Phenotypic analysis of the unstimulated in vivo HIV CD4 T cell reservoir

Jason Neidleman; Xiaoyu Luo; Julie Frouard; Guorui Xie; Feng Hsiao; Tongcui Ma; Vincent Morcilla; Ashley Lee; Sushama Telwatte; Reuben Thomas; Whitney Tamaki; Benjamin D Wheeler; Rebecca Hoh; Ma Somsouk; Poonam Vohra; Jeffrey M. Milush; Katherine S. James; Nancie M. Archin; Peter W. Hunt; Steven G. Deeks; Steven A. Yukl; Sarah Palmer; Warner C. Greene; Nadia R. Roan

doi:10.7554/elife.60933

Phenotypic analysis of the unstimulated in vivo HIV CD4 T cell reservoir

Jason Neidleman(Gladstone Institutes), Xiaoyu Luo(Gladstone Institutes), Julie Frouard(Gladstone Institutes), Guorui Xie(Gladstone Institutes), Feng Hsiao(Gladstone Institutes), Tongcui Ma(Gladstone Institutes), Vincent Morcilla(The University of Sydney), Ashley Lee(The University of Sydney), Sushama Telwatte(San Francisco VA Medical Center), Reuben Thomas(Gladstone Institutes), Whitney Tamaki(University of California, San Francisco), Benjamin D Wheeler(University of California, San Francisco), Rebecca Hoh(University of California, San Francisco), Ma Somsouk(San Francisco General Hospital), Poonam Vohra(University of California, San Francisco), Jeffrey M. Milush(University of California, San Francisco), Katherine S. James(University of North Carolina at Chapel Hill), Nancie M. Archin(University of North Carolina at Chapel Hill), Peter W. Hunt(University of California, San Francisco), Steven G. Deeks(University of California, San Francisco), Steven A. Yukl(San Francisco VA Medical Center), Sarah Palmer(The University of Sydney), Warner C. Greene(Gladstone Institutes), Nadia R. Roan(Gladstone Institutes)

eLife

September 28, 2020

10.7554/elife.60933

Cited by 93Open Access

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Abstract

The latent reservoir is a major barrier to HIV cure. As latently infected cells cannot be phenotyped directly, the features of the in vivo reservoir have remained elusive. Here, we describe a method that leverages high-dimensional phenotyping using CyTOF to trace latently infected cells reactivated ex vivo to their original pre-activation states. Our results suggest that, contrary to common assumptions, the reservoir is not randomly distributed among cell subsets, and is remarkably conserved between individuals. However, reservoir composition differs between tissues and blood, as do cells successfully reactivated by different latency reversing agents. By selecting 8-10 of our 39 original CyTOF markers, we were able to isolate highly purified populations of unstimulated in vivo latent cells. These purified populations were highly enriched for replication-competent and intact provirus, transcribed HIV, and displayed clonal expansion. The ability to isolate unstimulated latent cells from infected individuals enables previously impossible studies on HIV persistence.

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