Paula M. Cannon scite author profile

CCR5 is the major co-receptor used by HIV-1 and individuals homozygous for a 32bp deletion in CCR5 are profoundly resistant to HIV-1 infection. Using engineered zinc finger nucleases (ZFNs), we were able to disrupt the CCR5 gene in human hematopoietic stem/progenitor cells (HSC) at a mean frequency of 17% of total alleles in a population. This procedure produces both mono and bi-allelically disrupted cells. ZFN-treated HSC retained the ability to engraft NOD/SCID/IL2rγnull mice and gave rise to polyclonal multi-lineage progeny with the CCR5 gene permanently disrupted. Control mice receiving untreated HSC and challenged with CCR5-tropic HIV-1 displayed profound CD4+ T cell loss. In contrast, mice transplanted with ZFN-modified HSC underwent rapid selection for CCR5-negative cells, had significantly lower HIV-1 levels and preserved human cells throughout their tissues. The demonstration that a minority of CCR5-modified HSC can populate an infected animal with HIV-1-resistant, CCR5-negative progeny suggests the use of ZFN-modified autologous HSC as a clinical approach to treating HIV-1.

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A transient three-plasmid expression system for the production of high titer retroviral vectors

Soneoka

et al. 1995

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We have constructed a series of MLV-based retroviral vectors and packaging components expressed from the CMV promoter and carried on plasmids containing SV40 origins of replication. These two features greatly enhanced retroviral gene expression when introduced into cell lines carrying the SV40 large T antigen. The two packaging components, gag-pol and env, were placed on separate plasmids to reduce helper virus formation. Using a highly transfectable human cell line and sodium butyrate to further increase expression of each component, we achieved helper-free viral stocks of approximately 10(7) infectious units/ml by 48 h after transient co-transfection with the three plasmid components. This system can be used both for the generation of high titer retroviral stocks for transduction and for the rapid screening of a large number of MLV gag-pol or env mutants.

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AAV-expressed eCD4-Ig provides durable protection from multiple SHIV challenges

Gardner

Kattenhorn

Kondur

et al. 2015

Nature

273

329

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Long-term in vivo expression of a broad and potent entry inhibitor could circumvent the need for a conventional vaccine for HIV-1. Adeno-associated virus (AAV) vectors can stably express HIV-1 broadly neutralizing antibodies (bNAbs)1,2. However even the best bNAbs neutralize 10–50% of HIV-1 isolates inefficiently (IC80 > 5 μg/ml), suggesting that high concentrations of these antibodies would be necessary to achieve general protection3–6. Here we show that eCD4-Ig, a fusion of CD4-Ig with a small CCR5-mimetic sulfopeptide, binds avidly and cooperatively to the HIV-1 envelope glycoprotein (Env) and is more potent than the best bNAbs (geometric mean IC50 < 0.05 μg/ml). Because eCD4-Ig binds only conserved regions of Env, it is also much broader than any bNAb. For example, eCD4-Ig efficiently neutralized 100% of a diverse panel of neutralization-resistant HIV-1, HIV-2, and SIV isolates, including a comprehensive set of isolates resistant to the CD4-binding site bNAbs VRC01, NIH45-46, and 3BNC117. Rhesus macaques inoculated with an AAV vector stably expressed 17 to 77 μg/ml of fully functional rhesus eCD4-Ig for 40 weeks, and these macaques were protected from multiple infectious challenges with SHIV-AD8. Rhesus eCD4-Ig was also markedly less immunogenic than rhesus forms of four well characterized bNAbs. Our data suggest that AAV-delivered eCD4-Ig can function like an effective HIV-1 vaccine.

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International AIDS Society global scientific strategy: towards an HIV cure 2016

Deeks¹,

Lewin²,

Ross³

et al. 2016

Nat Med

392

348

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Antiretroviral therapy is not curative. Given the challenges in providing life-long therapy to a global population of over 35 million people living with HIV, there is intense interest in developing a cure for HIV infection. The International AIDS Society convened a group of international experts to develop a scientific strategy for research towards an HIV cure. This Perspective summarizes the group's strategy.

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Homology-driven genome editing in hematopoietic stem and progenitor cells using ZFN mRNA and AAV6 donors

et al. 2015

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Genome editing with targeted nucleases and DNA donor templates homologous to the break site has proven challenging in human hematopoietic stem and progenitor cells (HSPCs), and particularly in the most primitive, long-term repopulating cell population. Here we report that combining electroporation of zinc finger nuclease (ZFN) mRNA with donor template delivery by AAV serotype 6 vectors directs efficient genome editing in HSPCs, achieving site-specific insertion of a GFP cassette at the CCR5 and AAVS1 loci in mobilized peripheral blood CD34+ HSPCs at mean frequencies of 17% and 26%, respectively, and in fetal liver HSPCs at 19% and 43%, respectively. Notably, this approach modified the CD34+CD133+CD90+ cell population, a minor component of CD34+ cells that contains long-term repopulating hematopoietic stem cells (HSCs). Genome-edited HSPCs also engrafted in immune deficient mice long-term, confirming that HSCs are targeted by this approach. Our results provide a strategy for more robust application of genome editing technologies in HSPCs.

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Paula M. Cannon

Human hematopoietic stem/progenitor cells modified by zinc-finger nucleases targeted to CCR5 control HIV-1 in vivo

A transient three-plasmid expression system for the production of high titer retroviral vectors

AAV-expressed eCD4-Ig provides durable protection from multiple SHIV challenges

International AIDS Society global scientific strategy: towards an HIV cure 2016

Homology-driven genome editing in hematopoietic stem and progenitor cells using ZFN mRNA and AAV6 donors

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