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Query: UMLS:C0022116 (
ischemia
)
91,303
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Dopamine has been demonstrated to be involved in the development of ischemic neuronal damage in the striatum. This detrimental effect of dopamine may involve activation of second messenger systems, such as the cyclic AMP (cAMP) cascade, which may enhance the susceptibility of striatal neurons to
ischemia
. In the present study, we have evaluated the relationship between
ischemia
-induced changes in cAMP and dopamine neurotransmission. Microdialysis probes were implanted in both striata, and a D1 antagonist (
SCH
-23390, 100 microM) was administered through one probe and modified Ringer's solution through the other. After a stabilization period, rats (n = 6) were subjected to 20 min of
ischemia
by two-vessel occlusion plus hypotension. Extracellular samples were collected from both striata, before, during, and after
ischemia
, and analyzed for cAMP by radioimmunoassay.
Ischemia
induced a significant increase in extracellular cAMP (means +/- SE, fmol/microliter; baseline: 4.35 +/- 1.1,
ischemia
: 12.2 +/- 1.98), which was also observed at 4 h of recirculation (mean level of 8.45 +/- 1.14). Treatment with the D1 antagonist significantly inhibited the rise in extracellular cAMP during
ischemia
and recirculation. These results indicate that an
ischemia
-induced surge in dopamine and activation of D1 receptors are involved in the generation of cAMP during
ischemia
and recirculation. Because activation of the adenylate cyclase cascade may modulate the effects of glutamate, generation of cAMP through this pathway may play a role in facilitating the injurious effects of dopamine during
ischemia
.
...
PMID:Ischemia-induced changes in extracellular levels of striatal cyclic AMP: role of dopamine neurotransmission. 132 27
We studied the postischemic alterations of second messenger and receptor systems focusing on the strionigral pathway in order to clarify the mechanism of the delayed neuronal changes in remote areas of the rat brain after transient focal
ischemia
. Chronological changes of [3H]forskolin and [3H]
SCH
23390 binding sites and 45Ca accumulation were determined by using autoradiographic methods after 90 min of right middle cerebral artery (MCA) occlusion and after such occlusion followed by different periods of recirculation. After the ischemic insult, 45Ca accumulation extended to the lateral segment of the caudate putamen (CPu-L) and to the cerebral cortex, both supplied by the occluded MCA. After the
ischemia
, [3H]forskolin binding sites were found to be markedly decreased in the early stage in the CPu-L, the ischemic focus in this model, but reduction of the dopamine D-1 receptor sites was first detected there 1 day after the
ischemia
. On the contrary, in the exo-focal remote areas, there was no alteration of either [3H]forskolin or D-1 receptor binding sites on day 1. However, 3 days after the
ischemia
, marked reduction of both these binding sites was first observed in the ipsilateral substantia nigra, which had not been directly affected by the original ischemic insult. These postischemic delayed phenomena observed in the substantia nigra developed concurrently with abnormal 45Ca accumulation. These results suggest that strionigral terminal degeneration in the substantia nigra is caused by precedent ischemic damage of the ipsilateral caudate putamen and that intracellular signal transduction including both second messenger and receptor systems may be involved prior to the neuronal damage in the exo-focal postischemic brain areas.
...
PMID:Autoradiographic analysis of second messenger and neurotransmitter receptor bindings in the strionigral system of the postischemic rat brain. 133 90
1. We studied the postischemic time-course of dopamine D1 receptors in selectively vulnerable areas in the gerbil using receptor autoradiography. 2. [3H]
SCH
23390 was used to label dopamine D1 receptors and transient cerebral ischemia was induced for 10 min. 3. [3H]
SCH
23390 binding showed no significant alteration in selectively vulnerable areas at an early stage (1-24 hr) of recirculation. Thereafter, [3H]
SCH
23390 binding showed a significant reduction in most selectively vulnerable areas 48 hr or 7 days of recirculation. The ventromedial striatum and dentate gyrus which were resistant to
ischemia
also exhibited a significant reduction in [3H]
SCH
23390 binding. 4. Especially, marked reduction was noted in the dorsolateral striatum. However, this reduction in the dorsolateral striatum was not seen early in the recirculation prior to morphological neuronal damage. 5. The result suggests that transient cerebral ischemia can cause a severe reduction in dopamine D1 receptors in most selectively vulnerable areas. Furthermore, they suggest that dopamine D1 transmission is not always responsible for the evolution of ischemic brain damage. 6. These findings are discussed in relation to the mechanism of ischemic brain damage.
...
PMID:Autoradiographic analysis of dopamine D1 receptors in the gerbil brain following transient cerebral ischemia. 148 17
Chronological changes of dopamine D1 receptor binding were determined in the strionigral system of the rat brain by using [3H]
SCH
23390, a highly selective dopamine D1 antagonist, in vitro autoradiography after 90 min of right middle cerebral artery (MCA) occlusion and after such occlusion followed by different periods of recirculation. One day after the
ischemia
, dopamine D1 receptor sites decreased significantly compared with the control value in the lateral segment of the caudate putamen supplied by the occluded MCA. Moreover, 3 days after the
ischemia
, a significant decrease of dopamine D1 receptor sites was observed in the substantia nigra on the ischemic side which had not been directly affected by the original ischemic insult. The present study indicates that the postischemic delayed reduction of dopamine D1 receptor sites observed in the substantia nigra is due to the degeneration of the dopaminergic nerve terminals in the strionigral system caused by the precedent ischemic damage of the ipsilateral caudate putamen.
...
PMID:Alteration of dopamine D1 receptor in the strionigral system of the postischemic rat brain. 153 60
Striatal dopamine D1 transmission was studied in rats 7 days after transient (30 min) forebrain
ischemia
using the 4-vessel occlusion model. The striatal distribution of dopamine D1 ([3H]
SCH
23390 binding sites) and D2 ([3H]sulpiride binding sites) receptors as well as the distribution of adenylate cyclase ( [3H]forskolin binding sites) and of the intracytoplasmic dopamine and cAMP-regulated phosphoprotein DARPP-32 related to D1 transmission were analyzed. While the distribution of D2 receptors was unaffected 7 days after the ischemic insult, all the other markers showed a patchy disappearance in the dorsolateral part of the neostriatum. These findings underline the existence of selective multiple deficits in D1 transmission after transient forebrain
ischemia
in rat striatum.
...
PMID:Transient forebrain ischemia produces multiple deficits in dopamine D1 transmission in the lateral neostriatum of the rat. 255 63
Non-competitive N-methyl-D-aspartate receptor antagonists, including phencyclidine, ketamine, and MK801, produce vacuoles and induce the hsp 70 stress gene in layer III pyramidal neurons of the rat cingulate cortex. This study shows that phencyclidine (50 mg/kg) induces hsp 70 messenger RNA and HSP70 stress protein primarily in pyramidal neurons in posterior cingulate and retrosplenial cortex, neocortex, insular cortex, piriform cortex, hippocampus, and in the basal nuclei of the amygdala. Several neurotransmitter receptor antagonists inhibited induction of HSP70 produced by phencyclidine (50 mg/kg): haloperidol (ED50 = 0.8 mg/kg), clozapine (ED50 = 1 mg/kg), valium (ED50 = 1 mg/kg),
SCH
23390 (ED50 = 7 mg/kg) and muscimol (ED50 = 3 mg/kg). Baclofen had no effect. Nifedipine blocked the induction of HSP70 produced by phencyclidine in some regions (cingulate, neocortex, insular cortex) but only partially blocked HSP70 induction in other regions (piriform cortex, amygdala). These results suggest that phencyclidine injuries pyramidal neurons via dopamine D1, D2, D4, sigma and other receptors. Several factors appear to contribute to this unusual multi-receptor mediated injury. (1) Phencyclidine blocks N-methyl-D-aspartate receptors on GABAergic interneurons resulting in decreased inhibition of pyramidal neurons. This may help to explain why multiple excitatory receptors mediate the injury and why GABAA agonists decrease the injury produced by phencyclidine. (2) Phencyclidine blockade of an amine transporter helps explain why dopamine receptor antagonists ameliorate injury. (3) Phencyclidine depolarizes neurons and produces high, potentially damaging intracellular calcium levels probably by blocking K+ channels that may be linked to sigma receptors. Since nifedipine prevents injury in cingulate, insula, and neocortex, it appears that calcium entry through L-type voltage gated calcium channels plays a role in the pyramidal neuronal injury produced by phencyclidine in these regions. There are similarities between the cingulate neurons injured by phencyclidine and circuits recently hypothesized to explain receptor changes in cingulate gyrus of schizophrenic patients. The present and previous studies also provide approaches for decreasing the clinical side effects of N-methyl-D-aspartate receptor antagonists to facilitate their possible use in the treatment of
ischemia
and other disorders.
...
PMID:Phencyclidine induction of the hsp 70 stress gene in injured pyramidal neurons is mediated via multiple receptors and voltage gated calcium channels. 784 88
We investigated the postischemic alterations in dopamine D1 receptor and Ca2+/calmodulin independent cyclic adenosine monophosphate (cyclic AMP) selective phosphodiesterase in gerbils and examined the effect of pentobarbital on these alterations. [3H]
SCH
23390 and [3H]rolipram, respectively, were used to label dopamine D1 receptor and Ca2+/calmodulin independent cyclic-AMP selective phosphodiesterase. Transient cerebral ischemia was induced for 10 min, and pentobarbital (40 mg/kg) was administered intraperitoneally 30 min prior to
ischemia
. 5 h after
ischemia
, [3H]rolipram binding decreased significantly in the striatum and hippocampus, whereas no significant change was found in [3H]
SCH
23390 binding. 7 days after
ischemia
, however, there was a marked reduction in both [3H]
SCH
23390 and [3H]rolipram binding in the striatum and hippocampus, where histological neuronal damage was found. Pentobarbital significantly ameliorated postischemic decreases in [3H]rolipram binding both 5 h and 7 days after recirculation in most areas studied. Furthermore, this drug significantly prevented postischemic reduction in [3H]
SCH
23390 binding (only) 7 days after
ischemia
. These results suggest that alteration of cyclic AMP selective phosphodiesterase is more sensitive at an earlier stage after ischemic insult than that of dopamine D1 receptors. Our results also demonstrate that pentobarbital reduces the alteration in [3H]
SCH
23390 and [3H]rolipram binding after cerebral ischemia.
...
PMID:Effect of pentobarbital on postischemic SCH 23390 and rolipram binding in gerbil brain. 822 65
We investigated the long-term changes that occur in the gerbil brain following transient cerebral ischemia using histology and receptor autoradiography. Transient ischemia was induced for 3 and 10 min, and animals were allowed to survive for 8 months. A histological study showed that 3-min
ischemia
caused neuronal damage and mild atrophy only in the hippocampal CA1 sector, and that 10-min
ischemia
produced severe neuronal damage and marked shrinkage in the hippocampal CA1 and CA3 sectors. Furthermore, severe neuronal damage was seen in the striatum after 10-min
ischemia
. Autoradiography study revealed that 3-min
ischemia
caused a significant reduction in [3H] naloxone binding in the frontal cortex, striatum, dentate gyrus, and thalamus, whereas [3H]
SCH
23390 and [3H] forskolin binding was not significantly altered in all regions. In contrast, 10-min
ischemia
produced marked alteration in these binding sites in the striatum, hippocampus, thalamus, and substantia nigra. The alteration was especially notable in the hippocampal region and substantia nigra. These results indicate that hippocampal damage after transient
ischemia
, compared with that in other regions, is not static, but particularly progressive. Furthermore, they demonstrate a reduction in adenylate cyclase system in the striatum and substantia nigra after transient
ischemia
. Moreover, our results suggest that long-term survival after
ischemia
may induce synaptic modification of neurotransmitter and adenylate cyclase system in the hippocampus.
...
PMID:Long-term observations in gerbil brain following transient cerebral ischemia: autoradiographic and histological study. 827 28
1. We investigated alterations in dopamine D1 receptors in the striatum and hippocampus after transient cerebral ischemia in gerbils using [3H]
SCH
23390 autoradiography. 2. We also examined the effect of vinconate against the alterations in dopamine D1 receptors after transient
ischemia
. 3. Transient ischemia was induced for 10 min, and vinconate (100 and 300 mg/kg) was given intraperitoneally 10 min before
ischemia
. 4. [3H]
SCH
23390 binding showed no significant alterations in the striatum and hippocampus 5 hr after
ischemia
, whereas severe reduction in these areas was found after 7 days of recirculation. 5. Vinconate showed no significant alterations in [3H]
SCH
23390 binding in the striatum and hippocampus except for a decrease in the hippocampal CA3 sector and dentate gyrus 5 hr after
ischemia
. By contrast, vinconate prevented a significant reduction in [3H]
SCH
23390 binding in the striatum, hippocampal CA3 sector, hilus, and dentate gyrus 7 days after
ischemia
. 6. Vinconate inhibited lipid peroxidation in rat brain homogenates in a concentration-related manner. 7. These results indicate that free radicals generated from abnormal dopamine metabolism may play a key role in the development of ischemic brain damage. Furthermore, they suggest that vinconate prevents ischemic brain damage by inhibiting lipid peroxidation.
...
PMID:Neuroprotective effect of vinconate against postischemic alterations in binding of [3H]SCH 23390 in the gerbil brain. 848 99
To detect quantitative modification of dopamine D-1 receptors in vivo, we used [125I]-TISCH in an animal modelin which the striatum was unilaterally lesioned with quinolinic acid. [125I]-TISCH was injected into rats 5 days after the lesion, and the changes in receptor density obtained in vivo were compared to in vitro quantification of dopamine D-1 receptors by binding with either [125I]-TISCH or [3H]-
SCH
23390 as a reference ligand. In vivo and in vitro, we obtained the same decrease (-70%) in binding of these ligands in the lesioned striatum. Using an injection of [99mTc]-DTPA to lesioned rats, we also showed the disruption of the blood-brain barrier (BBB) in the lesioned area. Thus, the equivalent decrease observed in vitro and in vivo with [125I]-TISCH confirmed that this molecule would be a valuable tool for exploration of dopamine D-1 receptors by SPECT imaging. Moreover, the fact that the breakdown of the BBB did not interfere with the receptor binding obtained in vivo may be important for future investigations in pathologies with BBB disruption, such as
ischemia
.
...
PMID:Is TISCH a suitable tracer for in vivo study of modifications of the dopamine D-1 receptor? 900 18
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