Literature DB >> 18587387

Establishment of HIV-1 resistance in CD4+ T cells by genome editing using zinc-finger nucleases.

Elena E Perez1, Jianbin Wang, Jeffrey C Miller, Yann Jouvenot, Kenneth A Kim, Olga Liu, Nathaniel Wang, Gary Lee, Victor V Bartsevich, Ya-Li Lee, Dmitry Y Guschin, Igor Rupniewski, Adam J Waite, Carmine Carpenito, Richard G Carroll, Jordan S Orange, Fyodor D Urnov, Edward J Rebar, Dale Ando, Philip D Gregory, James L Riley, Michael C Holmes, Carl H June.   

Abstract

Homozygosity for the naturally occurring Delta32 deletion in the HIV co-receptor CCR5 confers resistance to HIV-1 infection. We generated an HIV-resistant genotype de novo using engineered zinc-finger nucleases (ZFNs) to disrupt endogenous CCR5. Transient expression of CCR5 ZFNs permanently and specifically disrupted approximately 50% of CCR5 alleles in a pool of primary human CD4(+) T cells. Genetic disruption of CCR5 provided robust, stable and heritable protection against HIV-1 infection in vitro and in vivo in a NOG model of HIV infection. HIV-1-infected mice engrafted with ZFN-modified CD4(+) T cells had lower viral loads and higher CD4(+) T-cell counts than mice engrafted with wild-type CD4(+) T cells, consistent with the potential to reconstitute immune function in individuals with HIV/AIDS by maintenance of an HIV-resistant CD4(+) T-cell population. Thus adoptive transfer of ex vivo expanded CCR5 ZFN-modified autologous CD4(+) T cells in HIV patients is an attractive approach for the treatment of HIV-1 infection.

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Year:  2008        PMID: 18587387      PMCID: PMC3422503          DOI: 10.1038/nbt1410

Source DB:  PubMed          Journal:  Nat Biotechnol        ISSN: 1087-0156            Impact factor:   54.908


  50 in total

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2.  Stimulation of homologous recombination through targeted cleavage by chimeric nucleases.

Authors:  M Bibikova; D Carroll; D J Segal; J K Trautman; J Smith; Y G Kim; S Chandrasegaran
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3.  Requirements for double-strand cleavage by chimeric restriction enzymes with zinc finger DNA-recognition domains.

Authors:  J Smith; M Bibikova; F G Whitby; A R Reddy; S Chandrasegaran; D Carroll
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4.  Characterization of anti-CCR5 ribozyme-transduced CD34+ hematopoietic progenitor cells in vitro and in a SCID-hu mouse model in vivo.

Authors:  J Bai; S Gorantla; N Banda; L Cagnon; J Rossi; R Akkina
Journal:  Mol Ther       Date:  2000-03       Impact factor: 11.454

5.  Functional deletion of the CCR5 receptor by intracellular immunization produces cells that are refractory to CCR5-dependent HIV-1 infection and cell fusion.

Authors:  P Steinberger; J Andris-Widhopf; B Bühler; B E Torbett; C F Barbas
Journal:  Proc Natl Acad Sci U S A       Date:  2000-01-18       Impact factor: 11.205

6.  Stable reduction of CCR5 by RNAi through hematopoietic stem cell transplant in non-human primates.

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Journal:  Proc Natl Acad Sci U S A       Date:  2007-08-01       Impact factor: 11.205

7.  Gene editing in human stem cells using zinc finger nucleases and integrase-defective lentiviral vector delivery.

Authors:  Angelo Lombardo; Pietro Genovese; Christian M Beausejour; Silvia Colleoni; Ya-Li Lee; Kenneth A Kim; Dale Ando; Fyodor D Urnov; Cesare Galli; Philip D Gregory; Michael C Holmes; Luigi Naldini
Journal:  Nat Biotechnol       Date:  2007-10-28       Impact factor: 54.908

8.  An improved zinc-finger nuclease architecture for highly specific genome editing.

Authors:  Jeffrey C Miller; Michael C Holmes; Jianbin Wang; Dmitry Y Guschin; Ya-Li Lee; Igor Rupniewski; Christian M Beausejour; Adam J Waite; Nathaniel S Wang; Kenneth A Kim; Philip D Gregory; Carl O Pabo; Edward J Rebar
Journal:  Nat Biotechnol       Date:  2007-07-01       Impact factor: 54.908

9.  A mechanism for the impaired IFN-gamma production in C-C chemokine receptor 2 (CCR2) knockout mice: role of CCR2 in linking the innate and adaptive immune responses.

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10.  Gene transfer in humans using a conditionally replicating lentiviral vector.

Authors:  Bruce L Levine; Laurent M Humeau; Jean Boyer; Rob-Roy MacGregor; Tessio Rebello; Xiaobin Lu; Gwendolyn K Binder; Vladimir Slepushkin; Franck Lemiale; John R Mascola; Frederic D Bushman; Boro Dropulic; Carl H June
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  491 in total

Review 1.  Determining the specificities of TALENs, Cas9, and other genome-editing enzymes.

Authors:  Vikram Pattanayak; John P Guilinger; David R Liu
Journal:  Methods Enzymol       Date:  2014       Impact factor: 1.600

Review 2.  Gene therapy using stem cells.

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Journal:  Cold Spring Harb Perspect Med       Date:  2014-11-13       Impact factor: 6.915

Review 3.  Zinc-finger nucleases for somatic gene therapy: the next frontier.

Authors:  Shamim H Rahman; Morgan L Maeder; J Keith Joung; Toni Cathomen
Journal:  Hum Gene Ther       Date:  2011-07-22       Impact factor: 5.695

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5.  Sangamo's lead zinc-finger therapy flops in diabetic neuropathy.

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6.  Gene editing: not just for translation anymore.

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Journal:  Nat Methods       Date:  2011-12-28       Impact factor: 28.547

7.  Surrogate reporters for enrichment of cells with nuclease-induced mutations.

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Review 8.  The use of cell-delivered gene therapy for the treatment of HIV/AIDS.

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9.  HIV-Specific T Cells Generated from Naive T Cells Suppress HIV In Vitro and Recognize Wide Epitope Breadths.

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Journal:  Mol Ther       Date:  2018-04-12       Impact factor: 11.454

Review 10.  Synthetic biology in mammalian cells: next generation research tools and therapeutics.

Authors:  Florian Lienert; Jason J Lohmueller; Abhishek Garg; Pamela A Silver
Journal:  Nat Rev Mol Cell Biol       Date:  2014-01-17       Impact factor: 94.444
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