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Overcoming HIV-1 resistance to RNA Interference

$198,842R01FY2005AINIH

Rhode Island Hospital, Providence RI

Investigators

Linked publications & trials

Abstract

[unreadable] DESCRIPTION (provided by applicant): This proposal focuses on the therapeutic potential of RNA interference (RNAi) in preventing cervicovaginal HIV-1 transmission. RNAi refers to the sequence-specific degradation of RNA that follows the cellular introduction of homologous, short interfering (si) RNA. RNAi has emerged as a powerful tool to probe the function of genes of known sequence in vitro and in vivo. Advances in vector design permit the expression of siRNA in human cells by the transfer of DNA or viral vectors encoding short hairpin RNA (shRNA) cassettes. Investigators have proven the principle that RNAi can be used to inhibit the expression of a wide range of disease-specific genes. The majority of these investigations have been limited to in vitro systems. We hypothesize that short interfering RNA (siRNA) targeting human CCR5 can be effectively targeted to the cervicovaginal epithelia, specifically knock down chemokine expression and thereby prevent HIV-1 transmission. Our enthusiasm for this approach derives from preliminary data demonstrating that siRNA can be specifically targeted to murine cervicovaginal tissue in vivo using liposomal formulations. The siRNAs are efficiently taken up by cells-along the full thickness of the vagina and mediate durable and specific gene silencing. We wish to expand upon these promising results and apply them to models of HIV-1 transmission. Using a small animal model, we will pursue three goals: Specific Aim 1: To determine whether siRNA mediated knockdown of vaginal CCR5 expression prevents HIV-1 infection in the murine xenograft model of HIV-1 transmission. Specific Aim 2: To determine whether vaginal application of siRNA targeting HIV-1 reduces genital virus burden in vivo. Specific Aim 3: To evaluate the utility of adeno-associated virus as an HIV- RNAi delivery vector for cervicovaginal epithelia. In sum, our research will define the microbicidal potential of si/shRNA and may lead to the generation of new drugs that prevent the mucosal transmission of HIV-1. [unreadable] [unreadable] [unreadable] [unreadable]

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