Persistent Müllerian Duct Syndrome in a German Shepherd Dog.

In mammals, the regression of the müllerian ducts is regulated by the action of the AMH hormone which is produced by testes during embryonic development. The action of this hormone is mediated by the only known receptor AMHR2. Mutations occurring in the AHM hormone and/or in the AMHR2 receptor gene cause the lack of regression of müllerian ducts, which may therefore persist even in male embryos carrying a XY chromosomal arrangement. This is known as the persistent müllerian duct syndrome (PMDS). A female German Shepherd dog was referred to the veterinary clinic because of urinary incontinence. She also showed an anatomical structure that protruded from and enlarged the vulvar labia. From the morphological appearance, one gonad resembled an ovary and the other a testicle. The histological examination instead showed that the gonads were both testes with an underdeveloped parenchyma and without signs of spermatogenetic activity. No alterations were found with regard to the uterus which showed a correctly developed body, cervix, and horns. Genetic analysis, performed on DNA extracted from blood, showed (i) the presence of both X and Y chromosomes, (ii) the absence of chromosome XX/XY chimerism, (iii) a normal SRY gene coding sequence, (iv) a normal AMHR2 gene coding sequence, and (v) a normal AMH gene coding sequence. In this study, we report and characterize a new case of PMDS in a dog excluding that the only mutation hitherto found in the AMHR2 gene is responsible for the observed phenotype.

XY (SRY-positive) Ovarian Disorder of Sex Development in Cattle.

In mammals, the sex of the embryo depends on the SRY gene. In the presence of at least one intact and functional copy of this genetic factor (XY embryo) undifferentiated gonads will develop as testicles that subsequently determine the male phenotype. When this factor is not present, i.e., in subjects with 2 X chromosomes, an alternative pathway induces the development of ovaries, hence a female phenotype. In this case study, we describe a female cattle affected by a disorder of sex development (DSD). The subject, despite having a chromosomal XY constitution, did not develop testicles but ovaries, although they were underdeveloped. Moreover, genetic analysis highlighted the presence of the SRY gene with a normal coding region in both blood- and tissue-derived DNA. A chimeric condition was excluded in blood by sexing more than 350 cells and by allele profile investigation of 18 microsatellite markers. Array CGH analysis showed the presence of a not yet described 99-kb duplication (BTA18), but its relationship with the phenotype remains to be demonstrated. Gonadal histology demonstrated paired ovaries: the left one containing a large corpus luteum and the right one showing an underdeveloped aspect and very few early follicles. To our knowledge, we describe the first case of XY (SRY+) DSD in cattle with a normal SRY gene coding sequence.

Testicular XX (SRY-Negative) Disorder of Sex Development in Cat.

In most mammals, the sex of an individual is genetically determined by the Y chromosome-specific SRY gene. The presence of at least one functional copy of this gene determines the development of the primordial gonads into testes. However, testicular tissue does develop in the absence of SRY, albeit rarely, which is the case in testicular XX (SRY-negative) disorder of sex development (DSD). This condition is very important for studying the process of sexual determination because it allows the identification of genetic factors that are able to promote the male developmental pathway in the absence of SRY and thereby enables a better understanding of this process. Until now, this condition has been identified in various animal species but has never been reported in cat. In this study, we describe the first case of an XX (SRY-negative) DSD cat. The cat possesses a tortoiseshell coat associated with male-like external genitalia, including normal scrotum with 2 palpably normal testicles. Histological analysis confirmed the presence of the testes, and cytogenetic and genetic analyses showed a female karyotype associated with the absence of the SRY gene. Finally, sequencing of the RSPO1 gene revealed no mutation, and FISH analysis of the SOX9 locus did not reveal any large abnormalities.

Centromere Repositioning in Cattle (Bos taurus) Chromosome 17.

Eukaryotic organisms have developed a structure, called centromere, able to preserve the integrity of the genome during cell division. A young bull from the Marchigiana breed, with a normal external phenotype, underwent routine cytogenetic analysis to enter the reproduction center. All metaphases analyzed showed an unusual biarmed chromosome of medium size despite a diploid set of chromosomes (2n = 60,XY). FISH analysis excluded a pericentric inversion or a reciprocal translocation, but highlighted a repositioning of the centromere in BTA17. The satellite DNA was still in an acrocentric position. The telomeres were normally present. The primary constriction on the abnormal chromosome was C-band negative. Finally, the absence of a large genomic deletion in the BTA17 pericentromeric region was demonstrated by both array-CGH analysis and SNP array. To our knowledge, this is the first case of centromere repositioning reported in cattle.