The CRISPR/Cas9 Minipig—A Transgenic Minipig to Produce Specific Mutations in Designated Tissues

SIMPLE SUMMARY: Research in large animal models has been hampered by the complexity to introduce new gene alterations, but this has been simplified by the discovery of the CRISPR/Cas system. Here, we have cloned a Cas9 minipig to generate a porcine model for pre-clinical research. Six viable piglets...

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Autores principales: Berthelsen, Martin Fogtmann, Riedel, Maria, Cai, Huiqiang, Skaarup, Søren H., Alstrup, Aage K. O., Dagnæs-Hansen, Frederik, Luo, Yonglun, Jensen, Uffe B., Hager, Henrik, Liu, Ying, Callesen, Henrik, Vendelbo, Mikkel H., Jakobsen, Jannik E., Thomsen, Martin Kristian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8234985/
https://www.ncbi.nlm.nih.gov/pubmed/34208747
http://dx.doi.org/10.3390/cancers13123024
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author Berthelsen, Martin Fogtmann
Riedel, Maria
Cai, Huiqiang
Skaarup, Søren H.
Alstrup, Aage K. O.
Dagnæs-Hansen, Frederik
Luo, Yonglun
Jensen, Uffe B.
Hager, Henrik
Liu, Ying
Callesen, Henrik
Vendelbo, Mikkel H.
Jakobsen, Jannik E.
Thomsen, Martin Kristian
author_facet Berthelsen, Martin Fogtmann
Riedel, Maria
Cai, Huiqiang
Skaarup, Søren H.
Alstrup, Aage K. O.
Dagnæs-Hansen, Frederik
Luo, Yonglun
Jensen, Uffe B.
Hager, Henrik
Liu, Ying
Callesen, Henrik
Vendelbo, Mikkel H.
Jakobsen, Jannik E.
Thomsen, Martin Kristian
author_sort Berthelsen, Martin Fogtmann
collection PubMed
description SIMPLE SUMMARY: Research in large animal models has been hampered by the complexity to introduce new gene alterations, but this has been simplified by the discovery of the CRISPR/Cas system. Here, we have cloned a Cas9 minipig to generate a porcine model for pre-clinical research. Six viable piglets were produced and backcrossed to Göttingen minipigs for two generations. Primary cells from different organs were isolated, and multiple gene alterations were performed by CRISPR in vitro. In vivo activation of the Cas9 expression was conducted by viral delivery of the FlpO expression to the skin. Overall, we successfully cloned a Cas9-expressing minipig and confirmed gene alterations introduced by the CRISPR/Cas system to porcine cells. ABSTRACT: The generation of large transgenic animals is impeded by complex cloning, long maturation and gastrulation times. An introduction of multiple gene alterations increases the complexity. We have cloned a transgenic Cas9 minipig to introduce multiple mutations by CRISPR in somatic cells. Transgenic Cas9 pigs were generated by somatic cell nuclear transfer and were backcrossed to Göttingen Minipigs for two generations. Cas9 expression was controlled by FlpO-mediated recombination and was visualized by translation from red to yellow fluorescent protein. In vitro analyses in primary fibroblasts, keratinocytes and lung epithelial cells confirmed the genetic alterations executed by the viral delivery of single guide RNAs (sgRNA) to the target cells. Moreover, multiple gene alterations could be introduced simultaneously in a cell by viral delivery of sgRNAs. Cells with loss of TP53, PTEN and gain-of-function mutation in KRAS(G12D) showed increased proliferation, confirming a transformation of the primary cells. An in vivo activation of Cas9 expression could be induced by viral delivery to the skin. Overall, we have generated a minipig with conditional expression of Cas9, where multiple gene alterations can be introduced to somatic cells by viral delivery of sgRNA. The development of a transgenic Cas9 minipig facilitates the creation of complex pre-clinical models for cancer research.
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spelling pubmed-82349852021-06-27 The CRISPR/Cas9 Minipig—A Transgenic Minipig to Produce Specific Mutations in Designated Tissues Berthelsen, Martin Fogtmann Riedel, Maria Cai, Huiqiang Skaarup, Søren H. Alstrup, Aage K. O. Dagnæs-Hansen, Frederik Luo, Yonglun Jensen, Uffe B. Hager, Henrik Liu, Ying Callesen, Henrik Vendelbo, Mikkel H. Jakobsen, Jannik E. Thomsen, Martin Kristian Cancers (Basel) Article SIMPLE SUMMARY: Research in large animal models has been hampered by the complexity to introduce new gene alterations, but this has been simplified by the discovery of the CRISPR/Cas system. Here, we have cloned a Cas9 minipig to generate a porcine model for pre-clinical research. Six viable piglets were produced and backcrossed to Göttingen minipigs for two generations. Primary cells from different organs were isolated, and multiple gene alterations were performed by CRISPR in vitro. In vivo activation of the Cas9 expression was conducted by viral delivery of the FlpO expression to the skin. Overall, we successfully cloned a Cas9-expressing minipig and confirmed gene alterations introduced by the CRISPR/Cas system to porcine cells. ABSTRACT: The generation of large transgenic animals is impeded by complex cloning, long maturation and gastrulation times. An introduction of multiple gene alterations increases the complexity. We have cloned a transgenic Cas9 minipig to introduce multiple mutations by CRISPR in somatic cells. Transgenic Cas9 pigs were generated by somatic cell nuclear transfer and were backcrossed to Göttingen Minipigs for two generations. Cas9 expression was controlled by FlpO-mediated recombination and was visualized by translation from red to yellow fluorescent protein. In vitro analyses in primary fibroblasts, keratinocytes and lung epithelial cells confirmed the genetic alterations executed by the viral delivery of single guide RNAs (sgRNA) to the target cells. Moreover, multiple gene alterations could be introduced simultaneously in a cell by viral delivery of sgRNAs. Cells with loss of TP53, PTEN and gain-of-function mutation in KRAS(G12D) showed increased proliferation, confirming a transformation of the primary cells. An in vivo activation of Cas9 expression could be induced by viral delivery to the skin. Overall, we have generated a minipig with conditional expression of Cas9, where multiple gene alterations can be introduced to somatic cells by viral delivery of sgRNA. The development of a transgenic Cas9 minipig facilitates the creation of complex pre-clinical models for cancer research. MDPI 2021-06-16 /pmc/articles/PMC8234985/ /pubmed/34208747 http://dx.doi.org/10.3390/cancers13123024 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Berthelsen, Martin Fogtmann
Riedel, Maria
Cai, Huiqiang
Skaarup, Søren H.
Alstrup, Aage K. O.
Dagnæs-Hansen, Frederik
Luo, Yonglun
Jensen, Uffe B.
Hager, Henrik
Liu, Ying
Callesen, Henrik
Vendelbo, Mikkel H.
Jakobsen, Jannik E.
Thomsen, Martin Kristian
The CRISPR/Cas9 Minipig—A Transgenic Minipig to Produce Specific Mutations in Designated Tissues
title The CRISPR/Cas9 Minipig—A Transgenic Minipig to Produce Specific Mutations in Designated Tissues
title_full The CRISPR/Cas9 Minipig—A Transgenic Minipig to Produce Specific Mutations in Designated Tissues
title_fullStr The CRISPR/Cas9 Minipig—A Transgenic Minipig to Produce Specific Mutations in Designated Tissues
title_full_unstemmed The CRISPR/Cas9 Minipig—A Transgenic Minipig to Produce Specific Mutations in Designated Tissues
title_short The CRISPR/Cas9 Minipig—A Transgenic Minipig to Produce Specific Mutations in Designated Tissues
title_sort crispr/cas9 minipig—a transgenic minipig to produce specific mutations in designated tissues
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8234985/
https://www.ncbi.nlm.nih.gov/pubmed/34208747
http://dx.doi.org/10.3390/cancers13123024
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