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Query: UMLS:C0278080 (
physical dependence
)
1,658
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In vitro opioid receptor binding in the dorsal hippocampal formation and parietal cortex was surveyed in ground squirrels (Citellus lateralis) in the contrasting physiological states of hibernation and euthermia (i.e. not hibernating). Computer-assisted autoradiographic analysis of coronal sections incubated with [3H]dihydromorphine (DMH; 4 nM) revealed statistically significant reductions in specific opioid binding associated with hibernation. In the dorsal hippocampal formation of hibernating animals, binding in the stratum radiatum of
CA3
, hilus of the dentate gyrus and molecular layer of the dentate gyrus exhibited decreases up to 34% compared to euthermic animals. The stratum radiatum of
CA3
exhibited the smallest decrease overall. DHM binding in parietal cortex displayed significant hibernation-related reductions, although they were not uniformly observed across all laminae at the 3 different brain levels examined. These experiments present evidence of changes in brain opioid binding related to the mammalian state of hibernation. The results suggest that changes in opioid receptor binding during hibernation may contribute to the earlier reported apparent failure of morphine
physical dependence
to develop during hibernation.
...
PMID:Hippocampal and cortical opioid receptor binding: changes related to the hibernation state. 302 78
Baclofen-induced hyperpolarization of hippocampal CA1 and
CA3
pyramidal neurons was examined to assess the impact of ethanol on postsynaptic GABAB receptors. These receptors activate outward K+ currents via a pertussis toxin-sensitive G protein cascade to reduce membrane potential during the slow inhibitory postsynaptic potential. This inhibitory action may play a role in ethanol intoxication and withdrawal excitability. In both types of pyramidal neurons, baclofen applied consecutively in increasing concentrations caused concentration dependent hyperpolarization. There were no significant differences in resting membrane potential, input resistance, maximum baclofen-induced hyperpolarization or EC50 between CA1 and
CA3
neurons, although slope values were significantly smaller in the former neurons. These parameters were not significantly changed in the presence of ethanol 10-100 mM. Chronic ethanol treatment (12 days) sufficient to induce
physical dependence
also did not shift sensitivity or maximum response to baclofen in CA1 neurons. These results suggest that GABAB receptors in this model are essentially insensitive to ethanol and do not confirm our earlier preliminary observation of a possible down-regulation of postsynaptic GABAB receptor function by chronic ethanol treatment.
...
PMID:Sensitivity of postsynaptic GABAB receptors on hippocampal CA1 and CA3 pyramidal neurons to ethanol. 891 62
These studies were designed to examine the effect of chronic administration of pentobarbital on activity of adenylate cyclase (AC) and protein kinase C (PKC) in the rat brain by autoradiography. Recently, it has been suggested that the phosphorylation of specific proteins may be involved in the development of
physical dependence
. An experimental model of barbiturate tolerance and dependence was developed using i.c.v. infusion of pentobarbital (300 microg/10 microl/hr for 7 days) by osmotic minipumps and abrupt withdrawal from pentobarbital. The levels of [3H]forskolin binding were elevated (28-67%) in cortex, thalamus, dentate gyrus, hippocampal
CA3
and cerebellum of the pentobarbital withdrawal animals, while these changes were not observed in tolerant rats. The levels of [3H]phorbol dibutyrate binding were highly elevated (38-65%) in the region of cortex, caudate putamen, septum, thalamus, dentate gyrus, and cerebellum of rats withdrawal from pentobarbital. These results show that the levels of AC and PKC were significantly elevated in pentobarbital withdrawal rats, and suggest that the levels of AC and PKC are altered in a region-specific manner during pentobarbital withdrawal.
...
PMID:Changes in [3H]forskolin binding to adenylate cyclase and [3H]phorbol dibutyrate binding to protein kinase C in pentobarbital tolerant/dependent rats. 956 79
Chronic treatment with opioids is well known to result in the development of
physical dependence
. More recently, glutamatergic mechanisms have been implicated in expression of the withdrawal syndrome from opioids. To better examine glutamatergic involvement, an autoradiographic study of [3H]AMPA receptor binding and an assessment of in situ hybridization of AMPA sensitive glutamate receptor A (GluR-A) subunits in the rat brain were each performed 7 h after withdrawal from morphine infusion. Animals were rendered dependent by intracerebroventricular (i.c.v.) infusion of morphine (26 nmol/microl/h) via osmotic minipumps for 3 days. Brain sections of 14-microm thickness were incubated with 15 nM [3H]AMPA for quantitation of binding to the AMPA receptor. The probe for in situ hybridization was labeled at its 3' end using terminal deoxynucleotidyl transferase and [35S]dATP. The highest degree of [3H]AMPA binding was shown in the hippocampus. The extent of [3H]AMPA binding was increased significantly in the cortex areas (18-21%), caudate-putamen (20%), and hippocampus (7-9%) of rats following withdrawal from morphine. The highest levels of mRNA for GluR-A, flop and flip subunits, were found in the dentate gyrus and in the
CA3
region of the hippocampus, respectively. The levels of mRNA for the flop form of GluR-A were decreased in the
CA3
of hippocampus (8%) of the rat brain. The levels of mRNA for the flip form of GluR-A were increased in the parietal cortex (7%) and the entorhinal cortex (8%). Increases in the binding of [3H]AMPA to its receptor may play an important role during withdrawal from morphine dependence.
...
PMID:An autoradiographic study of [3H]AMPA receptor binding and in situ hybridization of AMPA sensitive glutamate receptor A (GluR-A) subunits following morphine withdrawal in the rat brain. 1082 64
Although no animal model exactly duplicates clinically defined alcoholism, models for specific factors, such as the withdrawal syndrome, are useful for identifying potential neural determinants of liability in humans. The well-documented difference in withdrawal severity following chronic ethanol exposure, between the DBA/2J and C57BL/6J mouse strains, provides an excellent starting point for dissecting the neural circuitry affecting predisposition to
physical dependence
on ethanol. To induce
physical dependence
, we used a paradigm in which mice were continuously exposed to ethanol vapor for 72h. Ethanol-exposed and air-exposed (control) mice received daily injections of pyrazole hydrochloride, an alcohol dehydrogenase inhibitor, to stabilize blood ethanol levels. Ethanol-dependent and air-exposed mice were killed 7h after removal from the inhalation chambers. This time point corresponds to the time of peak ethanol withdrawal severity. The brains were processed to assess neural activation associated with ethanol withdrawal indexed by c-Fos immunostaining. Ethanol-withdrawn DBA/2J mice showed significantly (P<.05) greater neural activation than ethanol-withdrawn C57BL/6J mice in the dentate gyrus, hippocampus
CA3
, lateral septum, basolateral and central nuclei of the amygdala, and prelimbic cortex. Taken together with results using an acute model, our data suggest that progression from acute ethanol withdrawal to the more severe withdrawal associated with
physical dependence
following chronic ethanol exposure involves recruitment of neurons in the hippocampal formation, amygdala, and prelimbic cortex. To our knowledge, these are the first studies to use c-Fos to identify the brain regions and neurocircuitry that distinguish between chronic and acute ethanol withdrawal severity using informative animal models.
...
PMID:Differential activation of limbic circuitry associated with chronic ethanol withdrawal in DBA/2J and C57BL/6J mice. 1980 Dec 71
In the present study, we investigated whether ethanol
physical dependence
causes changes of serotonin transporter (SERT) expression in the brain. SERT expression increased in the cingulate cortex, nucleus accumbens, hippocampal CA1-
CA3
layers, and mediodorsal nucleus of the thalamus and decreased in the basolateral nucleus of the amygdala. In addition, chronic ethanol treatment increased SERT mRNA in the dorsal raphe nucleus from which serotonergic neurons originate, although no SERT mRNA was detected in the regions where SERT protein increased. These findings suggest that alteration of SERT levels in the brain may be related to emotional changes observed in ethanol
physical dependence
.
...
PMID:Expression of serotonin transporter in mice with ethanol physical dependency. 2083 24
