Potent inhibition of HIV-1 by TRIM5-cyclophilin fusion proteins engineered from human components
Martha R. Neagu, … , Markus G. Manz, Jeremy Luban
Martha R. Neagu, … , Markus G. Manz, Jeremy Luban
Published September 8, 2009
Citation Information: J Clin Invest. 2009;119(10):3035-3047. https://doi.org/10.1172/JCI39354.
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Potent inhibition of HIV-1 by TRIM5-cyclophilin fusion proteins engineered from human components

Abstract

New World monkeys of the genus Aotus synthesize a fusion protein (AoT5Cyp) containing tripartite motif-containing 5 (TRIM5) and cyclophilin A (CypA) that potently blocks HIV-1 infection. We attempted to generate a human HIV-1 inhibitor modeled after AoT5Cyp, by fusing human CypA to human TRIM5 (hT5Cyp). Of 13 constructs, 3 showed substantial HIV-1–inhibitory activity when expressed in human cell lines. This activity required capsid binding by CypA and correlated with CypA linkage to the TRIM5a capsid-specificity determinant and the ability to form cytoplasmic bodies. CXCR4- and CCR5-tropic HIV-1 clones and primary isolates were inhibited from infecting multiple human macrophage and T cell lines and primary cells by hT5Cyp, as were HIV-2ROD, SIVAGMtan, FIVPET, and a circulating HIV-1 isolate previously reported to be AoT5Cyp resistant. The anti–HIV-1 activity of hT5Cyp was surprisingly more effective than that of the well-characterized rhesus TRIM5α, especially in T cells. hT5Cyp also blocked HIV-1 infection of primary CD4+ T cells and macrophages and conferred a survival advantage to these cells without disrupting their function. Extensive attempts to elicit HIV-1 resistance to hT5Cyp were unsuccessful. Finally, Rag2–/–γc–/– mice were engrafted with human CD4+ T cells that had been transduced by optimized lentiviral vectors bearing hT5Cyp. Upon challenge with HIV-1, these mice showed decreased viremia and productive infection in lymphoid organs and preserved numbers of human CD4+ T cells. We conclude that hT5Cyp is an extraordinarily robust inhibitor of HIV-1 replication and a promising anti–HIV-1 gene therapy candidate.

Authors

Martha R. Neagu, Patrick Ziegler, Thomas Pertel, Caterina Strambio-De-Castillia, Christian Grütter, Gladys Martinetti, Luca Mazzucchelli, Markus Grütter, Markus G. Manz, Jeremy Luban

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Figure 1

Identification of human T5Cyp proteins that potently restrict HIV-1.

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Identification of human T5Cyp proteins that potently restrict HIV-1. (A)...
(A) The sequence of hTRIM5α protein. Lower-case letters indicate the register of the predicted coiled coils. Boxed areas indicate PRYSPRY residues. Vertical lines indicate the site of fusion of CypA to TRIM5. Numbers indicate the TRIM5 amino acid to which CypA is fused, and are color coded for restriction phenotype (red, potently restrictive; orange, variably restrictive; green, permissive). (B) Jurkat T cells and THP-1 monocytes were transduced with vectors encoding puromycin resistance and either AoT5Cyp or hT5Cyp (hT5-S222-Cyp) fusion proteins. Pools of puromycin-resistant cells were infected with increasing amounts of a single-cycle HIV-1 vector encoding GFP (measured as RT units). The percentage of GFP+ cells was determined 48 hours later.