Abstract
Despite the remarkable success of antiretroviral therapy (ART) in suppressing human immunodeficiency virus type 1 (HIV-1) replication, viral persistence remains a major barrier to cure. This persistence is sustained by heterogeneous cellular reservoirs in which viral expression is tightly regulated by host-dependent molecular mechanisms. Beyond the canonical cluster of differentiation 4 (CD4+) T-cell reservoirs, HIV-1 establishes long-lived infection in myeloid cells, glial populations within the central nervous system (CNS), and additional non-canonical cellular niches, each characterized by distinct transcriptional, epigenetic, and immune environments. In this review, we synthesize recent advances in understanding how HIV-1 expression, latency, and reactivation are shaped across diverse susceptible cell types. We highlight cell-type-specific mechanisms governing viral integration, chromatin organization, transcriptional elongation, innate immune sensing, host restriction factors, and cytoskeletal regulation. Particular emphasis is placed on how host signaling pathways and immune microenvironments contribute to reservoir stability and heterogeneity, complicating eradication strategies. We further discuss immunomodulatory approaches that seek to modulate viral expression without exacerbating immune activation. By integrating molecular, cellular, and immunological perspectives, this review provides a framework for understanding HIV-1 persistence as a context-dependent process and underscores the need for cell-type-tailored strategies in HIV cure research.