Replication-competent SIVcpz CRISPR screen identifies barriers to successful cross-species transmission

Simian immunodeficiency viruses (SIVs) have crossed from apes to humans at least four times, but only one event gave rise to the AIDS pandemic. The host barriers that pandemic HIV-1 group M ( major ) strains overcame to spread efficiently in humans remain poorly understood. To identify such barriers, we performed CRISPR-Cas9 screens driven by the replication efficiency of SIVcpz, the chimpanzee precursor of HIV-1. Guide RNA libraries targeting more than 500 human genes encoding potential antiviral factors were inserted into the replication-competent SIVcpz MB897 molecular clone, which is phylogenetically closely related to HIV-1 group M strains. Propagation in Cas9-expressing human SupT1 T cells significantly enriched for sgRNAs targeting ADAR, AXIN1, CEACAM3, CD72, EHMT2, GRN, HMOX1, HMGA1, ICAM2, CD72, IFITM2, MEFV, PCED1B, SGOL2, SMARCA4, SUMO1 and TMEM173 . These hits only partially overlapped with those identified in analogous HIV-1–based screens, indicating virus-specific restriction profiles. Functional analyses confirmed that IFITM2 (interferon-induced transmembrane protein 2), PCED1B (PC-esterase domain–containing protein 1B), MEFV (Mediterranean fever protein, pyrin/TRIM20), and AXIN1 (Axis inhibition protein 1), restrict replication of SIVcpz but not of HIV-1 group M strains in primary human CD4⁺ T cells. These findings reveal previously unrecognized host factors that limit SIVcpz replication in human cells and highlight barriers that HIV-1 likely overcame during its adaptation for pandemic spread.