To form Human Immunodeficiency Virus type 1 (HIV-1) virions, the HIV-1 Gag polyprotein multimerizes, traffics to the cell membrane, assembles into virions, and buds as viral particles. HIV uses the infected cell proteins to support viral assembly and export from the cell. Although some cellular proteins have been identified that participate in viral assembly and budding, the spatial and temporal "cellular proteome" is not known. Insights as to the order of proteins involved in facilitating assembly and budding provide information on viral infection and potential therapy targets. I am utilizing a split-APEX2-mediated proximity labeling method to identify which host factors interact with Gag during assembly. The basis of the method is splitting APEX2 into two segments encoded into separate Gag sequences so that the APEX2 segments rejoin for complete enzymatic function when Gag dimerizes and multimerizes. Once the APEX2 enzyme reconstitutes, we activate it to biotinylate cellular host proteins within ~20 nm of Gag during the processes of virion formation. I aim to deliver this system to primary human CD4+ T-cells and macrophages via two lentiviral vectors containing transgenes for either AP-Gag-P2A-EGFP or EX-Gag-P2A-mCherry. Cells express the dual fluorescence markers EGFP and mCherry if both Split-APEX2 domains are present, and we enrich these cells by cell sorting. APEX2 is restored and enzymatically active, allowing proximity-dependent biotinylation of Gag-host cell proteins for SILAC-based quantitative proteomic mapping during virion assembly. We are using this method to quantitatively map the Gag-host protein "interactome" in the infected cellular microenvironment in subtypes of human primary CD4+ T-cells and macrophages. Therefore, this research studies Gag interactions of potential HIV-1 host dependency factors in CD4+ T-cells and macrophages, the natural cell populations for HIV-1 infection. Previously, we conducted a similar study in HEK293Ts, and we anticipate elucidating a similar Gag-host cell protein analysis with this study.