Humanized mouse models have, over the past few years, seen dramatic improvements, including the colonization of both lymphoid and nonlymphoid tissues with all major immune cell lineages, the development of T cells with human major histocompatibility complex restriction, and the ability to mount functional adaptive immune responses to human pathogens, as documented in some instances. This has greatly increased the range of questions related to the biology of human immunodeficiency virus (HIV) infection that can be usefully addressed through experimental approaches utilizing small animal models. Among these approaches is in vivo imaging, and specifically multiphoton intravital microscopy (MP-IVM), which allows for the investigation of dynamic biological processes at cellular and subcellular resolution in the tissues of live animals. We have recently begun to use MP-IVM in lymph nodes of humanized mice in order to examine HIV infectious spread in vivo at the tissue and cellular level. Here, we provide a short perspective on the close link between the patterns of immune cell migration and the mechanisms of viral dissemination, and summarize the results of our initial studies.
Keywords: HIV-1; T-cell trafficking; lymph node; multiphoton intravital microscopy.