PSI-4 Investigation of a Naturally Occurring XX Male Bull

Abstract

Abstract The Y chromosome–linked gene sex-determining region (SRY) is believed to be the master initiator of male sex determination in almost all eutherian mammals, functioning to upregulate expression of its direct target gene SRY-related HMG box–containing gene 9 (SOX9). XX maleness in humans is a rare syndrome with a frequency of 1 in 20,000–25,000 males. Approximately 90% of these cases carry some amount of the Y chromosome sequences due to an illegitimate recombination between X and Y chromosomes, where most of these cases have normal male genitalia. A more severe manifestation, the remaining 10% do not have any Y-chromosome sequences, and typically have ambiguous genitalia. In this study, we report a case of an infertile bull. Physical examination of this purebred Holstein bull showed a phenotypically androgynous animal with a normal penis, cryptorchidism (2 diminutive testicles, only one descended), and with a skeletal conformation and stance usually associated with female individuals. Lymphocytes from heparin sodium anticoagulated blood were cultured, harvested, and prepared according to conventional cell culture methods revealed a normal 60, XX karyotype with no numerical or structural chromosomal aberrations. PCR analyses were negative for the SRY gene, and positive for androgen receptor gene on the X chromosome. No sperm were found in seminal fluid collected in a routine breeding soundness exam at 17 months of age. The bull was slaughtered at 18 months of age, and its reproductive tract was collected. The testicle weighed 18.9 g (descended), and 42.4 g (abdominal). Neither testicle/epididymal unit was appropriate size or fully developed. Two very enlarged vesicular glands (43.36 g and 52.52 g, normally each ~ 20 g) were observed alongside what appeared to be uterine tissue. Histology showed no tubular grooves in the ampulla and an epididymis devoid of sperm. The development of a male phenotype in SRY-negative XX individuals suggests that in addition to SRY, there are autosomal or X-linked genes involved in the sex-determining pathway. In humans, a dose change of the SOX9 gene, loss of function mutations in the WNT4, FoxL2, and RSPO1 testicular suppressing genes, and genomic rearrangements within the regulatory region of the SRY-box transcription factor 3 (SOX3) gene have all been associated with XX male sex reversal. To investigate whether a mutation or genomic rearrangement was responsible for the male phenotype in the SRY-negative 60, XX bull, DNA was collected from the bull and his sire and dam for long-read trio sequencing. These data may provide evidence for either a loss of function mutation in a gene normally inhibiting testes formation in XX individuals, or a gain of function mutation in a gene downstream of SRY in the sex determining pathway.