Mini review: genome and transcriptome editing using CRISPR-cas systems for haematological malignancy gene therapy

doi:10.1007/s11248-020-00232-9

Review

. 2021 Apr;30(2):129-141.

doi: 10.1007/s11248-020-00232-9. Epub 2021 Feb 20.

Mini review: genome and transcriptome editing using CRISPR-cas systems for haematological malignancy gene therapy

Esther K Elliott¹, Larisa M Haupt¹, Lyn R Griffiths²

Affiliations

¹ Centre for Genomics and Personalised Health, Genomics Research Centre, School of Biomedical Sciences, Institute of Health and Biomedical Innovation, Queensland University of Technology (QUT), 60 Musk Ave, Kelvin Grove, QLD, 4059, Australia.
² Centre for Genomics and Personalised Health, Genomics Research Centre, School of Biomedical Sciences, Institute of Health and Biomedical Innovation, Queensland University of Technology (QUT), 60 Musk Ave, Kelvin Grove, QLD, 4059, Australia. lyn.griffiths@qut.edu.au.

PMID: 33609253
DOI: 10.1007/s11248-020-00232-9

Review

Mini review: genome and transcriptome editing using CRISPR-cas systems for haematological malignancy gene therapy

Esther K Elliott et al. Transgenic Res. 2021 Apr.

. 2021 Apr;30(2):129-141.

doi: 10.1007/s11248-020-00232-9. Epub 2021 Feb 20.

Authors

Esther K Elliott¹, Larisa M Haupt¹, Lyn R Griffiths²

Affiliations

¹ Centre for Genomics and Personalised Health, Genomics Research Centre, School of Biomedical Sciences, Institute of Health and Biomedical Innovation, Queensland University of Technology (QUT), 60 Musk Ave, Kelvin Grove, QLD, 4059, Australia.
² Centre for Genomics and Personalised Health, Genomics Research Centre, School of Biomedical Sciences, Institute of Health and Biomedical Innovation, Queensland University of Technology (QUT), 60 Musk Ave, Kelvin Grove, QLD, 4059, Australia. lyn.griffiths@qut.edu.au.

PMID: 33609253
DOI: 10.1007/s11248-020-00232-9

Abstract

The recent introduction of clustered regularly interspaced short palindromic repeats (CRISPR) and CRISPR associated protein (Cas) systems, offer an array of genome and transcriptome editing tools for clinical repair strategies. These include Cas9, Cas12a, dCas9 and more recently Cas13 effectors. RNA targeting CRISPR-Cas13 complexes show unique characteristics with the capability to engineer transcriptomes and modify gene expression, providing a potential clinical cancer therapy tool across various tissue types. Cas13 effectors such as RNA base editing for A to I replacement allows for precise transcript modification. Further applications of Cas13a highlights its capability of producing rapid diagnostic results in a mobile platform. This review will focus on the adaptions of existing CRISPR-Cas systems, along with new Cas effectors for transcriptome or RNA modifications used in disease modelling and gene therapy for haematological malignancy. We also address the current diagnostic and therapeutic potential of CRISPR-Cas systems for personalised haematological malignancy.

Keywords: CRISPR1; Cas4; Gene-therapy3; Genome-editing2; Malignancy6; Transcriptome5.

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References

1. Abudayyeh, O. O., Gootenberg, J. S., Konermann, S., Joung, J., Slaymaker, I. M., Cox, D. B., Zhang, F. (2016). C2c2 is a single-component programmable RNA-guided RNA-targeting CRISPR effector. Science, 353(6299), aaf5573. doi: https://doi.org/10.1126/science.aaf5573
1. Abudayyeh OO, Gootenberg JS, Essletzbichler P, Han S, Joung J, Belanto JJ, Zhang F (2017) RNA targeting with CRISPR-Cas13. Nature 550(7675):280–284. https://doi.org/10.1038/nature24049 - DOI - PubMed - PMC
1. Anzalone AV, Randolph PB, Davis JR, Sousa AA, Koblan LW, Levy JM, Liu DR (2019) Search-and-replace genome editing without double-strand breaks or donor DNA. Nature 576(7785):149–157. https://doi.org/10.1038/s41586-019-1711-4 - DOI - PubMed - PMC
1. Bhaya D, Davison M, Barrangou R (2011) CRISPR-Cas systems in bacteria and archaea: versatile small RNAs for adaptive defense and regulation. Annu Rev Genet 45:273–297. https://doi.org/10.1146/annurev-genet-110410-132430 - DOI - PubMed
1. Bradshaw G, Lualhati RR, Albury CL, Maksemous N, Roos-Araujo D, Smith RA, Griffiths LR (2018) Exome sequencing diagnoses X-linked Moesin-associated immunodeficiency in a primary immunodeficiency case. Front Immunol 9:420. https://doi.org/10.3389/fimmu.2018.00420 - DOI - PubMed - PMC

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[1] Abudayyeh, O. O., Gootenberg, J. S., Konermann, S., Joung, J., Slaymaker, I. M., Cox, D. B., Zhang, F. (2016). C2c2 is a single-component programmable RNA-guided RNA-targeting CRISPR effector. Science, 353(6299), aaf5573. doi: https://doi.org/10.1126/science.aaf5573

[2] Abudayyeh, O. O., Gootenberg, J. S., Konermann, S., Joung, J., Slaymaker, I. M., Cox, D. B., Zhang, F. (2016). C2c2 is a single-component programmable RNA-guided RNA-targeting CRISPR effector. Science, 353(6299), aaf5573. doi: https://doi.org/10.1126/science.aaf5573

[3] Abudayyeh OO, Gootenberg JS, Essletzbichler P, Han S, Joung J, Belanto JJ, Zhang F (2017) RNA targeting with CRISPR-Cas13. Nature 550(7675):280–284. https://doi.org/10.1038/nature24049 - DOI - PubMed - PMC

[4] Abudayyeh OO, Gootenberg JS, Essletzbichler P, Han S, Joung J, Belanto JJ, Zhang F (2017) RNA targeting with CRISPR-Cas13. Nature 550(7675):280–284. https://doi.org/10.1038/nature24049 - DOI - PubMed - PMC

[5] Anzalone AV, Randolph PB, Davis JR, Sousa AA, Koblan LW, Levy JM, Liu DR (2019) Search-and-replace genome editing without double-strand breaks or donor DNA. Nature 576(7785):149–157. https://doi.org/10.1038/s41586-019-1711-4 - DOI - PubMed - PMC

[6] Anzalone AV, Randolph PB, Davis JR, Sousa AA, Koblan LW, Levy JM, Liu DR (2019) Search-and-replace genome editing without double-strand breaks or donor DNA. Nature 576(7785):149–157. https://doi.org/10.1038/s41586-019-1711-4 - DOI - PubMed - PMC

[7] Bhaya D, Davison M, Barrangou R (2011) CRISPR-Cas systems in bacteria and archaea: versatile small RNAs for adaptive defense and regulation. Annu Rev Genet 45:273–297. https://doi.org/10.1146/annurev-genet-110410-132430 - DOI - PubMed

[8] Bhaya D, Davison M, Barrangou R (2011) CRISPR-Cas systems in bacteria and archaea: versatile small RNAs for adaptive defense and regulation. Annu Rev Genet 45:273–297. https://doi.org/10.1146/annurev-genet-110410-132430 - DOI - PubMed

[9] Bradshaw G, Lualhati RR, Albury CL, Maksemous N, Roos-Araujo D, Smith RA, Griffiths LR (2018) Exome sequencing diagnoses X-linked Moesin-associated immunodeficiency in a primary immunodeficiency case. Front Immunol 9:420. https://doi.org/10.3389/fimmu.2018.00420 - DOI - PubMed - PMC

[10] Bradshaw G, Lualhati RR, Albury CL, Maksemous N, Roos-Araujo D, Smith RA, Griffiths LR (2018) Exome sequencing diagnoses X-linked Moesin-associated immunodeficiency in a primary immunodeficiency case. Front Immunol 9:420. https://doi.org/10.3389/fimmu.2018.00420 - DOI - PubMed - PMC

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Mini review: genome and transcriptome editing using CRISPR-cas systems for haematological malignancy gene therapy

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Mini review: genome and transcriptome editing using CRISPR-cas systems for haematological malignancy gene therapy

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