Combination gene therapy for HIV using a conditional suicidal gene with CCR5 knockout

Mehmetoglu-Gurbuz, Tugba; Yeh, Rose; Garg, Himanshu; Joshi, Anjali

doi:10.1186/s12985-021-01501-7

Cited by 10 publications

(5 citation statements)

References 51 publications

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“…CCR5-specific nucleases have been used in CD4 + T cells and CD34 + HSCs [ 65 – 69 ]. Modification of both cell types is associated with specific advantages and shortcomings.…”

Section: Discussionmentioning

confidence: 99%

Optimisation of a TALE nuclease targeting the HIV co-receptor CCR5 for clinical application

et al. 2021

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Disruption of the C-C-Chemokine-receptor-5 (CCR5) gene induces resistance towards CCR5-tropic HIV. Here we optimised our previously described CCR5-Uco-TALEN and its delivery by mRNA electroporation. The novel variant, CCR5-Uco-hetTALEN features an obligatory heterodimeric Fok1-cleavage domain, which resulted in complete abrogation of off-target activity at previously found homodimeric as well as 7/8 in silico predicted, potential heterodimeric off-target sites, the only exception being highly homologous CCR2. Prevailing 18- and 10-bp deletions at the on-target site revealed microhomology-mediated end-joining as a major repair pathway. Notably, the CCR5Δ55–60 protein resulting from the 18-bp deletion was almost completely retained in the cytosol. Simultaneous cutting at CCR5 and CCR2 induced rearrangements, mainly 15-kb deletions between the cut sites, in up to 2% of T cells underlining the necessity to restrict TALEN expression. We optimised in vitro mRNA production and showed that CCR5-on- and CCR2 off-target activities of CCR5-Uco-hetTALEN were limited to the first 72 and 24–48 h post-mRNA electroporation, respectively. Using single-cell HRMCA, we discovered high rates of TALEN-induced biallelic gene editing of CCR5, which translated in large numbers of CCR5-negative cells resistant to HIVenv-pseudotyped lentiviral vectors. We conclude that CCR5-Uco-hetTALEN transfected by mRNA electroporation facilitates specific, high-efficiency CCR5 gene-editing (30%–56%) and it is highly suited for clinical translation subject to further characterisation of off-target effects.

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“…CCR5-specific nucleases have been used in CD4 + T cells and CD34 + HSCs [ 65 – 69 ]. Modification of both cell types is associated with specific advantages and shortcomings.…”

Section: Discussionmentioning

confidence: 99%

Optimisation of a TALE nuclease targeting the HIV co-receptor CCR5 for clinical application

et al. 2021

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“…Genome engineering supports the advancement of cell therapy, including a universal approach to introduce both CAR transgenes and CRISPR-Cas9 ribonucleoproteins (RNPs) into primary human T cells using engineered lentiviral particles ( 84 ). Additionally, a dual gene therapy strategy has been developed, involving a conditional suicide gene and CCR5 knockout, to overcome limitations associated with CCR5 knockout alone and receptor switching ( 85 ).…”

Section: Rna Therapeutic Strategiesmentioning

confidence: 99%

Strategies for HIV-1 suppression through key genes and cell therapy

Sorokina,

Anchakova,

Dashinimaev

2023

Front. Med.

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Human immunodeficiency virus type 1 (HIV-1) remains a significant challenge for global public health as limited therapeutic options are available for HIV-infected individuals receiving combination antiretroviral therapy. Additionally, individuals with HIV-1/acquired immunodeficiency syndrome (AIDS) complications have a reduced life expectancy. In recent decades, gene and cell-based strategies have shown promise in achieving a functional cure for HIV-1 infection. The outcomes of therapies with patients in Berlin and London have led to moderate optimism for a highly effective HIV-1 treatment. This review categorizes current strategies for HIV-1 treatment into RNA- and antibody-based therapies, cell and genome editing approaches, and methods for eradicating latent reservoirs. These findings demonstrate how the use of various anti-HIV-1 agents enhances our understanding of HIV-1 infection and may provide important insights for potential HIV-1 treatment.

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“…Alternatively, emergence of CXCR4-utilizing viruses can be avoided using a combinatorial approach that utilizes an HIV-1 protein-dependent suicide gene. This was accomplished by introducing a CCR5 gRNA-CRISPR/Cas9 system into TZM-bl cells to knockout CCR5 along with an HIV-1 Tat-dependent suicide gene TK-S39 ( 165 ). This novel approach allows expression of HIV-1 Tat, which can occur when a CXCR4-utilizng or CCR5 antagonist-resistant virus enters and replicates in a cell, to induce cell death and prevent cell-to-cell spread of HIV-1 in the occurrence of HIV-1 replication despite CCR5 knockdown.…”

Section: Combinatorial Approachesmentioning

confidence: 99%

Targeting CCR5 as a Component of an HIV-1 Therapeutic Strategy

et al. 2022

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Globally, human immunodeficiency virus type 1 (HIV-1) infection is a major health burden for which successful therapeutic options are still being investigated. Challenges facing current drugs that are part of the established life-long antiretroviral therapy (ART) include toxicity, development of drug resistant HIV-1 strains, the cost of treatment, and the inability to eradicate the provirus from infected cells. For these reasons, novel anti-HIV-1 therapeutics that can prevent or eliminate disease progression including the onset of the acquired immunodeficiency syndrome (AIDS) are needed. While development of HIV-1 vaccination has also been challenging, recent advancements demonstrate that infection of HIV-1-susceptible cells can be prevented in individuals living with HIV-1, by targeting C-C chemokine receptor type 5 (CCR5). CCR5 serves many functions in the human immune response and is a co-receptor utilized by HIV-1 for entry into immune cells. Therapeutics targeting CCR5 generally involve gene editing techniques including CRISPR, CCR5 blockade using antibodies or antagonists, or combinations of both. Here we review the efficacy of these approaches and discuss the potential of their use in the clinic as novel ART-independent therapies for HIV-1 infection.

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Combination gene therapy for HIV using a conditional suicidal gene with CCR5 knockout

Cited by 10 publications

References 51 publications

Optimisation of a TALE nuclease targeting the HIV co-receptor CCR5 for clinical application

Optimisation of a TALE nuclease targeting the HIV co-receptor CCR5 for clinical application

Strategies for HIV-1 suppression through key genes and cell therapy

Targeting CCR5 as a Component of an HIV-1 Therapeutic Strategy

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