Knockout of the HMG domain of the porcine SRY gene causes sex reversal in gene-edited pigs

Stefanie Kurtz; Andrea Lucas-Hahn; Brigitte Schlegelberger; Gudrun Göhring; Heiner Niemann; Thomas C. Mettenleiter; Björn Petersen

doi:10.1073/pnas.2008743118

New Research In

Edited by R. Michael Roberts, University of Missouri, Columbia, MO, and approved November 23, 2020 (received for review May 5, 2020)

Significance

The present work characterizes the porcine sex-determining region on the Y chromosome (SRY) gene and demonstrates its pivotal role in sex determination. We provide evidence that genetically male pigs with a knockout of the SRY gene undergo sex reversal of the external and internal genitalia. This discovery of SRY as the main switch for sex determination in pigs may provide an alternative for surgical castration in pig production, preventing boar taint. As the pig shares many genetic, physiological, and anatomical similarities with humans, it also provides a suitable large animal model for human sex reversal syndromes, allowing for the development of new interventions for human sex disorders.

Abstract

The sex-determining region on the Y chromosome (SRY) is thought to be the central genetic element of male sex development in mammals. Pathogenic modifications within the SRY gene are associated with a male-to-female sex reversal syndrome in humans and other mammalian species, including rabbits and mice. However, the underlying mechanisms are largely unknown. To understand the biological function of the SRY gene, a site-directed mutational analysis is required to investigate associated phenotypic changes at the molecular, cellular, and morphological level. Here, we successfully generated a knockout of the porcine SRY gene by microinjection of two CRISPR-Cas ribonucleoproteins, targeting the centrally located “high mobility group” (HMG), followed by a frameshift mutation of the downstream SRY sequence. This resulted in the development of genetically male (XY) pigs with complete external and internal female genitalia, which, however, were significantly smaller than in 9-mo-old age-matched control females. Quantitative digital PCR analysis revealed a duplication of the SRY locus in Landrace pigs similar to the known palindromic duplication in Duroc breeds. Our study demonstrates the central role of the HMG domain in the SRY gene in male porcine sex determination. This proof-of-principle study could assist in solving the problem of sex preference in agriculture to improve animal welfare. Moreover, it establishes a large animal model that is more comparable to humans with regard to genetics, physiology, and anatomy, which is pivotal for longitudinal studies to unravel mammalian sex determination and relevant for the development of new interventions for human sex development disorders.

Footnotes

↵¹To whom correspondence may be addressed. Email: bjoern.petersen{at}fli.de.

Author contributions: S.K., H.N., T.C.M., and B.P. designed research; S.K., A.L.-H., B.S., G.G., and B.P. performed research; S.K. contributed new reagents/analytic tools; S.K. and B.P. analyzed data; S.K. wrote the paper; A.L.-H. performed somatic cell nuclear transfer and microinjection techniques; B.S. performed karyotyping, supervised the project, and discussed the results; G.G. performed karyotyping; H.N. discussed the results and contributed to manuscript writing; T.C.M. initiated the project, discussed the results, and contributed to manuscript writing; and B.P. supervised the project, contributed to the design and implementation of the research, performed surgical embryo transfer, discussed the results, and contributed to manuscript writing.
The authors declare no competing interest.
This article is a PNAS Direct Submission.
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