Effects of alcohol withdrawal on monocyte subset defects in chronic alcohol users

AbstractAlcohol use disorder (AUD) is highly comorbid with depression. Withdrawal from chronic alcohol drinking results in depression and understanding brain molecular mechanisms that drive withdrawal-related depression is important for finding new drug targets to treat these comorbid conditions. Here, we performed RNA sequencing of the rat hippocampus during withdrawal from chronic alcohol drinking to discover key signaling pathways involved in alcohol withdrawal-related depressive-like behavior. Data were analyzed by weighted gene co-expression network analysis to identify several modules of co-expressed genes that could have a common underlying regulatory mechanism. One of the hub, or highly interconnected, genes in module 1 that increased during alcohol withdrawal was the transcription factor, signal transducer and activator of transcription 3 (Stat3), a known regulator of immune gene expression. Total and phosphorylated (p)STAT3 protein levels were also increased in the hippocampus during withdrawal after chronic alcohol exposure. Further, pSTAT3 binding was enriched at the module 1 genes Gfap, Tnfrsf1a, and Socs3 during alcohol withdrawal. Notably, pSTAT3 and its target genes were elevated in the postmortem hippocampus of human subjects with AUD when compared with control subjects. To determine the behavioral relevance of STAT3 activation during alcohol withdrawal, we treated rats with the STAT3 inhibitor stattic and tested for sucrose preference as a measure of anhedonia. STAT3 inhibition alleviated alcohol withdrawal-induced anhedonia. These results demonstrate activation of STAT3 signaling in the hippocampus during alcohol withdrawal in rats and in human AUD subjects, and suggest that STAT3 could be a therapeutic target for reducing comorbid AUD and depression.

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Role of Hippocampal Neurogenesis in Alcohol Withdrawal Seizures

Brain Plasticity ◽

10.3233/bpl-200114 ◽

2020 ◽

Vol 6 (1) ◽

pp. 27-39 ◽

Cited By ~ 1

Author(s):

Sreetama Basu ◽

Hoonkyo Suh

Keyword(s):

Alcohol Withdrawal ◽

Granule Cells ◽

Alcohol Exposure ◽

Hippocampal Neurogenesis ◽

Structural Development ◽

Chronic Alcohol ◽

Functional Studies ◽

Newborn Neurons ◽

Withdrawal Syndromes ◽

Necessary And Sufficient

Chronic alcohol consumption results in alcohol use disorder (AUD). Interestingly, however, sudden alcohol withdrawal (AW) after chronic alcohol exposure also leads to a devastating series of symptoms, referred to as alcohol withdrawal syndromes. One key feature of AW syndromes is to produce phenotypes that are opposite to AUD. For example, while the brain is characterized by a hypoactive state in the presence of alcohol, AW induces a hyperactive state, which is manifested as seizure expression. In this review, we discuss the idea that hippocampal neurogenesis and neural circuits play a key role in neuroadaptation and establishment of allostatic states in response to alcohol exposure and AW. The intrinsic properties of dentate granule cells (DGCs), and their contribution to the formation of a potent feedback inhibitory loop, endow the dentate gyrus with a “gate” function, which can limit the entry of excessive excitatory signals from the cortex into the hippocampus. We discuss the possibility that alcohol exposure and withdrawal disrupts structural development and circuitry integration of hippocampal newborn neurons, and that this altered neurogenesis impairs the gate function of the hippocampus. Failure of this gate function is expected to alter the ratio of excitatory to inhibitory (E/I) signals in the hippocampus and to induce seizure expression during AW. Recent functional studies have shown that specific activation and inhibition of hippocampal newborn DGCs are both necessary and sufficient for the expression of AW-associated seizures, further supporting the concept that neurogenesis-induced neuroadaptation is a critical target to understand and treat AUD and AW-associated seizures.

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Elevated adiponectin serum levels in patients with chronic alcohol abuse rapidly decrease during alcohol withdrawal

Zeitschrift für Gastroenterologie ◽

10.1055/s-2008-1037554 ◽

2008 ◽

Vol 46 (01) ◽

Author(s):

C Büchler ◽

A Schäffler ◽

C Dorn ◽

M Johann ◽

M Neumeier ◽

...

Keyword(s):

Alcohol Abuse ◽

Alcohol Withdrawal ◽

Serum Levels ◽

Chronic Alcohol ◽

Chronic Alcohol Abuse

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Sequential Changes in Brain Glutamate and Adenosine A1 Receptors May Explain Severity of Adolescent Alcohol Withdrawal after Consumption of High Levels of Alcohol

Neuroscience Journal ◽

10.1155/2019/5950818 ◽

2019 ◽

Vol 2019 ◽

pp. 1-7 ◽

Cited By ~ 3

Author(s):

Patrycja Bolewska ◽

Bryan I. Martin ◽

Krystal A. Orlando ◽

Dennis E. Rhoads

Keyword(s):

Alcohol Consumption ◽

Alcohol Withdrawal ◽

Alcohol Withdrawal Syndrome ◽

Liquid Diet ◽

Withdrawal Symptoms ◽

Chronic Alcohol ◽

Chronic Alcohol Consumption ◽

Adenosine A1 Receptors ◽

Severe Withdrawal ◽

Adenosine A1

There is an excellent correlation between the age when alcohol consumption begins and the likelihood of lifelong problems with alcohol abuse. Alcohol use often begins in adolescence, a time marked by brain development and maturation of numerous brain systems. Rats are an important model, wherein the emergence of alcohol withdrawal symptoms serves as a gauge of dependency following chronic alcohol consumption. Previous work has shown that adolescent Long-Evans rats consume high levels of alcohol and develop a severe alcohol withdrawal syndrome when fed alcohol as part of a liquid diet. Acutely, alcohol inhibits two important excitatory receptors for glutamate (NMDA and AMPA) and may further decrease glutamate activity through modulatory adenosine receptors. The present study focuses on potential adaptive changes in expression of these receptors that may create a receptor imbalance during chronic alcohol consumption and lead to severe overexcitation of the adolescent brain during alcohol withdrawal. Levels of brain expression of NMDA, AMPA, and adenosine A1 and A2a receptors were determined by Western blotting after adolescent rats consumed an alcohol-containing liquid diet for 4, 11, or 18 days. Severity of alcohol withdrawal was also assessed at these time points. Levels increased for both AMPA and NMDA receptors, significant and approaching maximal by day 11. In contrast, A1 receptor density showed a slow decline reaching significance at 18 days. There were no changes in expression of adenosine A2a receptor. The most severe withdrawal symptoms appear to coincide with the later downregulation of adenosine A1 receptors coming on top of maximal upregulation of excitatory AMPA and NMDA glutamate receptors. Thus, loss of adenosine “brakes” on glutamate excitation may punctuate receptor imbalance in alcohol-consuming adolescents by allowing the upregulation of the excitatory receptors to have full impact during early alcohol withdrawal.

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Effect of Chronic Intake of Ethanol on Lactate/Pyruvate and β-Hydroxybutyrate/Acetoacetate Ratios in Rat Liver

Canadian Journal of Physiology and Pharmacology ◽

10.1139/y75-042 ◽

1975 ◽

Vol 53 (2) ◽

pp. 299-303 ◽

Cited By ~ 12

Author(s):

J. M. Khanna ◽

H. Kalant ◽

J. Loth

Keyword(s):

Rat Liver ◽

Adult Male ◽

Alcohol Withdrawal ◽

Control Diet ◽

Liquid Diet ◽

The Other ◽

Male Rats ◽

Chronic Alcohol ◽

Alcohol Group ◽

Under Five

Adult male rats were fed a liquid diet providing 35% of the calories as ethanol, while pair-fed controls received the corresponding diet with alcohol replaced by an equicaloric concentration of sucrose. After 1 month, lactate/pyruvate (L/P) and β-hydroxybutyrate/acetoacetate (β-HB/AcAc) ratios in the livers were determined under five different conditions: (1) both diets present up to the time of sacrifice, (2) ethanol diet replaced by control diet for 24 h before sacrifice, (3) ethanol diet replaced by control diet for 48 h before sacrifice, (4) as in the preceding, followed by intraperitoneal (i.p.) injection of ethanol, 1 g/kg, 1 h before sacrifice, (5) as in the preceding, but i.p. injection 3 h before sacrifice.The L/P ratio was significantly higher in the alcohol group than in controls under the first experimental condition, but the groups did not differ under the other four conditions. The β-HB/AcAc ratio was also significantly higher in the alcohol group under the first condition. This difference disappeared in the second and third conditions. Under the fourth and fifth conditions the β-HB/AcAc ratio was significantly higher in the controls. The results are compatible with an adaptive increase in mitochondrial reoxidation of NADH in the chronic alcohol groups, but the possibility of a change due to alcohol withdrawal can not be excluded.

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