Combination antiretroviral therapy (cART) suppresses HIV in most patients, but it cannot cure HIV infection. The main challenge to a cure is the presence of latent replication-competent HIV in resting CD4+ T cells in blood and tissues, which reignite infection after cART removal. The long half-life of this reservoir is a major barrier to a cure, and its elimination is a main goal of current HIV research. Animal models that recapitulate HIV latency can provide key insights into the establishment of HIV latency and, more importantly, enable the testing of HIV eradication strategies. We describe a protocol for the generation of humanized mice by intrahepatic injection of human cord blood-derived CD34+ hematopoietic stem cells (HSC) into newborn NSG mice, the HSC-NSG mouse model. We also describe a protocol for establishing HIV latency in this model. HSC-NSG mice have provided proof-of-concept for an approach combining HIV gene editing and HIV suppression in tissues that may cure HIV in infected humans.
Keywords: Cord blood CD34+ cells; Cure; HIV; HSC-NSG; Histone deacetylase inhibitors; Humanized mice; Latency; Latency reversing agents; NSG.
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