Derivation of embryonic stem cells from wild-derived mouse strains by nuclear transfer using peripheral blood cells

Derivation of embryonic stem cells from wild-derived mouse strains by nuclear transfer using peripheral blood cells

Wild-derived mouse strains have been extensively used in biomedical research because of the high level of inter-strain polymorphisms and phenotypic variations. However, they often show poor reproductive performance and are difficult to maintain by conventional in vitro fertilization and embryo trans...

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Bibliographic Details
Published in:Scientific reports Vol. 13; no. 1; p. 11175
Main Authors: Watanabe, Naomi, Hirose, Michiko, Hasegawa, Ayumi, Mochida, Keiji, Ogura, Atsuo, Inoue, Kimiko
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 10-07-2023
Nature Publishing Group
Nature Portfolio
Subjects:
631/136/2435
631/136/532/2117
Active Transport, Cell Nucleus
Animals
Biomedical Research
Blood Cells
Embryo cells
Embryo transfer
Embryonic Stem Cells
Embryos
Gene expression
Genetic resources
Humanities and Social Sciences
In vitro fertilization
Karyotypes
Leukocytes
Male
Medical research
Mice
multidisciplinary
Nuclear transfer
Peripheral blood
Phenotypic variations
Pluripotency
Reproduction
Science
Science (multidisciplinary)
Stem cells
Teratoma
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Summary:Wild-derived mouse strains have been extensively used in biomedical research because of the high level of inter-strain polymorphisms and phenotypic variations. However, they often show poor reproductive performance and are difficult to maintain by conventional in vitro fertilization and embryo transfer. In this study, we examined the technical feasibility of derivation of nuclear transfer embryonic stem cells (ntESCs) from wild-derived mouse strains for their safe genetic preservation. We used leukocytes collected from peripheral blood as nuclear donors without sacrificing them. We successfully established 24 ntESC lines from two wild-derived strains of CAST/Ei and CASP/1Nga (11 and 13 lines, respectively), both belonging to Mus musculus castaneus , a subspecies of laboratory mouse. Most (23/24) of these lines had normal karyotype, and all lines examined showed teratoma formation ability (4 lines) and pluripotent marker gene expression (8 lines). Two male lines examined (one from each strain) were proven to be competent to produce chimeric mice following injection into host embryos. By natural mating of these chimeric mice, the CAST/Ei male line was confirmed to have germline transmission ability. Our results demonstrate that inter-subspecific ntESCs derived from peripheral leukocytes could provide an alternative strategy for preserving invaluable genetic resources of wild-derived mouse strains.
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ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-023-38341-0