Abstract

BackgroundAlcohol consumption is prevalent amongst HIV positive population. Importantly, chronic alcohol use is reported to exacerbate HIV pathogenesis. Although alcohol is known to increase oxidative stress, especially in the liver, there is no clinical evidence that alcohol increases oxidative stress in HIV positive patients. The mechanism by which alcohol increases oxidative stress in HIV positive patients is also unknown.MethodsTo examine the effects of alcohol use on oxidative stress we recruited HIV+ patients who reported mild-to-moderate alcohol use. Strict inclusion and exclusion criteria were applied to reduce the effect of other therapeutic drugs metabolized via the hepatic system as well as the effect of co-morbidities such as active tuberculosis on the interaction between alcohol and HIV infection, respectively. Blood samples were collected from HIV-negative alcohol-users and HIV positive alcohol-users followed by collection of plasma and isolation and fractionation of monocytes from peripheral blood. We then determined oxidative DNA damage, glutathione level, alcohol level, transcriptional level of cytochrome P450 2E1 (CYP2E1) and several antioxidant enzymes, and plasma level of cytokines.ResultsCompared to HIV-negative alcohol users, HIV-positive alcohol users demonstrated an increase in oxidative DNA damage in both plasma and CD14+ monocytes, as well as, a relative increase in oxidized/reduced glutathione (GSSG/GSH) in plasma samples. These results suggest an increase in oxidative stress in HIV-positive alcohol users compared with HIV-negative alcohol users. We also examined whether alcohol metabolism, perhaps by CYP2E1, and antioxidant enzymes are involved in alcohol-mediated increased oxidative stress in HIV-positive patients. The results showed a lower plasma alcohol level, which was associated with an increased level of CYP2E1 mRNA in monocytes, in HIV-positive alcohol users compared with HIV-negative alcohol users. Furthermore, the transcription of major antioxidants enzymes (catalase, SOD1, SOD2, GSTK1), and their transcription factor, Nrf2, were reduced in monocytes obtained from HIV positive alcohol users compared to the HIV-negative alcohol user group. However, no significant change in levels of five major cytokines/chemokines were observed between the two groups.ConclusionsThe data suggests that alcohol increases oxidative stress in HIV+ patients, perhaps through CYP2E1- and antioxidant enzymes-mediated pathways. The enhanced oxidative stress is accompanied by a failure of cellular antioxidant mechanisms to maintain redox homeostasis. Overall, the enhanced oxidative stress in monocytes may exacerbate HIV pathogenesis in HIV positive alcohol users.

Highlights

  • Alcohol consumption is prevalent amongst HIV positive population

  • Study subjects This study was designed to examine the involvement of oxidative stress, mediated through cytochrome P450 (CYP) and antioxidant enzymes (AOEs) pathways, by alcohol use in antiretroviral therapy (ART)-naïve HIV-infected individuals

  • Since alcohol and oxidative stress independently have been implicated in increased HIV replication, it is possible that alcohol exacerbates HIV pathogenesis through an oxidative stress pathway

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Summary

Introduction

Alcohol consumption is prevalent amongst HIV positive population. Importantly, chronic alcohol use is reported to exacerbate HIV pathogenesis. The mechanism by which alcohol increases oxidative stress in HIV positive patients is unknown. Chronic alcohol consumption is known to increase the incidence of acquiring HIV infection due to elevated propensity for risky sexual practices following drinking [1]. Several studies have reported significantly higher rates of alcohol abuse/alcohol use disorder in HIV-infected patients compared to the general population [3]. There is no clinical data on the in vivo involvement of alcohol-mediated oxidative stress in HIV replication. Our previous studies have demonstrated the possible involvement of cytochrome P450 2E1 (CYP2E1)-mediated alcohol-induced oxidative stress in HIV systems including blood monocytes [9, 10]. The metabolism of alcohol by CYP2E1 is known to generate reactive oxygen species (ROS), which eventually increases oxidative stress in the cells, especially those in the liver [13]. CYP2E1-mediated oxidative stress has been implicated in modulating the harmful effects of alcohol in the liver [14]

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