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An AAV Approach to Treating HIV

$474F32FY2017AINIH

Scripps Florida, Jupiter FL

Investigators

Linked publications, trials & patents

Abstract

PROJECT SUMMARY We have recently published our research that characterizes eCD4-Ig. eCD4-Ig is an antibody-like HIV entry inhibitor that fuses a sulfated CCR5-mimetic peptide to the C-terminus of CD4-Ig. Based on neutralization assay data, eCD4-Ig is broader than and equally potent as some of the best described HIV-1 broadly neutralizing antibodies to date. eCD4-Ig neutralized all isolates tested including 38 HIV-1 isolates resistant to 3BNC117 or NIH45-46, HIV-2, SIVmac239, SIVmac251, and isolates that use CXCR4 as their coreceptor. The addition of the CCR5-mimetic peptide allowed eCD4-Ig to have higher affinity for cell surface-expressed HIV-1 Env and also limited viral enhancement caused by sub-neutralizing levels of CD4-Ig. Using adeno-associated virus (AAV) vectors, we have shown that a rhesus form of eCD4-Ig can be expressed in four rhesus macaques for over one year with no harm to the animals. The rh- eCD4-Ig protein titers were at levels that protected all four macaques from multiple SHIV-AD8 challenges up to 16-times the AID50 (Animal Infectious Dose 50). We did observe a measurable anti- transgene response to the expressed rh-eCD4-Ig protein, but the response was not near the levels seen against AAV-delivered HIV-1 antibodies. Yet, even a relatively modest immune response to the delivered transgene can limit the inhibitor?s efficacy in vivo. With these encouraging data, this proposal seeks to answer two main questions: (1) Can AAV-expressed eCD4-Ig be used as a therapy to maintain viral suppression in SHIV infected macaques? (2) Can interferon-induced miRNAs regulate transgene expression from AAV vectors to limit the host immune response to the transgene? With the primary goal of using eCD4-Ig as an alternative to antiretroviral therapies, answering these two questions will continue to build on the safety and efficacy of AAV-delivered eCD4-Ig as well as realizing the complete potential of AAV vectors used for gene therapy.

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