HIV-1 Infection in Humanized Microglial Mice Disrupts Feeding Behavior and Circadian Rhythms with Cortical Neuroinflammation
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Although effective antiretroviral therapy (ART) has substantially reduced the severity of human immunodeficiency virus (HIV)-associated neurocognitive disorders (HAND), the condition remains highly prevalent. Understanding HAND has been a challenge due to the lack of small animal models capable of supporting productive HIV infection in the brain. Recent advances in humanized mouse models with engrafted human glial cells now enable systemic HIV infection that extends to the central nervous system, offering a powerful platform to study HAND pathogenesis. In this study, we investigated behavioral alterations and neuropathological changes associated with HIV infection. Using home-cage monitoring, we observed that HIV-infected mice exhibited reduced feeding efficiency, consuming less food despite spending more time at the feeder, compared to uninfected controls. Additionally, infected animals displayed disrupted circadian rhythms, with a significant correlation between central nervous system viral load and increased locomotor activity during the light cycle. Neuropathological analyses revealed region-specific vulnerability, with the cortex exhibiting pronounced inflammatory and neurodegenerative changes. These findings were supported by transcriptomic profiling, which demonstrated heightened inflammatory and antiviral gene expression in the cortex, along with differentially expressed genes associated with neuropathology and behavioral deficits. Together, these results highlight distinct region-specific responses to HIV infection in the brain and establish this humanized mouse model as a valuable tool for elucidating the mechanisms underlying HAND and its associated behavioral deficits.