Sabina Sánchez‐Hernández scite author profile

Abstract:The clustered regularly interspaced short palindromic repeat (CRISPR)-associated protein 9 endonuclease (Cas9) derived from bacterial adaptive immune systems is a revolutionary tool used in both basic and applied science. It is a versatile system that enables the genome of different species to be modified by generating double strand breaks (DSBs) at specific locations. However, all of the CRISPR/Cas9 systems can also produce DSBs at off-target sites that differ substantially from on-target sites. The generation of DSBs in locations outside the intended site can produce mutations that need to be carefully monitored, especially when using these tools for therapeutic purposes. However, off-target analyses of the CRISPR/Cas9 system have been very challenging, particularly when performed directly in cells. In this manuscript, we review the different strategies developed to identify off-targets generated by CRISPR/cas9 systems and other specific nucleases (ZFNs, TALENs) in real target cells.

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Frequent mutations in the amino-terminal domain of BCL7A impair its tumor suppressor role in DLBCL

Baliñas-Gavira

Rodríguez

Andrades

et al. 2020

Leukemia

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Comparison of Zinc Finger Nucleases Versus CRISPR-Specific Nucleases for Genome Editing of the Wiskott-Aldrich Syndrome Locus

et al. 2018

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Primary immunodeficiencies, including Wiskott-Aldrich syndrome (WAS), are a main target for genome-editing strategies using specific nucleases (SNs) because a small number of corrected hematopoietic stem cells could cure patients. In this work, we have designed various WAS gene-specific CRISPR/Cas9 systems and compared their efficiency and specificity with homodimeric and heterodimeric WAS-specific zinc finger nucleases (ZFNs), using K-562 cells as a cellular model and plasmid nucleofection or integration-deficient lentiviral vectors (IDLVs) for delivery. The various CRISPR/Cas9 and ZFN SNs showed similar efficiency when using plasmid nucleofection for delivery. However, dual IDLVs expressing ZFNs were more efficient than dual IDLVs expressing Cas9 and guide RNA or all-in-one IDLVs, expressing Cas9 and guide RNA in the same vector. The specificity of heterodimeric ZFNs and CRISPR/Cas9, measured by increments in γ-H2AX focus formation in WAS-edited cells, was similar for both, and both outperformed homodimeric ZFNs independently of the delivery system used. Interestingly, we show that delivery of SNs, using IDLVs, is more efficient and less genotoxic than plasmid nucleofection. We also show the similar behavior of heterodimeric ZFNs and CRISPR/Cas9 for homology-directed gene knock-in strategies, with 88 and 83% of the donors inserted in the WAS locus, respectively, whereas when using homodimeric ZFNs only 45% of the insertions were on target. In summary, our data indicate that CRISPR/Cas9 and heterodimeric ZFNs are both good alternatives to further develop SN-based gene therapy strategies for WAS. However, IDLV delivery of WAS-specific heterodimeric ZFNs was the best option of all systems compared in this study.

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Lent-On-Plus Lentiviral vectors for conditional expression in human stem cells

Benabdellah

Muñoz

Cobo

et al. 2016

Sci Rep

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Conditional transgene expression in human stem cells has been difficult to achieve due to the low efficiency of existing delivery methods, the strong silencing of the transgenes and the toxicity of the regulators. Most of the existing technologies are based on stem cells clones expressing appropriate levels of tTA or rtTA transactivators (based on the TetR-VP16 chimeras). In the present study, we aim the generation of Tet-On all-in-one lentiviral vectors (LVs) that tightly regulate transgene expression in human stem cells using the original TetR repressor. By using appropriate promoter combinations and shielding the LVs with the Is2 insulator, we have constructed the Lent-On-Plus Tet-On system that achieved efficient transgene regulation in human multipotent and pluripotent stem cells. The generation of inducible stem cell lines with the Lent-ON-Plus LVs did not require selection or cloning, and transgene regulation was maintained after long-term cultured and upon differentiation toward different lineages. To our knowledge, Lent-On-Plus is the first all-in-one vector system that tightly regulates transgene expression in bulk populations of human pluripotent stem cells and its progeny.

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Coenzyme Q10 modulates sulfide metabolism and links the mitochondrial respiratory chain to pathways associated to one carbon metabolism

González-García

Hidalgo‐Gutiérrez

Mascaraque

et al. 2020

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Abnormalities of one carbon, glutathione and sulfide metabolisms have recently emerged as novel pathomechanisms in diseases with mitochondrial dysfunction. However, the mechanisms underlying these abnormalities are not clear. Also, we recently showed that sulfide oxidation is impaired in Coenzyme Q10 (CoQ10) deficiency. This finding leads us to hypothesize that the therapeutic effects of CoQ10, frequently administered to patients with primary or secondary mitochondrial dysfunction, might be due to its function as cofactor for sulfide:quinone oxidoreductase (SQOR), the first enzyme in the sulfide oxidation pathway. Here, using biased and unbiased approaches, we show that supraphysiological levels of CoQ10 induces an increase in the expression of SQOR in skin fibroblasts from control subjects and patients with mutations in Complex I subunits genes or CoQ biosynthetic genes. This increase of SQOR induces the downregulation of the cystathionine β-synthase and cystathionine γ-lyase, two enzymes of the transsulfuration pathway, the subsequent downregulation of serine biosynthesis and the adaptation of other sulfide linked pathways, such as folate cycle, nucleotides metabolism and glutathione system. These metabolic changes are independent of the presence of sulfur aminoacids, are confirmed in mouse models, and are recapitulated by overexpression of SQOR, further proving that the metabolic effects of CoQ10 supplementation are mediated by the overexpression of SQOR. Our results contribute to a better understanding of how sulfide metabolism is integrated in one carbon metabolism and may explain some of the benefits of CoQ10 supplementation observed in mitochondrial diseases.

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