Systemic Translocation of S. aureus Drives Anti-CD4 Autoimmunity in Treated HIV Infection

  1. Da Cheng
  2. Zhenwu Luo
  3. Wangbin Ning
  4. Sonya L. Heath
  5. Magnus Gisslen
  6. Richard W Price
  7. Ruth Adekunle
  8. Tabinda Salman
  9. Douglas Johnson
  10. John E McKinnon
  11. Lishomwa C. Ndhlovu
  12. Wenhui Hu
  13. Wei Jiang
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Abstract

Background

Anti-CD4 autoantibodies in people with HIV (PWH) receiving suppressive antiretroviral therapy (ART) appear to prevent CD4+ T cell reconstitution, yet the mechanisms underlying their production remain unclear. Emerging evidence implicates Staphylococcus aureus and its peptidoglycan (PGN) in autoimmunity.

Methods

Plasma from 32 ART-naive PWH, 53 ART-treated PWH, and 32 HIV- negative controls was analyzed for IgG autoantibodies and markers of S. aureus translocation. Causality was examined in EcoHIV-infected mice administered PGN from S. aureus or Bacillus subtilis . PGN structure was analyzed via mass spectrometry.

Results

Among 87 autoantibodies, 40% were elevated in ART-naive PWH and largely normalized by ART; however, anti-CD4 IgGs remained elevated in PWH on ART. Anti- CD4 IgG levels inversely correlated with CD4+ T cell counts in ART-treated PWH and positively with S. aureus translocation. In mice, S. aureus PGN induced anti-CD4 IgGs, reduced gut CD4+ T cells, and promoted surface IgG binding and apoptosis in CD4+ T cells.

Conclusion

S. aureus and its PGN translocation may contribute to anti-CD4 autoimmunity and hinder immune recovery in ART-treated PWH, representing a potential therapeutic target.

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  1. Version published to 10.1101/2025.08.04.668434 on bioRxiv