Distal sensory polyneuropathy (DSPN) remains the most common neurological complication in HIV-infected population. Opiates and cocaine are often misused to manage neuropathic pain. These drugs, in turn, increase the risk of DSPN and exacerbate DSPN severity. The interplay of DSPN and substance use disorder (SUD) is associated with morbidity and mortality in HIV-infected individuals. Although neurotoxic effects of HIV-1 gp120 and antiretroviral medications contribute to DSPN through dysregulation of pro-inflammation genes, little is known about the mechanisms of DSPN and DSPN with comorbid SUD. A major barrier to advancing our understanding of DSPN is the inaccessibility of nerve tissues in living individuals and the absence of reliable biomarkers to inform the diagnosis of DSPN in the setting of SUD and HIV infection. Our overarching goal is to discover the DNA methylation signatures for DSPN, SUD, and their comorbidity. We focus on white blood cells (WBCs) because of their role in orchestrating and effecting immune responses and because they are highly accessible tissues. We hypothesize that DSPN emerges in the context of HIV infection as the result of HIV-1 enhanced expression of proinflammatory genes in many cell types, including WBCs. We also hypothesize that DSPN emerges as the result of SUD-enhanced expression of proinflammatory genes in WBCs. Thus, DNA methylation in WBCs is associated with DSPN that is influenced by SUD and contributes to HIV outcomes. To test the hypotheses, we will select methylation features in WBCs for DSPN, SUD, and their comorbidity using a combination of epigenome-wide association study (EWAS) and ensemble-based machine learning approaches. Leveraging two well-established independent cohorts, we will first identify methylation sites in WBCs for DSPN and SUD in four groups (DSPN+/SUD+, DSPN+/SUD-, DSPN-/SUD+, DSPN-/SUD-) in 2,000 HIV- infected samples using a 2-stage EWAS followed by a meta-EWAS. We will then select methylation features using machine learning methods and test the sensitivity and specificity to differentiate DSPN, SUD, and their comorbidity. We will apply our in-house developed bioinformatic package, smartFeatureSelection. The selected features will test associations with immune resilience (i.e. CD4+/CD8+) and HIV outcomes (i.e. frailty, mortality). Finally, we will explore the biological functions of the identified methylation sites in postmortem human brain and blood (N = 80) by RNA-seq and correlate methylation-regulated gene expression between WBCs and neural cells. We expect to discover a set of biologically meaningful methylation features as a marker for HIV- infected DSPN and SUD that can predict resilience and outcomes. Employing a rigorous design and a powerful computational approach, this application proposes the first epigenome-based prediction for DSPN, SUD, and their interaction. The identified features can serve as a biomarker for this complex condition and have potential clinical use. The results will enhance the knowledge of epigenetic mechanisms in blood and in brain for HIV-infected DSPN and SUD.

Public Health Relevance

Distal sensory polyneuropathy and substance use disorder are common in the HIV-infected population and can impact immune resilience and HIV outcomes. Applying a combination of epigenome-wide association and machine learning approaches, we aim to identify a panel of DNA methylation features in white blood cells for HIV-associated distal sensory polyneuropathy and substance misuse that link to immune resilience, HIV frailty and mortality. The selected features can serve as biomarker for neuropathy and enhance our understanding of the interplay between neuropathy and substance misuse in HIV-infected population.

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Project (R01)
Project #
5R01DA047820-03
Application #
9928910
Study Section
Special Emphasis Panel (ZDA1)
Program Officer
Lossie, Amy C
Project Start
2018-09-15
Project End
2023-05-31
Budget Start
2020-06-01
Budget End
2021-05-31
Support Year
3
Fiscal Year
2020
Total Cost
Indirect Cost
Name
Yale University
Department
Psychiatry
Type
Schools of Medicine
DUNS #
043207562
City
New Haven
State
CT
Country
United States
Zip Code
06520