Chronic administration of ethanol on pituitary and hypothalamic beta-endorphin in rats and golden hamsters

The effect of an acute ethanol exposure on the rat brain POMC opiopeptide system

Endogenous peptides with a high affinity for opiate receptors located in the central nervous system have been postulated to play a role in the etiology of alcoholism or in other addictive diseases. Effects of different doses of ethanol (EtOH) at different time points post-EtOH administration on hypothalamic and hindbrain beta-endorphin-like peptide (beta-EPLP) content in male rats were measured by radioimmunoassay (RIA). A single EtOH exposure resulted in an increase in hypothalamic and a decrease in the hindbrain beta-EPLP levels. In another set of experiments, proopiomelanocortin (POMC) synthesis in the hypothalamus was measured by assaying both POMC primary transcript and mature mRNA. No changes in primary transcript or mature POMC hypothalamic mRNA were detected. Based on the results from this experiment we conclude that an acute EtOH exposure affects the rat hypothalamic POMC opiopeptide system by increasing levels of beta-EPLP and this increase in levels is not related to an increase in synthesis.

Opioid involvement in alcohol drinking

A large body of evidence indicates that the endogenous opioid system plays an important role in maintaining alcohol drinking behavior. Evidence is reviewed that indicates that the reinforcing properties of alcohol that lead to continued and repeated bouts of drinking may be due, in part, to alcohol-induced activation of the endogenous opioid system. Much of this evidence is pharmacologic in nature. Blocking the action of endogenous opioid peptides via administration of opioid antagonists significantly attenuates alcohol consumption in animals under a variety of experimental conditions. In clinical trials, opioid receptor antagonists decrease alcohol consumption, relapse rates, subjective high, and alcohol craving in outpatient alcoholics. The potential clinical utility of opioid receptor antagonists in the treatment of alcoholism and alcohol dependence is discussed.

Potential gene therapy for alcoholism

Genes that have an actual or a potential relationship to alcoholism may be useful targets for therapy. Candidate genes are considered in relationship to family studies, differences in alcohol preferences in various rodent strains, biochemical reactions, physiologic response mechanisms, and alterations in brain pharmacology. Suggestions are made concerning the identification of candidate genes, design of gene antisense constructs, and techniques for their organ-specific delivery. The complexities surrounding alcoholism in humans make it likely that several simultaneous approaches may be required for effective therapy for alcoholism.

Recent Advances in Pharmacological Research on Alcohol

Alcohol dependence is a major public health problem. Studies have shown that a person dependent on alcohol often coabuses other substances, such as cocaine. Cocaine is a powerful stimulant whereas ethanol is generally considered to be a depressant, with some stimulating properties. The subjective effects of these two substances in a dependent individual may often appear to be more similar than they are different. Animals also self-administer both substances. Basically, although both substances have anesthetic properties and both act to functionally increase catecholaminergic function, especially that of dopamine, there are some differences in their actions. Both alcohol and cocaine have various effects on several neurotransmitters and systems, which ultimately interact to produce the feeling of well-being avidly sought by many individuals today. This drive often eventually produces a dependence which has associated social and medical consequences. It seems likely that the neurochemical changes that ensue following abuse of these substances underlie the phenomena of dependence, tolerance, and subsequent withdrawal. The apparent similarities and differences between these two substances will be reviewed in this chapter.

Hormonal tolerance to ethanol is associated with decreased expression of the GTP-binding protein, Gs alpha, and adenylyl cyclase activity in ethanol-treated LS mice

Using the proopiomelanocortin (POMC) system as a marker, long sleep (LS) and short sleep (SS) lines of mice were investigated to explore the cellular events that occur during the acquisition of hormonal tolerance to ethanol. Four-day ethanol exposure (1.8 g/kg/24 hr) increased anterior pituitary POMC mRNA levels 4-fold in the LS line and 2-fold in the SS line. Following 7 days of ethanol exposure (1.8 g/kg/24 hr), anterior pituitary POMC levels returned to basal values in the LS line but remained elevated (2-fold) in the SS line. In this setting, the loss of ethanol's ability to sustain elevated POMC mRNA levels in the LS line is defined as hormonal tolerance. Since POMC biosynthesis is primarily regulated through adenylyl cyclase, ethanol-induced alterations in this signal transduction system were explored. Paralleling the effects of ethanol on POMC mRNA levels, ethanol exposure reduced GTP-gamma-S, AIF3-, and MnCl2-stimulated adenylyl cyclase activity by 35%, 21%, and 24%, respectively, in the LS line without effecting adenylyl cyclase activity in the SS line. To determine whether ethanol-induced changes in adenylyl cyclase activity in LS mice could result from alterations in G proteins, protein levels of G, alpha and Gi alpha were determined by western analysis before and after ethanol exposure. Paralleling the effect on POMC mRNA levels and adenylyl cyclase activity, ethanol induced a 35% reduction in Gs alpha protein levels in LS mice but did not alter Gi alpha levels. Neither Gs alpha nor Gi alpha levels were altered in the SS line.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of alcohol on beta-endorphin and reproductive hormones in the male rat

In an attempt to examine the relationship between alcohol-induced alterations in immunoreactive beta-endorphin (i-beta E) levels in the hypothalamic-pituitary-gonadal axis and the synthesis and release of reproductive hormones, male rats were treated with either an acute intraperitoneal injection of alcohol or were chronically exposed to an alcohol-containing liquid diet. Hypothalamic, pituitary, serum, and testicular levels of immunoreactive beta-endorphin (i-beta E) and serum levels of luteinizing hormone (LH) and testosterone were measured at various times after initiation of these treatments. Testicular interstitial fluid (TIF) volumes and levels of TIF i-beta E and testosterone were also measured 4 hr after acute treatment as an index of testicular release of these substances. Acute alcohol decreased pituitary levels of i-beta E and increased serum levels of the peptide for up to 1 hr after its injection, but did not alter hypothalamic or testicular levels. Acute alcohol markedly increased TIF i-beta E and decreased TIF testosterone and TIF volume. Sharp decreases in serum LH and testosterone were observed in association with these acute changes in i-beta E levels in the pituitary, blood, and testes. During chronic alcohol exposure serum testosterone levels were substantially depressed, but tolerance appeared to develop quickly to the chronic effects of alcohol on serum LH. Similarly, tolerance to alcohol's effects on i-beta E levels in the pituitary and serum also appeared to develop during chronic alcohol administration. However, hypothalamic and testicular i-beta E levels were markedly suppressed by chronic alcohol administration in contrast to the lack of effect observed after acute alcohol administration.(ABSTRACT TRUNCATED AT 250 WORDS)

The effect of single and repeated ethanol administration of hypothalamic opioid systems activity --an in vitro release study

The effect of ethanol administration on the in vitro release of alpha-neoendorphin (ANEO) and Met-enkephalin-Arg6-Gly7-Leu8 (MEAGL), peptides derived from prodynorphin and proenkephalin, respectively, was studied in the rat hypothalamus. Single ethanol administration had no effect on the tissue level and potassium-stimulated release of these peptides. Repeated ethanol administration increased the release of ANEO and reduced the release of MEAGL from hypothalamic slices. Two days after cessation of ethanol administration the release of MEAGL returned to control values, whereas the release of ANEO was significantly inhibited. On the other hand, the tissue level of those peptides remained unchanged after repeated ethanol or 2 days after its last administration. The present study shows that repeated treatment with ethanol may lead to an increase in the prodynorphin neurons' sensitivity to the depolarizing effect of potassium. In contrast, the sensitivity of the proenkephalin system to ethanol seems to be inhibited. Thus, ethanol appears to have an opposite effect on the sensitivity of hypothalamic proenkephalin and prodynorphin neurons.

Importance of delta opioid receptors in maintaining high alcohol drinking

We have previously reported that naloxone, a nonspecific opioid receptor antagonist, suppresses alcohol but not water consumption by male rats that have been genetically selected for high voluntary alcohol drinking. However, the identity of the specific opioid receptor subtype that may mediate alcohol drinking is not known. This paper reports that a selective delta opioid receptor antagonist is as effective as naloxone in suppressing alcohol consumption and that an enkephalinase inhibitor, which potentiates the action of endogenous enkephalins, increases alcohol intake. These results suggest that alcohol-induced activation of the endogenous enkephalinergic system, and occupation of delta opioid receptors, are involved in the maintenance of continued alcohol drinking.

Effects of chronic ethanol treatment on alpha-MSH concentrations in rat brain and pituitary

Male Sprague-Dawley rats were chronically treated with a liquid diet containing 6.5% (v/v) ethanol or equicaloric sucrose. Rats were killed after 21 days of treatment. alpha-MSH-like immunoreactivity was measured in the intermediate lobe of the pituitary gland and in several brain regions. Chronic ethanol treatment significantly reduced alpha-MSH-like immunoreactivity in the pituitary gland; in the arcuate nucleus of the hypothalamus and in the substantia nigra. The results of this study confirm the earlier findings that chronic ethanol treatment reduces POMC biosynthesis in the pituitary gland and in the central nervous system.

Leu-enkephalin, tamoxifen and ethanol interactions: effects on motility and hepatic ethanol metabolizing enzymes

1. Short-term treatment with tamoxifen (a nonsteroidal antiestrogen) decreased mouse spontaneous locomotor activity compared to controls. 2. Short-term pretreatment with tamoxifen prior to an acute sedative dose of ethanol potentiated ethanol-medicated behavioral depression in the mouse. 3. Injection of a small dose of Leu-enkephalin, which is devoid of effect on mouse motility, prior to an acute sedative dose of ethanol to tamoxifen pretreated female mice counteracted ethanol-produced suppression of motor activity. 4. Mouse liver aldehyde dehydrogenase was inhibited by the short-term administration of tamoxifen when given alone or preceding acute dosages of Leu-enkephalin. Concomitantly, there was an increase in blood plasma ethanol concentration from corresponding control. 5. The results of the behavioral performance test used suggest that tamoxifen possesses depressant property and exerts synergestic effect with Leu-enkephalin in antagonizing ethanol-produced behavioral depression in the mouse. 6. The enzymatic part of the study indicates an adverse metabolic influence by tamoxifen on hepatic metabolism of ethanol-derived acetaldehyde which could contribute to the potentiation of the sedative effect of ethanol.

The effect of ethanol on the biosynthesis and regulation of opioid peptides

Alcoholism and alcohol abuse are serious health problems. Alcohol is known to influence the activity of a number of biological systems, for example the hormonal and neuronal systems. One of the biological systems whose activity is greatly influenced by alcohol is the endogenous opiate system. Alcohol modifies the function of both opiate receptors and opioid peptides. In fact it has been proposed that many of the effects of ethanol are mediated by its effects on the endogenous opiate system. This review will present results from various laboratories on the effects of acute and chronic ethanol treatments on various species, and on the release, biosynthesis and post-translational processing of the endorphins, enkephalins and dynorphins, the three known families of endogenous opioid peptides. Furthermore, the effect of acute and chronic ethanol consumption on the beta-endorphin system in man, and the possible implications of the functional activity of the endogenous opiate system for the genetic predisposition to alcoholism will be discussed.

Effects of ethanol withdrawal on beta-endorphin levels in rat brain and pituitary

Rats which received a liquid diet containing 6.5% (w/v) ethanol for three weeks became tolerant to the hypothermic effect of an acute dose of ethanol. Withdrawal of this diet was followed by loss of the tolerance within 3 days, and by an accompanying pattern of changes in levels of immunoreactive-ir-beta-endorphin in several brain regions. An initial decrease in levels on days 1 and 3 of withdrawal was followed by recovery to control levels on days 8 and 15. This pattern was found in the arcuate nucleus, amygdala, septum, periventricular thalamus and pre-optic periventricular hypothalamus (POPH), but was statistically significant only in the POPH. A different pattern of change in ir-beta-endorphin levels was found in the pituitary. The anterior lobe showed a significant depletion of ir-beta-endorphin levels before alcohol withdrawal, which recovered by day 8 of withdrawal. This depletion was probably not related to the loss of tolerance to ethanol but was a response to a perturbation of the hypothalamic-pituitary axis of hormonal control.

Enkephalinase inhibition: regulation of ethanol intake in genetically predisposed mice

This is the first report of alteration in alcohol intake in mice with a genetic predisposition to alcohol preference and known to have innate brain enkephalin deficiencies. We have been able to significantly attenuate both volitional and forced ethanol intake respectively by acute and chronic treatment with hydrocinnamic acid and D-phenylalanine, known carboxypeptidase (enkephalinase) inhibitors. Since these agents, through their enkephalinase inhibitory activity, raise brain enkephalin levels, we propose that excessive alcohol intake can be regulated by alteration of endogenous brain opioid peptides.

Determination of beta-endorphin in alcoholic patients in the acute stage of intoxication: relation with naloxone therapy

beta-Endorphin was measured in the plasma of control subjects and 12 chronic alcoholics in the acute stage of ethanol intoxication. Naloxone was administered and the level of beta-endorphin was compared before and after treatment. The increased level of beta-endorphin in the intoxicated subjects supports the presence of ethanol interactions with the opioid system, since pituitary secretion does not seem to be involved. Furthermore, the coexistence of high levels of beta-endorphin and an effective naloxone response suggest a possible link between the two.

Influence of ethanol dependence on regional brain content of beta-endorphin in the mouse

beta-Endorphin-like immunoreactivity (BE-LI) was measured in 7 brain regions of Swiss-Webster mice after 24, 48 and 72 h of exposure to ethanol vapor following a priming injection of ethanol and daily injections of pyrazole HCl to inhibit ethanol metabolism. Control mice in identical chambers received pyrazole injections but breathed air only. Ethanol dependence was confirmed by scoring additional groups of mice for handling-induced convulsions during withdrawal after each exposure duration. Measurement of anterior and neurointermediate (NIL) pituitary BE-LI, alpha-MSH and ACTH and plasma corticosterone confirmed earlier results showing NIL depletion of all 3 peptides at 24 h and increased plasma corticosterone concentrations at 72 h in ethanol-exposed mice. In brain extracts from ethanol-dependent mice, BE-LI was significantly reduced in the hypothalamus and midbrain with the greatest reduction occurring at 24 h. In forebrain, cerebral cortex, septum and hippocampus, pyrazole treatment significantly reduced BE-LI relative to an unhandled control group, and ethanol exposure tended to reverse this effect. HPLC of hypothalamic extracts revealed no differences in proportions of molecular forms of beta-endorphin-like peptides between 24 h control and ethanol-exposed groups. The predominant BE-LI peak in both groups co-eluted with opiate-active unmodified beta-endorphin. Ethanol dependence in mice is associated with regionally selective decreases in brain beta-endorphin concentration.

Neonatal monosodium glutamate lesions alter neurosensitivity to ethanol in adult mice

A number of studies have indicated a relationship between brain peptide activity and sensitivity to the behavioral effects of ethanol. Specifically, it has been suggested that ethanol effects are mediated by changes in the endogenous opioid peptides derived from the proopiomelanocortin (POMC) precursor. Most cell bodies containing brain POMC-derived peptides are found in the arcuate nucleus of the hypothalamus. Neonatal administration of monosodium glutamate (MSG) has been reported to destroy cell bodies of the arcuate nucleus. We treated WSC strain mice on postnatal Day 4 with a single SC injection of 4 mg/g MSG or saline. When adult, MSG and control mice were challenged with an IP injection of ethanol and its effect on body temperature, open field activity, or duration of loss of righting reflex was assessed. Blood ethanol concentration (BEC) was measured and the hypothalamic content of beta-endorphin like immunoreactivity (beta-EP) was determined by radioimmunoassay. beta-EP was markedly reduced in both females and males by MSG treatment. MSG-treated animals of both sexes showed significantly less ethanol-induced hypothermia than controls. BEC was higher in MSG-treated animals of both sexes than in controls, so the differences were not due to ethanol pharmacokinetics. beta-EP was generally lower in males. Duration of righting reflex was prolonged in MSG treated animals, and the reduction in open field activity was potentiated. These latter effects may be in part attributable to the higher BECs achieved in lesioned animals. These data suggest that beta-EP cell bodies in the arcuate nucleus of the hypothalamus mediate neurosensitivity to some effects of ethanol in mice, but further experiments will be necessary to implicate beta-EP specifically.