Phospholipid Metabolism Is Associated with Time to HIV Rebound upon Treatment Interruption.

Leila B Giron,Mohamed Abdel-Mohsen,Hsin-Yao Tang,Karam Mounzer,John R Koethe,Aaron R Goldman,Jay R Kostman,Luis J Montaner,Clovis S Palmer,Jonathan Z Li,Xiangfan Yin,Emmanouil Papasavvas,Alan L Landay,Qin Liu,Thomas E Smithgall

doi:10.1128/mbio.03444-20

Abstract

ABSTRACTLipids are biologically active molecules involved in a variety of cellular processes and immunological functions, including inflammation. It was recently shown that phospholipids and their derivatives, lysophospholipids, can reactivate latent (dormant) tumor cells, causing cancer recurrence. However, the potential link between lipids and HIV latency, persistence, and viral rebound after cessation of antiretroviral therapy (ART) has never been investigated. We explored the links between plasma lipids and the burden of HIV during ART. We profiled the circulating lipidome from plasma samples from 24 chronically HIV-infected individuals on suppressive ART who subsequently underwent an analytic treatment interruption (ATI) without concurrent immunotherapies. The pre-ATI viral burden was estimated as time-to-viral-rebound and viral load set points post-ATI. We found that higher pre-ATI levels of lysophospholipids, including the proinflammatory lysophosphatidylcholine, were associated with faster time-to-viral-rebound and higher viral set points upon ART cessation. Furthermore, higher pre-ATI levels of the proinflammatory by-product of intestinal lysophosphatidylcholine metabolism, trimethylamine-N-oxide (TMAO), were also linked to faster viral rebound post-ART. Finally, pre-ATI levels of several phosphatidylcholine species (lysophosphatidylcholine precursors) correlated strongly with higher pre-ATI levels of HIV DNA in peripheral CD4+ T cells. Our proof-of-concept data point to phospholipids and lysophospholipids as plausible proinflammatory contributors to HIV persistence and rapid post-ART HIV rebound. The potential interplay between phospholipid metabolism and both the establishment and maintenance of HIV latent reservoirs during and after ART warrants further investigation.

Highlights

Lipids are biologically active molecules involved in a variety of cellular processes and immunological functions, including inflammation
A comprehensive understanding of the host factors modulating HIV persistence is imperative for developing effective strategies to eradicate the latent HIV reservoir, which persists despite antiretroviral therapy (ART) and causes viral rebound upon ART discontinuation [1]
Using the Cox proportional-hazards model, we found that pre-analytic treatment interruption (ATI) levels of several of these lipids significantly associated with a faster time-toviral-rebound (Figure 1A; lipids with a hazard ratio (HR)>5 and P

Summary

Introduction

Lipids are biologically active molecules involved in a variety of cellular processes and immunological functions, including inflammation. We investigated whether there is a link between pre-ATI lipid profiles and the body burden of HIV during ART (estimated as post-ATI time-to-viral-rebound and viral load setpoints). Levels of plasma lysophospholipids measured pre-ATI associate with time-to-viral-rebound post-ATI. Using the Cox proportional-hazards model, we found that pre-ATI levels of several of these lipids significantly associated with a faster time-toviral-rebound (Figure 1A; lipids with a hazard ratio (HR)>5 and P

Results

Conclusion