Abstract
Human immunodeficiency virus (HIV) establishes life-long latency in infected individuals. Although highly active antiretroviral therapy (HAART) has had a significant impact on the course of HIV infection leading to a better long-term outcome, the pool of latent reservoir remains substantial even under HAART. Numerous approaches have been under development with the goal of eradicating the latent HIV reservoir though with limited success. Approaches that combine immune-mediated control of HIV to activate both the innate and the adaptive immune system under suppressive therapy along with “shock and kill” drugs may lead to a better control of the reactivated virus. Interferon-α (IFN-α) is an innate cytokine that has been shown to activate intracellular defenses capable of restricting and controlling HIV. IFN-α, however, harbors numerous functional subtypes that have been reported to display different binding affinities and potency. Recent studies have suggested that certain subtypes such as IFN-α8 and IFN-α14 have potent anti-HIV activity with little or no immune activation, whereas other subtypes such as IFN-α4, IFN-α5, and IFN-α14 activate NK cells. Could these subtypes be used in combination with other strategies to reduce the latent viral reservoir? Here, we review the role of IFN-α subtypes in HIV infection and discuss the possibility that certain subtypes could be potential adjuncts to a “shock and kill” or therapeutic vaccination strategy leading to better control of the latent reservoir and subsequent functional cure.
Highlights
Human immunodeficiency virus (HIV) infections are characterized by severe immunodeficiency and onset of opportunistic infections
George et al [3] showed that treatment with reverse transcriptase inhibitors immediately after infection completely blocked plasma IFN-α in SIV-infected rhesus macaques. Taken together these studies show that numerous innate sensing pathogen recognition receptors (PRRs) contribute to the induction of IFN-α responses during HIV infection
Hua et al [90] recently reported that the treatment of HIV-1/HCV co-infected subjects on highly active antiretroviral therapy (HAART) with pegylated-IFN-α induced activation of CD56brightCD16− and CD56brightCD16+ NK cells expressing NKG2D an NKp30 that significantly correlated with a decrease in level of HIV-1 viral reservoir in CD4 T cells
Summary
Human immunodeficiency virus (HIV) infections are characterized by severe immunodeficiency and onset of opportunistic infections. Except in the case of Timothy Brown who is the only known case of HIV to have been completely cured, complete eradication of HIV reservoir has proven to be challenging due to the integration of HIV into the host genome and due to the large size of the latent persistent reservoir. As such focus has recently shifted to the development of functional cure strategies, where the objective is to obtain complete remission in the absence of antiretroviral drugs. We review the progress that has been made to date in understanding the role IFN-α plays in HIV infection and explore the potential for harnessing IFN-α and its subtype as a strategy toward functional cure
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