Abstract
Understanding local immune responses and the structural integrity of the genital mucosal barrier is essential for advancing knowledge of both susceptibility to sexual HIV transmission and the pathogenesis of chronic HIV infection. This review highlights innovative methodologies for investigating host responses to HIV infection using ex vivo human genital tissues. Recent advances in spatial transcriptomics and multiplex imaging enable high-resolution analysis of tissue architecture, immune cell distribution, and gene expression within mucosal environments. These technologies reveal spatially heterogeneous immune responses as well as epithelial and submucosal structural alterations associated with increased HIV susceptibility and chronic infection. Computational workflows tailored to genital tissue morphology enhance reproducibility and support the integration of transcriptomic and imaging data. Despite current limitations, such as resolution constraints and high costs, ongoing improvements in spatial transcriptomics and bioimaging platforms promise deeper insights into mucosal barrier function and HIV pathogenesis. Characterizing tissue-specific immune dynamics through these approaches may guide the development of targeted interventions aimed at reinforcing mucosal defenses and reducing vulnerability to HIV infection.