Nef and Vpu protect infected cells from ADCP mediated by plasma from people with HIV-1

  1. Étienne Bélanger
  2. Alexandra Tauzin
  3. Fitsumbrhan Tajebe
  4. Monika Chandravanshi
  5. Derek Yang
  6. Hung-Ching Chen
  7. Ta-Jung Chiu
  8. Catherine Bourassa
  9. Halima Medjahed
  10. William D. Tolbert
  11. Madeleine Durand
  12. Jonathan Richard
  13. Donna M. Huryn
  14. Simona Stäger
  15. Marzena Pazgier
  16. Andrés Finzi
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Abstract

The HIV-1 envelope glycoprotein (Env) represents the only viral antigen at the surface of infected cells, making it an ideal target for antibody-based therapies. Most antibodies elicited in people with HIV (PWH) do not recognize Env in its native “closed” conformation but readily bind to Env when it samples the CD4-bound “open” conformation. Downregulation of CD4 at the surface of infected cells by the viral accessory proteins Nef and Vpu prevents the premature opening of Env and has been shown to protect infected cells from antibody-dependent cellular cytotoxicity (ADCC) mediated by PWH plasma. Here, we report that deletion of Nef and Vpu from primary infectious molecular clones renders infected cells vulnerable to antibody-dependent cellular phagocytosis (ADCP) mediated by PWH plasma. This is in part linked to the premature engagement of Env with CD4. In agreement with an “open” Env being vulnerable to ADCP, small CD4 mimetic compounds (CD4mc) sensitize in vitro -infected cells and ex vivo -expanded CD4 T cells to ADCP mediated by autologous monocytes in presence of PWH plasma. This effect was further improved by increasing cell surface Env through IFN-induced BST-2 upregulation.

IMPORTANCE

Developing new therapies to eliminate HIV-1-infected cells is essential to decrease the size of the HIV-1 reservoir. Fc-effector functions such as antibody dependent cellular cytotoxicity (ADCC) have shown potential in eliminating in vitro- infected cells and ex vivo- expanded infected cells from people with HIV, decreasing the size of the reservoir and delaying viral rebound in humanized mice. Here, we report that antibody dependent cellular phagocytosis (ADCP) can also be harnessed to eliminate HIV-1-infected cells. We show that infected cells harboring “open” Env conformations are susceptible to ADCP-mediated killing in the presence of plasma from people with HIV. A better understanding of the contribution of different Fc-effector functions in the elimination of infected cells could help guide the development of new therapeutic approaches toward an HIV-1 cure.

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  1. Version published to 10.64898/2026.05.14.725178 on bioRxiv