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Query: UMLS:C0278080 (
physical dependence
)
1,658
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The effects of chronic ethanol intake by mice and rats have been determined on brain ribosomes. Under conditions of ethanol administration, when
physical dependence
on ethanol either does or does not develop in rats, significant inhibition of polypeptide synthesis was observed in comparison with animals not receiving ethanol. In both rats and mice drinking a 10% ethanol solution, in vitro protein synthesis was found to be diminished more in the free than
membrane-bound
polyribosomes (polysomes) when compared to similar fractions obtained from control animals. Addition of exogenous amino acids stimulated protein synthesis of free polysomes to a greater extent than that of bound polysomes obtained from both groups of micemin vivo incorporation of [5-3H]-orotic acid into RNA was more inhibited in polysomes than ribosomes of ethanol-drinking mice, suggesting that ethanol affects messenger RNA. In addition, chronic ethanol ingestion produced a decreased in vivo incorporation in ribosomal RNA of a mixed population of ribosomes and polysomes. Chronic ethanol ingestion by mice led also to a differential effect on the polysomal population of the brain. It decreased the amount and the incorporation of precursor label into RNA of free polysomes while exerting an opposite effect on bound polysomes. The significance of these findings relative to brain metabolism is discussed.
...
PMID:Ethanol and brain ribosomes. 109 40
Current studies demonstrate that alcohol tolerance and alcohol dependence are neurochemically dissociable processes. Development of tolerance seems to be accompanied by changes in neuronal membrane structure which, in turn, affects the function of
membrane-bound
dopaminergic receptors. On the other hand, changes in cholinergic receptor number in certain brain areas may be responsible for certain signs of
physical dependence
during ethanol withdrawal.
...
PMID:Alterations in neurotransmitter function during the development of ethanol tolerance and dependence. 610 30
Effects of
physical dependence
upon ethanol on the polyribosomal properties and the reconstitution of the rough endoplasmic reticulum (RER) of the brain has been examined. The purified free polyribosomes (polysomes),
membrane-bound
polysomes, and a fraction of RER membrane that has been stripped of polysomes were isolated from rat brain. RNA yields, amino acid incorporation activities, and electron micrographs established the purity of stripped membranes, but no differences were detected following the ethanol treatment. For the polyribosomal fractions, the stability of the mRNA/ribosomal complex was decreased after ethanol dependence as was the in vitro translation of endogenous mRNA. In the reconstitution reaction, the incubation of membranes from ethanol-treated animals with either source of purified bound polysomes resulted in higher yields of protein than when control membranes were used. The above results suggest that ethanol dependence affects the properties of both the RNA and membrane components of the RER of brain.
...
PMID:Properties of cerebral polyribosomes and membranes of the rough endoplasmic reticulum after ethanol dependence in rats. 616 91
Neurochemical changes which are associated with the development or expression of tolerance to or
physical dependence
on ethanol may be expected to display a time course of appearance and disappearance which correlates positively with the time course for tolerance or dependence. Previous studies of striatal dopaminergic receptor function indicated that ethanol-withdrawn mice displayed decreased physiological and biochemical responses to dopamine (DA) agonists, which could be best explained by postulating an inefficient coupling between DA receptors and various receptor-mediated processes, possibly as a result of ethanol-induced changes in neuronal membrane properties. The
membrane-bound
enzyme, (Na+-K+)ATPase, obtained from ethanol-withdrawn animals, displays an altered transition temperature and resistance to the effects of ethanol on enzyme activity. These changes also suggest compensatory alterations in neuronal membrane properties. All of these alterations show a time course of disappearance which corresponds to that for the disappearance of tolerance to the hypothermic and sedative effects of ethanol. Ethanol-withdrawn mice also display increased numbers of hippocampal muscarinic cholinergic receptors; however, the time course for the increase in receptor number appears to correlate with that of withdrawal symptomatology. Thus, compensatory changes in neuronal membrane properties in response to ethanol may be expressed via diverse functional changes.
...
PMID:Receptor and membrane function in the alcohol tolerant/dependent animal. 625 71
A progressive increase in activity of some brain
membrane-bound
enzymes is shown after 2 and 4 weeks of ethanol administration. After 4 weeks the activities in brain homogenate of (Na+, K+) ATPase, Ca++ ATPase, 5'-nucleotidase, acetylcholinesterase and adenylate cyclase increased 150, 200, 140, 125 and 129 percent, respectively. Arrhenius plots of synaptosomal (Na+, K+) ATPase and acetylcholinesterase from alcohol-treated rats showed a lower transition temperature than control rats after two weeks, and this changed to a higher transition temperature after 4 and 8 weeks. Also, when ethanol was added in vitro to the control membranes, the transition temperature was lowered. However, if the alcohol was added to the membranes from alcohol-treated animals, the transition temperature was lowered to a value similar to that of controls. Fluorescence studies with l-anilinonaphthalene-8-sulfonate (ANS) demonstrate that ethanol induces a decrease in the fluorescence of ANS bound to brain synaptic membranes. This decrease in fluorescence is less than when these membranes are derived from chronically ethanol-treated rats. Also, when the synaptosomal enzymes were exposed to exogenous agents such as detergents, the enzyme obtained from alcohol-treated rats was more stable than that from control rats. These findings indicate a protein conformation change, probably due to the alteration of the physical properties of membrane lipids following chronic ethanol administration. These findings also demonstrate that there is a resistance to the effect of ethanol in membranes of animals habituated to ethanol that may be related to the adaptative modifications that underlie tolerance to and
physical dependence
on alcohol.
...
PMID:Chronic ethanol treatment affects synaptosomal membrane-bound enzymes. 631 83
Administration of ethanol and nutrients to rats thrice daily by gavage for 3 days produced a linear increase in
physical dependence
during the first 3 days and a 2% increase in body weight. Rates of protein synthesis on free and
membrane-bound
polysomes in whole brain and in 7 brain regions, comprising the entire brain, were measured in vivo under pool expansion conditions with [3H]leucine at intervals during the development and decay of ethanol dependence. During dependence development there was a progressive decrease in the rate of protein synthesis on free polysomes, but this change was not significant (P less than 0.05) until the third day, and a decrease in the rate on
membrane-bound
polysomes after 3 days. The inhibition of protein synthesis is attributable to a decreased rate of polypeptide elongation. There was no change in brain weight, DNA content, ribosome content, ribosome distribution of mRNA pool size. There was, however, a decrease in leucine uptake after 3 days. In an attempt to distinguish between the acute effects of ethanol on regional rates of protein synthesis and those changes associated with dependence development, rates were measured 1.5 h after administering a 5 g/kg dose of ethanol to both control and dependent rats. Rates on free polysomes in the hippocampus-amygdala and thalamus-hypothalamus and on
membrane-bound
polysomes in the cerebellum and hippocampus-amygdala of dependent rats were reduced; however, there was a general reduction in the rates in control rats that may have obscured reductions in other regions from dependent rats. During early withdrawal, 12 h after the last dose of ethanol, there was an increase in the rate of free polysomes in the pons-medulla and striatum-septum and on
membrane-bound
polysomes in the hippocampus-amygdala, and a decrease in the rate on free polysomes in the cortex and thalamus-hypothalamus and on
membrane-bound
polysomes in the cortex. After 24 h, there was an increase in the rate on free polysomes in all regions (cerebellum, cortex, mesencephalon, striatum-septum and thalamus-hypothalamus) except the hippocampus-amygdala and pons-medulla and an increase in the rate on
membrane-bound
polysomes in all regions (cortex, hippocampus-amygdala, mesencephalon, pons-medulla and striatum-septum) except the cerebellum and thalamus-hypothalamus. The possible relationship of these changes to the homeostat hypothesis of ethanol dependence is discussed.
...
PMID:Changes in in vivo rates of protein synthesis on free and membrane-bound polysomes in rat brain during the development of physical dependence on ethanol and after the withdrawal of ethanol. 719 28
Administration of ethanol thrice daily to rats in amounts sufficient to induce a high degree of
physical dependence
resulted in a 20% decrease in the rate of protein synthesis on liver
membrane-bound
polysomes in vivo after 3 days of treatment without affecting the rate on free polysomes. The inhibition was attributable to a decrease in the rate of polypeptide elongation as evidence by comparable decreases in nascent chain synthesis and completed protein release without any change in leucine uptake by liver. Chronic ethanol treatment did not affect the quantity or distribution of free and
membrane-bound
polysomes, the DNA concentration, or the weight of liver. The inhibition of protein synthesis on
membrane-bound
polysomes cannot, therefore, be readily ascribed to ethanol-induced nutritional deficiencies or to some nonspecific toxic effect of ethanol.
...
PMID:Differential effect of chronic ethanol administration on rates of protein synthesis on free and membrane-bound polysomes in vivo in rat liver during dependence development. 720 61
