Neurosymptomatic HIV-1 CSF escape is associated with replication in CNS T cells and inflammation
Laura P. Kincer, … , Paola Cinque, Sarah B. Joseph
Laura P. Kincer, … , Paola Cinque, Sarah B. Joseph
Published October 1, 2024
Citation Information: J Clin Invest. 2024;134(19):e176358. https://doi.org/10.1172/JCI176358.
View: Text | PDF
Research Article AIDS/HIV

Neurosymptomatic HIV-1 CSF escape is associated with replication in CNS T cells and inflammation

Abstract

During antiretroviral therapy (ART), most people living with HIV-1 have undetectable HIV-1 RNA in their plasma. However, they occasionally present with new or progressive neurologic deficits and detectable HIV-1 RNA in the cerebrospinal fluid (CSF), a condition defined as neurosymptomatic HIV-1 CSF escape (NSE). We explored the source of neuropathogenesis and HIV-1 RNA in the CSF during NSE by characterizing HIV-1 populations and inflammatory biomarkers in CSF from 25 individuals with NSE. HIV-1 populations in the CSF were uniformly drug resistant and adapted to replication in CD4+ T cells, but differed greatly in genetic diversity, with some having low levels of diversity similar to those observed during untreated primary infection and others having high levels like those during untreated chronic infection. Higher diversity in the CSF during NSE was associated with greater CNS inflammation. Finally, optimization of ART regimen was associated with viral suppression and improvement of neurologic symptoms. These results are consistent with CNS inflammation and neurologic injury during NSE being driven by replication of partially drug-resistant virus in CNS CD4+ T cells. This is unlike nonsuppressible viremia in the plasma during ART, which typically lacks clinical consequences and is generated by virus expression without replication.

Authors

Laura P. Kincer, Ameet Dravid, Mattia Trunfio, Andrea Calcagno, Shuntai Zhou, Riccardo Vercesi, Serena Spudich, Magnus Gisslen, Richard W. Price, Paola Cinque, Sarah B. Joseph

×

Figure 5

Inflammatory biomarkers in the CSF are elevated in participants with NSE compared with ART-suppressed controls and trend higher in NSE participants with high-diversity viral populations compared with NSE participants with low-diversity viral populations.

Options: View larger image (or click on image) Download as PowerPoint
Inflammatory biomarkers in the CSF are elevated in participants with NSE...
We measured 1,472 protein biomarkers (Olink platform) in CSF of 18 NSE participants and 49 ART-suppressed controls. (A) Volcano plot comparing CSF biomarker levels during NSE to levels in suppressed controls. Levels of 678 biomarkers were significantly different after correction for multiple comparisons (red circles, most higher in NSE). The 10 biomarkers with the lowest adjusted P values are labeled. (B) Distributions (quartiles) of these 10 biomarkers are shown. (C) Venn diagram of the 705 CSF biomarkers that are significantly different between NSE participants and suppressed controls. (D) Volcano plot comparing CSF biomarkers in participants with lower versus higher diversity NSE populations. No markers were significantly different, but there was a trend for the CSF biomarkers to be higher in participants with higher diversity NSE (majority of circles to the right of 0 on the x axis). (E) Overrepresentation analysis of gene ontogeny biological processes. The 14 most overrepresented pathways in the CSF of NSE participants compared with ART-suppressed controls are shown. The color of each circle indicates the adjusted P value, and the size of the circle represents count. We found that 40% of the genes that were overrepresented in the CSF of NSE participants compared with ART-suppressed controls were involved in the immune response (top row).