Single-cell capture of on-ART SIV transcription reveals TGF-β-mediated metabolic control of viral latency

  • JCI Insight. 2026 Feb 23;11(4):e198810. doi: 10.1172/jci.insight.198810.
Romaila Abd-El-Raouf  1 Jakob Harrison-Gleason  1 Jinhee Kim  1 Ching Man Wai  2 Kayla L Yerlioglu  1 Catarina Ananias-Saez  1 Alec Ksiazek  1 Jeffrey T Poomkudy  1 Mariluz Araínga  3 Deepanwita Bose  3 Claudia Cicala  4 James Arthos  4 Francois J Villinger  3 Ramon Lorenzo-Redondo  1  5 Elena Martinelli  1  6
Affiliations
  • 1. Department of Medicine, Division of Infectious Diseases, and.
  • 2. Department of Biochemistry and Molecular Genetics, Feinberg School of Medicine, Northwestern University, Chicago, Illinois, USA.
  • 3. New Iberia Research Center, University of Louisiana at Lafayette, New Iberia, Louisiana, USA.
  • 4. Laboratory of Immunoregulation, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Bethesda, Maryland, USA.
  • 5. Center for Pathogen Genomics and Microbial Evolution, Northwestern University Havey Institute for Global Health, Chicago, Illinois, USA.
  • 6. Department of Microbiology and Immunology, Feinberg School of Medicine, Northwestern University, Chicago, Illinois, USA.
Abstract

We previously demonstrated that blocking TGF-β with galunisertib, a safe, orally available small drug, reactivated latent SIV in vivo by shifting T cells toward a transitional effector phenotype. Here, we investigated the mechanisms underlying this effect using single-cell RNA Sequencing, metabolic profiling, and high-dimensional spectral flow cytometry of samples from SIV-infected, antiretroviral therapy-treated (ART-treated) macaques before and after galunisertib. To characterize virus-transcribing, infected cells during ART, we developed a novel, sensitive SIV Transcripts Capture Assay (SCAP) that detected 127 SIV-expressing cells within lymph node single-cell transcriptome libraries. Galunisertib drove broad metabolic reprogramming in CD4+ T cells, with transcriptional upregulation of inflammatory and mitochondrial biosynthesis pathways, confirmed by Seahorse profiling. Metabolomics revealed increased energy metabolites and Amino acids and enhanced metabolic flux without proliferation. SIV transcript-positive cells before galunisertib were metabolically quiescent compared with cells without detectable viral transcripts. After galunisertib, virus-expressing cells showed a dramatic metabolic activation, with upregulation of glycolysis, fatty acid metabolism, and TNF-α signaling. High-dimensional flow cytometry demonstrated effects beyond CD4+ T cells, including fewer tissue-resident memory T cells, but more inflammatory macrophages. In conclusion, SCAP represents a specific tool for characterizing rare SIV-infected cells transcribing virus during ART, and it reveals TGF-β as a key mediator of viral latency in vivo through metabolic suppression.

Keywords
AIDS/HIV; Cellular immune response; Immunology; Metabolism; T cells.
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