HIV-1 Accessory Proteins Impart a Modest Interferon Response and Upregulate Cell Cycle-Related Genes in Macrophages.
Laura J MartinsMatthew Alan SzaniawskiElizabeth S C P WilliamsMayte CoirasTimothy M HanleyVicente PlanellesPublished in: Pathogens (Basel, Switzerland) (2022)
HIV-1 infection of myeloid cells is associated with the induction of an IFN response. How HIV-1 manipulates and subverts the IFN response is of key interest for the design of therapeutics to improve immune function and mitigate immune dysregulation in people living with HIV. HIV-1 accessory genes function to improve viral fitness by altering host pathways in ways that enable transmission to occur without interference from the immune response. We previously described changes in transcriptomes from HIV-1 infected and from IFN-stimulated macrophages and noted that transcription of IFN-regulated genes and genes related to cell cycle processes were upregulated during HIV-1 infection. In the present study, we sought to define the roles of individual viral accessory genes in upregulation of IFN-regulated and cell cycle-related genes using RNA sequencing. We observed that Vif induces a set of genes involved in mitotic processes and that these genes are potently downregulated upon stimulation with type-I and -II IFNs. Vpr also upregulated cell cycle-related genes and was largely responsible for inducing an attenuated IFN response. We note that the induced IFN response most closely resembled a type-III IFN response. Vpu and Nef-regulated smaller sets of genes whose transcriptomic signatures upon infection related to cytokine and chemokine processes. This work provides more insight regarding processes that are manipulated by HIV-1 accessory proteins at the transcriptional level.
Keyphrases
- cell cycle
- antiretroviral therapy
- immune response
- hiv infected
- dendritic cells
- cell proliferation
- genome wide
- human immunodeficiency virus
- hiv positive
- hepatitis c virus
- hiv aids
- hiv testing
- sars cov
- bioinformatics analysis
- physical activity
- gene expression
- acute myeloid leukemia
- oxidative stress
- small molecule
- south africa
- signaling pathway
- heat stress
- pi k akt
- toll like receptor
- drug induced
- diabetic rats
- cell cycle arrest