Effect of chronic alcoholism on human muscle glycogen and glucose metabolism

To determine the effect of alcohol on carbohydrate metabolism, 48 human muscle biopsies from chronic alcoholics were studied. The level of glycogen and the activities of the enzymes catalyzing glycogen and glucose metabolism were analyzed. Chronic alcohol intake produced an increase in glycogen concentration and a decrease in pyruvate kinase activity before the first signs of myopathy appeared. When myopathy was present, glycogen decreased. These changes may contribute to the decline in skeletal muscle performance in these patients.

Effect of ethanol consumption on adult rat liver mitochondrial populations analyzed by flow cytometry

In the present study, the effects of administering ethanol to adult male rats on the distribution of the low fluorescence population (LFP) and high fluorescence population (HFP), and the rhodamine-123 fluorescence intensity of these groups of mitochondria are analyzed by flow cytometry. Our results show that ethanol administration to adult male rats induces a redistribution of the HFP and LFP mitochondrial populations leading to an increase of the less functional HFP mitochondria. In addition, ethanol induced an increase in the mean intensity of green fluorescence of the HFP that is probably related to an increased number of rhodamine-123 binding sites per mitochondria resulting from mitochondria enlargement.

Effects of chronic alcohol consumption and aging on dopamine D1 receptors in Fischer 344 rats

The present study examined the hypothesis that chronic alcoholism augments the age-related loss of dopamine D1 receptors. This hypothesis was investigated because previous studies reported that both aging and chronic alcoholism produce significant changes in dopaminergic systems, and because chronic alcoholism potentiates some age-related CNS losses. In addition, this study investigated the effects of aging on D1 receptors in animals 1 and 7 days after withdrawal from chronic ethanol. Quantitative autoradiography was used to measure [3H]SCH 23390 binding to D1 receptors in brain areas associated with both the nigrostriatal and mesocorticolimbic dopamine systems. Receptors were assessed in 5-, 14-, and 24-month-old male Fischer 344 rats that were pair-fed a control or 6.6% (v/v) ethanol-containing liquid diet for 6 weeks. The results of these studies demonstrated that aging is associated with a significant decline in D1 receptors in the rostral and caudal striatum, and substantia nigra of both control and ethanol-fed rats. These receptor changes in the nigrostriatal system may be associated with motor abnormalities. In addition, there was an age-related decline in D1 receptors in two brain areas of the mesocorticolimbic system: the nucleus accumbens and frontal cortex. The latter findings may be important because of the involvement of this system with the rewarding properties of ethanol and other drugs of abuse. There were no age-related differences in the response of D1 receptors to ethanol withdrawal in the caudal and rostral striatum, substantia nigra, and nucleus accumbens.(ABSTRACT TRUNCATED AT 250 WORDS)

Brain atrophy and cognitive function in older abstinent alcoholic men

We used computer-aided magnetic resonance image analysis and an age-normed battery of neuropsychological tests to measure brain atrophy and cognitive function in 14 older abstinent alcoholic men and 11 older controls in the expectation that these subject groups would show the greatest and most persistent cerebral effects consequent to chronic alcoholism. The abstinent alcoholics exhibited cognitive impairments (primarily in memory and visual-spatial-motor skills) compared with the controls. In contrast, we found no difference in global cerebral atrophy between the groups, although two alcoholics had extensive atrophy compared with all other subjects. However, there was a stronger association between age and ventricular dilation in the alcoholic sample compared with controls. We conclude that a substrate other than magnetic resonance imaging-detectable global atrophy must underlie the persistent cognitive impairments evident in the sampled alcoholics. Furthermore, if there are global atrophic changes in the brain associated with chronic alcoholism, these effects are not ubiquitous and/or may be reversible in most patients with sufficient abstinence.

Effect of chronic ethanol consumption on the energy state and structural stability of periportal and perivenous hepatocytes

This study was implemented to evaluate whether perivenous cells experience functional alterations due to a deficit in oxygen tension resulting from ethanol oxidation in the periportal regions of the lobule. Periportal and perivenous hepatocytes were prepared from ethanol-fed and control animals (Lieber-DeCarli diet, 31 days). These cells were either incubated at various oxygen tensions by varying the composition of the gases utilized to equilibrate the incubation buffers (0, 5, 25, and 95% oxygen) or they were unincubated. They were analyzed for adenine nucleotide and inorganic phosphate concentrations and from these data phosphorylation potentials and energy charge values were determined. Under highly aerobic conditions no differences were observed in the energy states of the cells irrespective of their source (control vs ethanol-fed; periportal vs perivenous). The ATP concentrations, phosphorylation potentials, and energy charge values indicated that the energy states of cells from both ethanol-fed and control rats were maintained at relatively high levels in incubations with 5 and 25% oxygen. However, unincubated cells and those incubated at 0% oxygen demonstrated lowered energy states and the decreases were most striking in hepatocytes from ethanol-fed animals. Measurements of LDH loss and trypan blue exclusion indicate that cell leakage and viability loss occur when cells are incubated under anoxic and hypoxic conditions. At low oxygen tensions perivenous cells from ethanol-fed rats demonstrated much greater loss of structural stability than did the other cell preparations. These observations indicate that decreased energy state is one factor which contributes to cell damage in hepatocytes from ethanol-fed animals. Moreover, perivenous cells from ethanol-fed animals seem to be particularly vulnerable to damage under hypoxic conditions.

Role of sinusoidal endothelial cells in liver disease

We characterized the structural changes of sinusoidal endothelial cells in chronic ethanol-fed rats and rats with cirrhosis induced by thioacetamide. The phenotypic changes of sinusoidal endothelial cells in fibrotic rats induced by thioacetamide and the reversibility of these changes were also investigated under transmission and scanning electron microscopy, regular microscopy and by immunohistochemistry with laminin and von Willebrand factor antibodies. The diameter and porosity of sinusoidal endothelial fenestrations were increased in chronic ethanol-fed rats without liver fibrosis, however, they decreased within 4 weeks of the cessation of thioacetamide treatment. A basement membrane-like structure in Disse's space was noted 6 weeks after thioacetamide treatment. Laminin was detected in Disse's space after 4 weeks and von Willebrand factor was detected in the cytoplasm as granular fluorescence after 6 weeks of thioacetamide treatment. Reversibility of the phenotypic changes of the sinusoidal endothelial cells was demonstrated in fibrotic liver of rats that received thioacetamide for 6 weeks after long-term discontinuation of thioacetamide administration. These results indicate that the structural and immunohistochemical characteristics of sinusoidal endothelial cells change in chronic ethanol-fed rats and fibrotic rats and these changes are reversible.

Influence of selenium supplementation in non-toxic doses on testis lipid peroxide and antioxidant levels in chronic alcohol-fed rats

Prolonged consumption of alcohol leads to peroxidative damage in testicular tissues and gonadal dysfunction. Selenium (Se) deficiency also gives rise to testicular structural and functional disturbances similar to those caused by alcohol. We examined the possibility that Se supplementation might, at least partially, prevent the testicular disorders induced by alcohol. Rats were fed alcohol and alcohol with 3 p.p.m. Se in drinking water for 5 months. Ethanol administration decreased vitamin C and glutathione levels in testicular tissue, but caused no alterations in vitamin E and polyunsaturated fatty acid levels. However, lipid peroxide levels were increased by alcohol. Selenium supplementation diminished both the depletion of vitamin C and the production of lipid peroxides, but did not affect the depletion of glutathione induced by alcohol in testicular tissue. In addition, Se supplementation ameliorated the decrement of serum testosterone levels induced by alcohol.

Effects of abstinence on sex hormone profile in alcoholic patients without liver failure

Excessive ethanol ingestion induces hypoandrogenism in male subjects. To confirm its presence and to study its relationship with the degree of liver damage and alcohol abstinence, plasma sex hormones were measured in alcoholic patients without liver failure, after two different abstinence periods. Patients were 30 male chronic alcoholics admitted to the Alcoholism Ward for treatment of their addiction. On admission, we measured: testosterone (T), estradiol (E), follicle stimulating hormone (FSH), luteinizing hormone (LH) and sex-hormone binding globulin (SHBG). A liver biopsy was also performed. These measurements were repeated at discharge and were also done in 15 normal volunteers. On admission (mean abstinence 1.9 +/- 1.7 days) total T was similar to controls, FSH was lower (p < 0.02) and high levels of SHBG were found (3.5 fold increase, as compared to controls). Histologically, 9 patients had normal liver; 14 had moderate alterations and 7 showed marked alterations. Hormonal values were not different in these 3 groups. At discharge, 11.1 +/- 4.7 days after admission, T, E and FSH did not show significant changes but LH decreased (8.2 +/- 5.2 mIU/ml vs 12.9 +/- 4.1, p < 0.001); SHBG also decreased (65.4 +/- 21.6 nmol/l vs 117.2 +/- 33.3, p < 0.001) to values that still were twice those of controls. It is concluded that alcoholic patients without clinical signs of liver failure have normal plasma testosterone levels, irrespective of their histologic liver alterations and high plasma SHBG levels that decreased significantly after a short abstinence. The concomitant LH decrease suggests that hypoandrogenism is likely in these patients. Fast changes in SHBG levels rise the possibility that this protein is candidate marker of alcoholism.

Organomegaly in chronic alcoholics

We compared the weights of the brain, heart, spleen, lungs, liver, and kidneys, uncorrected and corrected for body surface area (BSA) and body mass index (BMI), of 50 alcoholics with 50 forensic controls matched for sex, age, and body weight. With the exception of combined renal weight corrected for BSA and BMI, no significant differences were found in organ weights between the two groups. Glomerular diameter corrected for BSA was significantly greater in alcoholics than controls. It appears that nephromegaly and glomerulomegaly are both population markers for alcoholism. In alcoholics, there was no correlation between the microscopic degree of steatosis and glomerulomegaly. In controls, renal glomerular diameter was greater with increasing severity of hepatic steatosis, probably as a reflection of obesity.

Chronic ethanol consumption alters effects of ethanol in vitro on brain membrane structure of high alcohol sensitivity and low alcohol sensitivity rats

In this study, we examined if differences in initial membrane sensitivity to ethanol were associated with development of membrane tolerance to ethanol. High Alcohol Sensitivity (HAS) and Low Alcohol Sensitivity (LAS) rats were administered a 15% ethanol solution in water as the sole source of fluid for 30 days. The amount of ethanol consumed per day did not significantly differ between the HAS and LAS rats. Development of membrane tolerance to in vitro effects of ethanol has been previously reported for bulk membrane fluidity and protein-lipid interaction. Our data expands the understanding of "membrane tolerance" phenomenon to protein distribution and bilayer interdigitation. We also introduce genotype-dependent and genotype-independent properties of the membrane tolerance to ethanol. ethanol treatment produced genotype-dependent and genotype-independent membrane tolerance to ethanol. The in vitro effects of ethanol on synaptic plasma membrane (SPM) protein distribution and lipid bilayer interdigitation were abolished or decreased in the SPM of chronic ethanol-treated HAS rats, as compared with the SPM of HAS control rats (genotype-dependent tolerance). Protein distribution and bilayer interdigitation were not affected by ethanol in vitro in either chronic ethanol-treated or control LAS rats. Genotype-independent tolerance to ethanol in vitro was observed for SPM annular and bulk bilayer fluidity in chronic ethanol-treated HAS and LAS rats. It is concluded that initial sensitivity to ethanol contributes to the development of membrane tolerance to ethanol in HAS and LAS rats.

Regional differences in the effects of chronic ethanol administration on [3H]zolpidem binding in rat brain

A strong association has been observed between [3H]zolpidem binding and the presence of gamma-aminobutyric acid (GABAA) receptor mRNA for alpha 1-, beta 2-, and gamma 2-subunits in specific brain regions. This correlates with observed sensitivity of individual neurons to zolpidem and ethanol in these same regions. Previous studies using homogenate binding approaches showed small alterations in [3H]zolpidem binding levels after chronic ethanol exposure. This study was undertaken to ascertain if there is regional specificity of the effects of chronic ethanol administration on [3H]zolpidem binding levels. Chronic ethanol administration induced small, but significant alterations in [3H]zolpidem (5 nM) binding in the inferior colliculus, substantia nigra, and the medial septum. [3H]Zolpidem binding was increased in the inferior colliculus and substantia nigra, and decreased in the medial septum. No significant differences in [3H]zolpidem binding were noted in any other brain area analyzed, including the cortex and cerebellum. These findings show that chronic ethanol administration has small effects on [3H]zolpidem binding, although they occur in a site-specific and bidirectional manner. Moreover, there is no correlation between changes in [3H]zolpidem binding and alterations in GABAA receptor subunit expression.

Reduced activities of thiamine-dependent enzymes in brains of alcoholics in the absence of Wernicke's encephalopathy

The relative roles of alcohol per se, thiamine deficiency, and liver disease in the pathogenesis of alcohol-related brain damage have not been fully elucidated. In particular, the extent to which alterations of brain thiamine metabolism contribute to cognitive dysfunction in alcoholism in the absence of Wernicke's encephalopathy has not been established. In the present study, thiamine diphosphate-dependent enzymes were measured using standard spectrophotometric techniques in homogenates of brain tissue obtained at autopsy from eight alcoholic patients, all of whom died in hepatic coma without clinical or neuropathological evidence of Wernicke's encephalopathy and six nonalcoholic, age-matched controls, matched for autopsy delay time and free, at the time of death, from gross malnutrition or other neurological or psychiatric disorders. Transketolase activities were reduced in cerebellum (by 35%, p < 0.01), thalamus (by 35%, p < 0.01), frontal cortex (by 22%, p < 0.01), temporal cortex (by 20%, p < 0.01), and prefrontal cortex (by 19%, p < 0.01). Activities of the pyruvate dehydrogenase complex were selectively reduced in prefrontal cortex by 25% (p < 0.01). Activities of alpha-ketoglutarate dehydrogenase were within normal limits in all brain regions of alcoholic patients. The generalized reductions of transketolase activity undoubtedly result from thiamine deficiency. Previous studies suggest that the presence of liver disease may exacerbate thiamine deficiency in alcoholics. A sustained loss of transketolase activity in brain could result in disruption of pentose shunt activity and concomitant reductions in reducing equivalents and lipid metabolism within the cell. The selective loss of pyruvate dehydrogenase activity in prefrontal cortex of alcoholic cirrhotics could relate to the phenomenon of hepatic coma.(ABSTRACT TRUNCATED AT 250 WORDS)

Neurofibrillary tangles in chronic alcoholics

Magnocellular neurons in the cholinergic nucleus basalis appear to be vulnerable in a variety of pathological conditions, including chronic alcoholism. While neurofibrillary degeneration of these neurons has been noted in a number of disorders characterized by dementia, the mechanism of cell death in thiamine-deficient chronic alcoholics has not been identified. In the present post-mortem investigation, multiple brain regions of seven thiamine-deficient chronic alcoholics, three neurologically asymptomatic chronic alcoholics and seven non-alcoholic age matched controls were screened for neurofibrillary pathology using both tau-immunohistochemistry and a modified Bielschowsky silver stain. In chronic alcoholics with thiamine deficiency, neurofibrillary pathology was found in the nucleus basalis, but not any other brain region. Neurofibrillary tangles were not seen in age-matched controls and were infrequent in alcoholics without neuropathological signs of thiamine-deficiency. Neurofibrillary tangles were most numerous in those cases with cell loss in the nucleus basalis. These findings suggest that neurodegeneration of the nucleus basalis in chronic alcoholics proceeds through the formation of neurofibrillary tangles.

Structural reorganization in the supraoptic nucleus of withdrawn rats following long-term alcohol consumption

We have recently shown in the supraoptic nucleus (SON) of the rat that prolonged ethanol consumption induces cell degeneration and enlargement of the surviving neurons and of their subcellular organelles. We analyzed the SON of withdrawn rats to evaluate whether it displays any evidence of morphological reorganization following abstinence from ethanol, inasmuch as in this condition the ethanol-induced changes in the plasma levels of neurohormones and plasma osmolality are no longer detectable. A group of 18-month-old withdrawn rats was compared with age-matched, pair-fed control and ethanol-treated rats. To differentiate between the effects of withdrawal and the effects of rehydration, a group of 18-month-old rehydrated rats was also included in this study and compared with age-matched, pair-fed control and dehydrated rats. We estimated the volume of SON, and the total number and mean volume of its neurons. The cross-sectional areas of the vasopressinergic and oxytocinergic populations were also evaluated. At the ultrastructural level, we determined the volumes and surface areas of the rough endoplasmic reticulum and Golgi apparatus, and the volumes of neurosecretory granules and nucleoli. In withdrawn animals, the total number of SON neurons was smaller than in controls, although the neuronal volume was greater. The number of SON neurons did not differ between withdrawn and ethanol-treated rats, despite the reduced volume of SON in the former animals. The decrease of SON volume correlated with and was caused by a reduction in the volume of SON neurons and in the size of the organelles involved in neuro-hormone synthesis.(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of chronic alcoholism on neuronal nuclear size and neuronal population in the mammillary body and the anterior thalamic complex of man

The effect of chronic alcoholism on neuronal nuclear size and neuronal population of two memory-related diencephalic centres, the mammillary body and the anterior thalamic complex, has been examined in 24 chronic male alcoholics and 22 age-matched male controls. Cases were subdivided into three age groups (30-44 years, 45-59 years and 60-75 years). The results showed a significant reduction in both neuronal numbers and nuclear size in alcoholics compared to controls. Differences were especially high in the youngest alcoholics. The intensity of liver damage (steatosis vs. cirrhosis) did not have any significant effect. Moreover, an age-related decrease of neuronal number and karyometry was seen in controls but not in alcoholics. Our results suggest that chronic alcoholism accelerates the rate of neuronal loss in the mammillary body and anterior thalamic complex to a degree equivalent to aging. Likewise, chronic alcoholism impairs the compensatory increase in neuronal nuclei area seen in normal aging in these same structures. Our findings show that medial diencephalic memory centres are damaged in chronic alcoholism, which may contribute to the clinical symptomatology of these persons.

Attenuation of glutamate-induced neurotoxicity in chronically ethanol-exposed cerebellar granule cells by NMDA receptor antagonists and ganglioside GM1

Ethanol, acutely, is a potent inhibitor of the function of the N-methyl-D-aspartate (NMDA) subtype of glutamate receptor. After chronic exposure of animals to ethanol, however, the NMDA receptor in brain is upregulated. This upregulation is associated with the occurrence of ethanol withdrawal seizures. When cultured cerebellar granule neurons are exposed chronically to ethanol, the resulting upregulation of NMDA receptor function renders the cells more susceptible to glutamate-induced neurotoxicity. The present studies show that chronic ethanol exposure produces an increase in NMDA receptor number in the cells, measured by ligand binding to intact cells. Glutamate-induced excitotoxicity, both in control and ethanol-exposed cells, is blocked by the same NMDA receptor antagonists previously shown to block ethanol withdrawal seizures in animals. In addition, glutamate neurotoxicity is blocked by acute (2-hr) pretreatment of cells with ganglioside GM1 or by chronic (3 days) treatment with the ganglioside. Acute ganglioside treatment does not interfere with the initial rise in intracellular calcium caused by glutamate, whereas this response is downregulated after chronic ganglioside treatment. These results suggest that therapeutic agents can be developed to block both ethanol withdrawal signs and the neuronal damage that accompanies ethanol withdrawal. Furthermore, chronic ganglioside treatment during ethanol exposure has the potential to prevent changes in the NMDA receptor that lead to withdrawal seizures and enhanced susceptibility to excitotoxicity.

[The neurobiology of alcoholism. Neuropathology and CT/NMR findings]

The authors deal with the heuristic value of the "neurobiological model of alcohol dependence". It allows the study of the influence of a defined noxe on different brain structures. Additionally, it enables the quantification of regeneration and restitution processes in abstinence. Because of this, the alcoholism model goes beyond dementia, the model which has dominated brain research so far. Neuropathological studies in humans and animals found a reduction in the volume of white matter and a partial degeneration, or even loss of specific neurons. According to animal data, this could to a certain extent be genetically determined. Alcohol exerts a distinct influence on different neurotransmitter systems. This research will deepen our understanding of the neurotoxic and psychotropic properties of alcohol, and of the development of dependence. Little is known about the role of astrocytes in the reaction of the brain to alcohol. Here again, the neurobiological model of alcohol dependence could be of value in learning more about their interactions with neurons. Using Magnetic Resonance Imaging and CAT-scans, the decrease in volume of white and grey matter was demonstrated in vivo. The degree and the time course of brain damage seems to be influenced less by drinking history than by age and gender. There is evidence that female alcoholics develop brain damage more readily than men. When abstinent, an increase in the volume of white and grey matter can be observed. This is not due to the rehydration of brain tissue alone. Future research will need to deal with the question of whether the central nervous system is capable of partial regeneration. For the study of neuroplasticity, the neurobiological model of alcohol dependence seems to be particularly well suited.

Suprahepatic vein oxygen tension in alcoholics with severe and mild liver damage

We measured suprahepatic vein and arterial partial oxygen pressure in 35 alcoholics with severe (N = 7) or mild (N = 28) histological liver damage and without evidence of clinical liver failure. The suprahepatic vein was punctured with a fine needle, using a percutaneous approach. Suprahepatic vein partial oxygen pressure was lower and arterial-suprahepatic gradient higher in alcoholics with severe liver damage compared to those with mild damage (35.1 +/- 1.7 vs 44.1 +/- 2.1 and 58.9 +/- 3.7 vs 45.9 +/- 2.4 mm Hg, respectively; P < 0.001). Suprahepatic puncture was well tolerated and devoid of complications. It is concluded that alcoholics with severe liver damage have lower oxygen tensions in the suprahepatic vein, a phenomenon that supports the hypoxic theory of alcoholic liver disease.

[Changes in the small intestine mucosa in chronic alcoholism]

Morphologic and enzyme induction phenomena changes in the small bowel mucosa produced by excessive alcohol intake were studied. Both aspects may have nutritional repercussions in alcoholic patients. Three groups of patients were included in the study: group I made up of 20 healthy controls, group II with 30 alcoholic patients with active alcohol intake at the time of the study and group III made up of 30 alcoholics following abstinence. The nutritional status, possible existence of associated liver disease, intestinal morphology and the mucosal and serum gamma glutamyltranspeptidase (GGT) levels were evaluated. The morphologic changes observed under the study conditions, with normal levels of ingestion in alcoholic with active alcohol intake, were mild and could be related with the nutritional status and folate deficiency which some presented than being secondary to a direct toxic effect of the alcohol. Moreover, significant increases were observed in the GGT in the intestinal mucosa of alcoholics with active intake (3.97 +/- 1.37 mU/g of tissue) with respect to the control group (1.86 +/- 0.7 mU/g). The changes were rapidly reversible following abstinence and correlated with the changes observed in serum, thus suggesting an enzymatic induction mechanism.

Vascular changes in acute Wernicke's encephalopathy

The nature and distribution of vascular changes in acute Wernicke's encephalopathy (WE) were analyzed in three autopsy cases. Lesions of the lateral vestibular nucleus of the medulla oblongata (three cases) and lateral ventricular wall (one case) were examined by reconstruction of 200 serial sections, and the capillary diameter in the tegmentum of the medulla oblongata was measured morphometrically in all cases. The vascular changes commonly found in and around the parenchymal lesions in all cases were: (1) dilatation and endothelial swelling of almost all vessels ranging from small arteries to veins, being especially severe with undulation in small arteries and arterioles, and (2) fibrinoid degeneration and hemorrhage involving selectively the arterioles and capillaries on the arterial side. These vascular changes in the medulla oblongata were essentially the same as those in the third ventricular wall, but differed in their severity. Capillary diameter in these cases was significantly larger than that in seven control cases. Such vascular changes, especially a dysoric change on the arterial side, could not be ascribed to secondary change following changes in the parenchyma, and were, therefore, considered to be a lesion essential to WE, as in the case of the parenchymal lesion.

Cytochrome P-450 2E1 in rat liver, kidney and lung microsomes after chronic administration of ethanol either orally or by inhalation

In this study, microsomal cytochrome P-450 2E1 (CYP2E1) contents and activities were tested in liver, kidney and lung from Wistar rats after the following treatments (1) oral administration of a 10% ethanol solution for 4 weeks; (2) pair fed controls; (3) oral administration of a 5% acetone solution for 1 week; (4) inhalation of ethanol vapour for 4 weeks. CYP2E1 activity was measured using chlorzoxazone as substrate and CYP2E1 content was measured using Western blot analysis. In addition, the cellular distribution of CYP2E1 was studied in liver, lung and kidney by immunohistochemistry. Basal liver CYP2E1 was 10-20 times lower in lung and kidney than in liver. Inhalation was clearly the most efficient way of inducing CYP2E1, probably due to the continuous and high alcohol exposure. Among the organs tested, lung appeared to be the tissue least sensitive to induction even after ethanol inhalation, suggesting the absence of local induction. After ethanol intoxication, immunostaining was increased in the centrilobular region of the liver, in the alveolar cells of the lung and in the proximal convoluted tube of the kidney. The CYP2E1 activities decreased to control values in the three tissues tested, within 24 h after cessation of intoxication.

Effects of chronic alcohol intake on the vasopressin content in the hypothalamic paraventricular and supraoptic nuclei of the mouse. An immunohistochemical and morphometric study

The present study analyses the response of the paraventricular (PVN) and supraoptic (SPO) nuclei of the hypothalamus of the male mouse to chronic alcohol intake by immunohistochemical and morphometric methods. We relate the intensity of the reaction to A-V with the vasopressin content of the nucleus, as all the slides, from the control and experimental groups, were processed at the same time and with the same solutions of the antibodies. We suggest that the accumulation of vasopressin, observed in the alcohol-treated animals, of both hypothalamic nuclei could be related to an inhibition of vasopressin release and/or transport from the SPO and PVN to the neurohypophysis and to an increase in vasopressin synthesis in the SPO as this nucleus shows an increase in its nuclear sizes, an index of the function of the neurons.

Tumor necrosis factor-alpha cell-surface receptors of liver parenchymal and nonparenchymal cells during acute and chronic alcohol administration to rats

Tumor necrosis factor-alpha (TNF-alpha) has been shown to contribute to the alcohol [ethanol (ETOH)]-induced alteration of hepatic function. Therefore we tested the hypothesis that the hepatic action of TNF-alpha could be due, at least in part, to alterations in TNF-alpha cell-surface receptors of hepatic parenchymal (hepatocytes) and nonparenchymal (Kupffer and sinusoidal endothelial) cells. Rats were either acutely treated with ETOH by a primed, continuous 7-hr intravenous infusion of 20% (w/v) ETOH (30 mg/100 g body weight/h) or chronically fed an ETOH-containing liquid diet (5.2% ETOH, w/v, with ETOH as 36% of total calories) for 14 weeks. Control rats in the acute group were infused with sterile saline, whereas control rats in the chronic group were fed liquid diet containing dextrin to replace ETOH in isocaloric amounts. Three hr before killing, the rats were injected intravenously with Gram-negative bacterial lipopolysaccharide [(LPS) 100 micrograms/100 g body weight] or saline. Hepatocytes, Kupffer cells, and sinusoidal endothelial cells were isolated after liver perfusion with collagenase (without pronase), separated by centrifugal elutriation, and used to determine the affinity (Kd) and capacity (Bmax) of binding sites, using recombinant human-[125I]TNF-alpha as the ligand. Two binding sites were detected on Kupffer cells and sinusoidal endothelial cells isolated from control animals: a high-affinity (Kd1, in the range of 150-200 pM), low-capacity (Bmax, in the range of 2-3 fmol/10(6) cells) binding site and a low-affinity (Kd2, in the range of 2-9 nM), high-capacity (Bmax2, in the range of 3-15 fmol/10(6) cells) binding site.(ABSTRACT TRUNCATED AT 250 WORDS)

[Alcohol--bad for the brain?]

The consumption of alcohol and other addictive drugs is quite low in Norway compared with other European countries. Nevertheless, many will experience some of the various drug effects on the brain. Alcohol, the legal substance, is responsible for most drug-related neurological effects in Norway. Alcohol use results in a variety of different effects in different parts of the central nervous system. Headache and alcohol withdrawal symptoms are frequent complaints, and atrophy of the cerebellar vermis and Wernicke Korsakoff syndrome often result in chronic sequelae. Most other drugs cause less structural damage to the nervous system than alcohol does. Clinical findings, pathogenetic mechanisms and treatment of some drug-related neurological disorders are discussed.