/- 0.014% for synaptophysin- and 0.037 +/- 0.0072% for neuropeptide Y-immunoreactivity within the posterior wall of the left ventricular myocardium. Four days after ligation of the LAD only single synaptophysin- and neuropeptide Y-immunoreactive nerve fibers were very rarely detected in the infarcted region of the anterior wall of the left ventricle. Above the ligature larger than normal neuropeptide Y-immunoreactive axons within nerves along the LAD indicated a blockage of the axoplasmic transport of this peptide. When investigating this model of experimental myocardial infarction, mechanical traumatization of peri- and paravascular nerves of the LAD by the ligature has to be considered as a major pathogenetic factor, in addition to ischemia leading to denervation of infarcted as well as non-ischemic myocardium.
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PMID:Heart innervation after ligation of the left anterior descending coronary artery (LAD). 250 88

Excitatory amino acids have been implicated in ischemic neuronal injury. To test this hypothesis in neonatal hypoxia-ischemia, lesions of the cortex and striatum were induced in 7-day-old rats by unilaterally ligating their carotid arteries and subjecting them to hypoxic conditions for 2 hours. Brains examined 1 week later demonstrated, within the regions of ischemic damage, a striking preservation of neurons that stained histochemically for nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d) activity. Concentrations of the neuropeptides somatostatin and neuropeptide Y, which colocalize in neurons containing NADPH-d, were unaffected in the areas of ischemic damage. The same pattern of injury with sparing of NADPH-d-reactive neurons was reproduced by focal microinfusion of the excitotoxin quinolinic acid, an endogenous N-methyl-d-aspartate (NMDA) agonist, into the striatum. These results support the hypothesis that neonatal hypoxic-ischemic injury is mediated through excitatory transmitters acting at the NMDA receptor and that the NADPH-d-reactive neurons in the neonate are resistant to excitotoxic damage. This pattern of cell vulnerability is unique to the developing striatum and may relate to the distinct pathological appearance of the basal ganglia that follows neonatal asphyxia.
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PMID:Selective sparing of NADPH-diaphorase neurons in neonatal hypoxia-ischemia. 290 92

Previously, using a middle cerebral artery occlusion model in Wistar rat, we showed autonomic disturbances similar to those seen clinically and observed striking neurochemical changes in cortical and subcortical sites at 5 days following stroke. The neurochemical changes may account for functional recovery and/or autonomic disturbances after focal ischemia. To understand the possible mechanisms and to facilitate future studies, it is necessary to define the time-courses of these changes. Using immunohistochemical staining with the peroxidase-antiperoxidase reaction, the changes in several neuropeptides over the peri-ischemic region and the ipsilateral central and basolateral nucleus of the amygdala were investigated at different times after middle cerebral artery occlusion. In the experimental group, neuropeptide Y immunoreactivity appeared to increase by 6 hours in the peri-ischemic region. Using image analysis to quantify the staining intensity, the change became statistically significant at 1 day, peaked around 3 days, and subsided at 10 days. There was a delayed increase in neuropeptide Y in the ipsilateral basolateral nucleus of the amygdala with a peak around 3 days. Immunoreactive staining for leucine-enkephalin, dynorphin, and neurotensin demonstrated an increase that was localized to the ipsilateral central nucleus of the amygdala with a peak around 3 days and a return to baseline levels by 10 days. The results support a specific time-course for each of the neuropeptides studied and indicate that a survival time of 3 days after focal ischemia is the critical period for examining the relationship between neuropeptide responses and neuronal or functional recovery.
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PMID:Time-course of neuropeptide changes in peri-ischemic zone and amygdala following focal ischemia in rats. 749 57

Perinatal hypoxic-ischemic brain injury was induced in 7- to 8-day-old rats by ligating the left carotid artery with subsequent exposure to 9% oxygen atmosphere for 2.5 h. The animals were killed 7 days later and grouped according to the degree of brain injury sustained after hypoxia-ischemia. Total protein content measured in striatum ipsilateral to the ligation, and dissected from brains showing extensive damage, was reduced to 64% of contralateral tissue. The protein content was not altered in other groups including control animals exposed to air and in sham-operated animals exposed to hypoxic conditions. The concentration of (pg/mg protein) and total (pg/striatum) striatal dynorphin A-like immunoreactivity (DLI) from brains with extensive damage were increased to 481% and 285% of the contralateral side, respectively. Hypoxia-ischemia increased striatal neuropeptide Y-like immunoreactivity (NPYLI) concentration from brains with extensive damage to 157% of contralateral side, but when the results were expressed as total NPYLI content per striatum, NPYLI content in striatum with extensive damage remained unaltered. Substance P-like immunoreactivity (SPLI) concentration and total content per striatum from brains with extensive damage were reduced to 66% and 43% of the contralateral side, respectively. D1 and D2 receptor density in animals killed 10 days after injury was reduced by 24% and 22% of control, respectively, in striatum from brains with extensive damage. These results indicate complex changes in brain neuropeptides following neonatal hypoxia-ischemia. Damage in the substance P system could have functional effects on dopaminergic transmission while the increase in NPYLI and in DLI concentrations may respectively reflect the relative preservation from neuronal damage and possibly an increase in neuropeptide synthesis or decrease in release. The decrease in SPLI concentration and the increase DLI concentration induced by hypoxia-ischemia suggests that these peptides may be present in separate neurons.
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PMID:Effect of neonatal hypoxia-ischemia on nigro-striatal dopamine receptors and on striatal neuropeptide Y, dynorphin A and substance P concentrations in rats. 753 99

Increased sympathetic activity has been documented in patients during acute myocardial infarction. Clinical and experimental studies have suggested that this increased sympatho-adrenergic activation may contribute to the development of lethal ventricular arrhythmias in the ischemic heart. In acute myocardial ischemia, adrenergic stimulation of the ischemic myocardium is independent of plasma catecholamines, since local catecholamine concentrations within the ischemic myocardium surpass plasma concentrations by several orders of magnitude. Both afferent and efferent autonomic nerves are activated immediately with myocardial ischemia. Poorly perfused myocardium, however, is protected within the first few minutes of ischemia, via several mechanisms, against high local concentrations of catecholamines. Ischemia-associated metabolic alterations, such as extracellular potassium accumulation, acidosis, and especially the accumulation of adenosine reduce the transmitter release induced by central sympathetic stimulation. Furthermore, the functional neuronal amine reuptake (uptake1) prevents excessive local accumulation of noradrenaline. With progression of myocardial ischemia to more than 10 min local nonexocytotic noradrenaline release prevails. This release is not prevented by the above-mentioned protective mechanisms and accounts for local extracellular catecholamine concentrations in the micromolar range, i.e., 100 to 1000 times higher than the normal plasma concentrations. It shows several features that make it possible to differentiate it from exocytotic release and to assign it to a carrier-mediated transport of noradrenaline from the sympathetic nerve ending into the synaptic cleft. This release is independent of central sympathetic activity, availability of extracellular calcium, activation of both neuronal calcium channels and protein kinase C, and is not accompanied by the release of sympathetic co-transmitters such as neuropeptide Y. It is however suppressed by blockers of uptake1 and by inhibitors of sodium-proton exchange. Depletion of cardiac catecholamine stores by chronic sympathetic denervation effectively suppresses malignant arrhythmias induced by experimental coronary ligature. Accordingly, inhibitors of nonexocytotic noradrenaline release such as uptake1, blocking agents or sodium-proton exchange inhibitors effectively reduce the occurrence of ischemia-associated ventricular fibrillation, emphasizing the relevance of nonexocytotic noradrenaline release in myocardial ischemia. At the postsynaptic side, catecholamines released during myocardial ischemia exert their effects by stimulating alpha- and beta-adrenergic receptors of cardiac myocytes. During acute myocardial ischemia the responsiveness of adrenergic receptors to stimulation by catecholamines is enhanced. Several studies have demonstrated an increase in functionally coupled beta-adrenergic receptor number during myocardial ischemia. Likewise, alpha 1-adrenergic responsivity increases in myocardium subjected to acute ischemia and contributes significantly to the arrhythmogenic effect of catecholamines.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Sympatho-adrenergic activation of the ischemic myocardium and its arrhythmogenic impact. 763 99

It was the aim of the present study to characterize the modulatory effect of muscarinic agonists on the overflow of norepinephrine and neuropeptide Y (NPY) from the in situ perfused guinea pig heart, induced by electrical stimulation of the left stellate ganglion (6 Hz, 5 V, 1 min). The muscarinic agonists oxotremorine (0.01-1 microM) and carbachol (0.1-10 microM) reduced norepinephrine and NPY overflow in a concentration-dependent manner to approximately 30% of control. The inhibitory effect of carbachol was antagonized by the unspecific muscarinic antagonist atropine (1 microM) but not by the nicotinic antagonist hexamethonium (100 microM). The M2-specific antagonist AF-DX-116BS was 25 times more potent than the M1-specific antagonist pirenzepine in antagonizing the inhibitory effect of carbachol [50% inhibitory concentration (IC50) = 0.2 microM for AF-DX-116BS; IC50 = 5.0 microM for pirenzepine]. These findings indicate that presynaptic muscarinic inhibition of stimulated norepinephrine and NPY release from the guinea pig heart is mediated mainly by activation of M2 receptors. As early as 2 min after stop-flow ischemia, the inhibitory effect of carbachol (10 microM) on the stimulation-evoked overflow of norepinephrine and NPY was lost. On reperfusion with oxygenated buffer after 10 min of stop-flow ischemia the inhibitory effect of carbachol (10 microM) on stimulation-induced norepinephrine and NPY overflow recovered within 3 min.
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PMID:Muscarinic inhibition of cardiac norepinephrine and neuropeptide Y release during ischemia and reperfusion. 781 Jul 65

Endothelin is a 21-amino-acid, vasoactive peptide. Sequence analysis of cloned cDNAs for porcine and human endothelin precursors showed that endothelin-1 (ET-1) is produced in the endothelial cells. The peptide, endothelin (ET), was first identified as a potent vasoconstrictor. It is one of the most potent endogenous vascular smooth-muscle constrictors, ten times more potent than angiotensin II, vasopressin, and neuropeptide Y. Shortly after the discovery of this vasoconstrictor peptide, it was revealed that endothelin also possesses vasodilator properties at doses lower than those necessary to produce vasoconstriction. However, controversy still exists over the mechanism(s) of action; prostacyclin and endothelium-derived relaxing factor (EDRF) have mainly been implicated as the source of the initial vasodepressor effect. ET also elicits markedly different regional hemodynamic response patterns. There is a heterogeneity in the observed vasodilation or vasoconstriction, depending on species and on vascular beds studied in the same species. Endothelin has been implicated in a number of pathologic situations, including tissue ischemia and vasospasm. ET seems to be produced more actively around the site of endothelial damage; the loss of balance between its vasodilator- and vasoconstrictor-induced responses could contribute to its patho-physiologic properties. Experimental results strongly support the concept that ET could be important in controlling vascular tonus, both in the healthy and the diseased vessel.
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PMID:Endothelin: an endothelium-derived vasoactive peptide. 788 38

This review describes the neuropathology and pathophysiology of interneurons in dorsal hippocampus of the adult rat subjected to transient global cerebral ischemia. The object is to verify if the interneurons die or survive after an ischemic insult, and study if ischemia changes GABA inhibition in the period preceding delayed CA1 pyramidal cell death. The findings are discussed from the point of the hypothesis that loss of GABA inhibition may result in excitatory hyperactivity (possibly epilepsy) and excitotoxic glutamate release. Thereby, early ischemic damage to interneurons may exacerbate the ischemic process resulting in the major and delayed CA1 cell death in hippocampus. Interneurons, located in dentate hilus, and a small number of interneurons located in the mossy fiber layer are selectively lost after ischemia. These interneurons contain somatostatin and neuropeptide Y, but the inhibitory or excitatory nature of them is unknown. However, counts of all hippocampal cells immunoreactive for glutamic acid decarboxylase showed that the GABA interneurons survive ischemia. It is therefore suggested that the vulnerable interneurons in hilus and the mossy fiber layer do not contain GABA. As the GABA interneurons, other hippocampal interneurons also survive ischemia. Among these, the CA1 and CA3 interneurons containing neuropeptide Y demonstrate permanently reduced immunoreactivity for neuropeptide Y, evident 1-2 days after ischemia. Another subpopulation transiently shows a decrease in immunoreactivity for parvalbumin approximately 4 days after ischemia. These results are in contrast to the finding that protein synthesis in hippocampal interneurons returns to preischemic levels 9 hours after ischemia. The integrity between excitation and inhibition in CA1 is unchanged in hippocampal slices taken from animals 1-2 days after ischemia. Furthermore, GABA can readily be released upon potassium stimulation in the period preceding CA1 pyramidal cell death. Binding to hippocampal benzodiazepine sites, however, declines prior to ischemic CA1 pyramidal cell death. It is demonstrated that administration of diazepam and GABA uptake inhibitors during this period offers postischemic neuron protection in CA1. There is no conclusive evidence of excitatory hyperactivity preceding ischemic CA1 pyramidal cell death. On the contrary, results from Chang et al. (1) suggest that ischemic loss of interneurons in the dentate hilus is associated with an increase in inhibition. However, it is suggested that GABA inhibition is insufficient to counterbalance the detrimental process during normal or even reduced postischemic excitation, since drugs believed to increase GABA inhibition reduce ischemic cell death. The early and permanent reduction in neuropeptide Y immunoreactivity may reflect a reduced capacity of these interneurons to release neuropeptide Y and thereby reduce presynaptic glutamate release.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Interneurons in rat hippocampus after cerebral ischemia. Morphometric, functional, and therapeutic investigations. 790 56

Time-dependent changes in the tissue concentration of tyrosine hydroxylase (TH), adrenaline (A), noradrenaline (NA), and neuropeptide Y (NPY) in the early stages of cerebral ischemia were studied immunohistochemically in the amygdaloid complex of rats subjected to 1 h cerebral ischemia. Immunoreactivity to TH on the lesioned side reached a nadir at 12 h after cerebral ischemia, then gradually increased over 24 h to normal reactivity, but TH immunoreactivity between the ischemic side and the contralateral side was no different for up to 12 h after ischemia. The blood concentrations of NA and A were elevated to about twice the control concentration 12 h after ischemia, then gradually decreased back to normal. NPY immunoreactivity of both sides did not change for up to 6 h after ischemia, but NPY immunoreactivity on the lesioned side decreased over 12 h and maintained a plateau. These findings suggest that responses to cerebral ischemia between catecholamines and peptides are varied.
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PMID:Time-dependent changes of vasoactive substances in rat cerebral ischemia. 792 96


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