Abstract

CD4+ T cell depletion is a major component of the multiple detrimental effects of chronic alcohol consumption on the immune system. Chronic alcohol abuse leads to abnormal S-adenosylmethionine (SAM) metabolism and decreased hepatic SAM levels. Our earlier work in CD4+ T cells has demonstrated that ethanol significantly decreases lymphocytic methionine adenosyltransferase (MAT II) expression and activity, with resultant SAM deficiency, and also increases activation-induced Fas-mediated apoptotic death. Notably, exogenous SAM supplementation restored intracellular SAM and prevented apoptotic signaling and death in ethanol treated CD4+ T cells. These data not only showed a causal role for SAM deficiency in ethanol mediated apoptotic death but also provided the proof-of-concept for SAM therapy in preventing alcohol induced CD4+ T cell depletion and immune suppression. SAM functions as the critical methyl donor during epigenetic regulation leading to enzymatic modification of histones and DNA cytosine residues. Our recent work on ethanol treated primary human CD4+ T cells in vitro as well as CD4+ T cells obtained from alcoholic patients has provided convincing preliminary data showing that ethanol exposure can cause transcriptionally permissive modifications in histones associated with the FasL promoter. These histone modifications enhance transcriptional activation of the FasL promoter resulting in increased mRNA expression, apoptotic signaling and cell death. The overall objective of this proposal is to systematically examine genome wide as well as gene specific (promoter associated) histone and DNA modifications involved in alcohol-mediated apoptotic signaling and death in CD4+ T cells. We expect that the results of our study will provide critical molecular insights in the alcohol-induced immunotoxicity of CD4+ T cells. We predict that results from this research will also provide important insights into immune dysfunction/CD4+ T cell loss in alcohol consuming HIV-infected patients.
The specific aims of this translational proposal investigating the epigenetic mechanisms involved in aberrant apoptotic signaling and cell death of CD4+ T lymphocytes in alcoholic patients are:
Aim 1 : Examine the effects of alcohol on cellular SAM levels, global histone and DNA modifications and apoptotic cell death in CD4+ T cells.
Aim 2 : Determine the gene specific (promoter associated) histone and DNA modifications occurring in response to alcohol-mediated SAM deficiency that impact the expression of apoptotic genes relevant to CD4+ T cell survival.

Public Health Relevance

Alcohol abuse continues to be a significant burden on the US healthcare system. The studies proposed here will examine epigenetic modifications involved in alcohol-induced depletion of CD4+ T lymphocytes using both a genome-wide approach, as well as a hypothesis-based candidate gene approach. The data obtained from these studies will yield mechanistic insights underlying alcohol induced immune suppression and how alcohol may further depress immune function in HIV-infected patients.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute on Alcohol Abuse and Alcoholism (NIAAA)
Type
Research Project (R01)
Project #
5R01AA024405-03
Application #
9233778
Study Section
Special Emphasis Panel (ZAA1-GG (50)P)
Program Officer
Wang, Joe
Project Start
2015-03-10
Project End
2020-02-29
Budget Start
2017-03-01
Budget End
2018-02-28
Support Year
3
Fiscal Year
2017
Total Cost
$270,000
Indirect Cost
$90,000

  Institution

Name
University of Louisville
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
057588857
City
Louisville
State
KY
Country
United States
Zip Code
40208

  Publications

Avila, Diana V; Myers, Scott A; Zhang, JingWen et al. (2017) Phosphodiesterase 4b expression plays a major role in alcohol-induced neuro-inflammation. Neuropharmacology 125:376-385
Barve, Shirish; Chen, Shao-Yu; Kirpich, Irina et al. (2017) Development, Prevention, and Treatment of Alcohol-Induced Organ Injury: The Role of Nutrition. Alcohol Res 38:289-302
McClain, Craig; Barve, Shirish (2017) A tale of two institutions. J Hepatol 66:682-684
Chen, Wei-Yang; Wang, Min; Zhang, Jingwen et al. (2017) Acrolein Disrupts Tight Junction Proteins and Causes Endoplasmic Reticulum Stress-Mediated Epithelial Cell Death Leading to Intestinal Barrier Dysfunction and Permeability. Am J Pathol 187:2686-2697
Vatsalya, Vatsalya; Pandey, Akash; Schwandt, Melanie L et al. (2016) Safety Assessment of Liver Injury with Quetiapine Fumarate XR Management in Very Heavy Drinking Alcohol-Dependent Patients. Clin Drug Investig 36:935-944
Vatsalya, Vatsalya; Avila, Diana; Frimodig, Jane C et al. (2016) Liver Injury Assessment by Vetscan VS2 Analyzer and Most Frequently Used ALT/GTP Reagent. Gastroenterol Hepatol (Bartlesville) 4:
Kirpich, Irina A; Petrosino, Joseph; Ajami, Nadim et al. (2016) Saturated and Unsaturated Dietary Fats Differentially Modulate Ethanol-Induced Changes in Gut Microbiome and Metabolome in a Mouse Model of Alcoholic Liver Disease. Am J Pathol 186:765-76
Avila, Diana V; Barker, David F; Zhang, JingWen et al. (2016) Dysregulation of hepatic cAMP levels via altered Pde4b expression plays a critical role in alcohol-induced steatosis. J Pathol 240:96-107
Chen, Wei-Yang; Zhang, Jingwen; Ghare, Smita et al. (2016) Acrolein Is a Pathogenic Mediator of Alcoholic Liver Disease and the Scavenger Hydralazine Is Protective in Mice. Cell Mol Gastroenterol Hepatol 2:685-700
Vatsalya, Vatsalya; Barve, Shirish S; McClain, Craig J et al. (2016) Elevated Linoleic Acid (A Pro-Inflammatory PUFA) and Liver Injury in a Treatment Naive HIV-HCV Co-Infected Alcohol Dependent Patient. J Biosci Med (Irvine) 4:23-27

Showing the most recent 10 out of 12 publications