Differentiation of mouse embryonic stem cells into cells with spermatogonia-like morphology with chemical intervention-dependent increased gene expression of LIM homeobox 1 (Lhx1).

Spermatogonial stem cells (SSCs) originate from gonocytes that differentiate from primordial germ cells (PGCs). In the developing mouse testis, expression of the gene LIM homeobox 1 (Lhx1) marks the most undifferentiated SSCs, which has not yet been reported for spermatogonia-like cells generated in vitro. Previously, it was shown that a chemical intervention in male mouse embryonic stem (ES) cells in serum culture, including Sirtuin 1 (SIRT1) inhibitor Ex-527, DNA methyltransferase (DNMT) inhibitor RG-108 and electrophilic redox cycling compound tert-butylhydroquinone (tBHQ), was associated with molecular markers of PGC to gonocyte differentiation. Here, we report the in vitro differentiation of male mouse ES cells, cultured under dual chemical inhibition of GSK3β and MEK (2i) with leukemia inhibitory factor (LIF) (2iL) and serum, into cells with spermatogonia-like morphology (CSMs) and population-averaged expression of spermatogonia-specific genes by removal of 2iL and a specific schedule of twice daily partial medium replacement. Combination of this new protocol with the previously reported chemical intervention increased population-averaged gene expression of Lhx1 in the resulting CSMs. Furthermore, we detected single CSMs with strong nuclear LHX1/5 protein signal only in the chemical intervention group. We propose that further investigation of CSMs may provide new insights into male germline development

Differentiation of mouse embryonic stem cells into cells with spermatogonia-like morphology with chemical intervention-dependent increased gene expression of LIM homeobox 1 (Lhx1)

Spermatogonial stem cells (SSCs) originate from gonocytes that differentiate from primordial germ cells (PGCs). In the developing mouse testis, expression of the gene LIM homeobox 1 (Lhx1) marks the most undifferentiated SSCs, which has not yet been reported for spermatogonia-like cells generated in vitro. Previously, it was shown that a chemical intervention in male mouse embryonic stem (ES) cells in serum culture, including Sirtuin 1 (SIRT1) inhibitor Ex-527, DNA methyltransferase (DNMT) inhibitor RG-108 and electrophilic redox cycling compound tert-butylhydroquinone (tBHQ), was associated with molecular markers of PGC to gonocyte differentiation. Here, we report the in vitro differentiation of male mouse ES cells, cultured under dual chemical inhibition of GSK3β and MEK (2i) with leukemia inhibitory factor (LIF) (2iL) and serum, into cells with spermatogonia-like morphology (CSMs) and population-averaged expression of spermatogonia-specific genes by removal of 2iL and a specific schedule of twice daily partial medium replacement. Combination of this new protocol with the previously reported chemical intervention increased population-averaged gene expression of Lhx1 in the resulting CSMs. Furthermore, we detected single CSMs with strong nuclear LHX1/5 protein signal only in the chemical intervention group. We propose that further investigation of CSMs may provide new insights into male germline development

Autosomal recessive hyposegmentation of granulocytes in Australian Shepherd Dogs indicates a role for LMBR1L in myeloid leukocytes

Pelger-Huët anomaly (PHA) in humans is an autosomal dominant hematological phenotype without major clinical consequences. PHA involves a characteristic hyposegmentation of granulocytes (HG). Human PHA is caused by heterozygous loss of function variants in the LBR gene encoding lamin receptor B. Bi-allelic variants and complete deficiency of LBR cause the much more severe Greenberg skeletal dysplasia which is lethal in utero and characterized by massive skeletal malformation and gross fetal hydrops. HG phenotypes have also been described in domestic animals and homology to human PHA has been claimed in the literature. We studied a litter of Australian Shepherd Dogs with four stillborn puppies in which both parents had an HG phenotype. Linkage analysis excluded LBR as responsible gene for the stillborn puppies. We then investigated the HG phenotype in Australian Shepherd Dogs independently of the prenatal lethality. Genome-wide association mapped the HG locus to chromosome 27 and established an autosomal recessive mode of inheritance. Whole genome sequencing identified a splice site variant in LMBR1L, c.191+1G>A, as most likely causal variant for the HG phenotype. The mutant allele abrogates the expression of the longer X2 isoform but does not affect transcripts encoding the shorter X1 isoform of the LMBR1L protein. The homozygous mutant LMBR1L genotype associated with HG is common in Australian Shepherd Dogs and was found in 39 of 300 genotyped dogs (13%). Our results point to a previously unsuspected function of LMBR1L in the myeloid lineage of leukocytes

Disorder of Sexual Development in a Mare with an Unusual Tentative Mosaic Karyotype: 63,X/64,Xdel(Y).

The present report describes a 4-year-old Trakehner mare which was referred to the clinic for a breeding soundness evaluation. Clinical, histological, and postmortem examination revealed an underdeveloped genital tract, the absence of a cervix uteri, and small inactive ovaries without male gonadal tissue. Blood lymphocyte analysis revealed an unusual mosaic karyotype consisting of 2 cell lines. For the majority of cells (70%), monosomy X (63,X) was observed. The remaining cells (30%) contained 64 chromosomes including one X chromosome and a small rudimentary Y chromosome consisting mostly of heterochromatin. The centromere was retained, but its full functionality was questionable. PCR analysis revealed that the entire male-specific region of Y (Yq14), including the SRY gene, was deleted. It remained unclear if the pseudoautosomal region (Yq15) and parts of the heterochromatic region (Yq13) were affected by this deletion. The phenotype of the mare with this disorder of sex development associated with sex chromosome abnormalities is genetically comparable to 63,X monosomy which fully explains the clinical findings

Fertility and 63,X Mosaicism in a Haflinger Sibship.

Chromosomal abnormalities are notable causes of infertility in horses. Mares show various degrees of estrous behavior, and ultrasound examination often reveals an underdeveloped genital tract. This article reports investigations on fertility in a Haflinger sibship with a healthy, normally developed, fertile mare with at least three healthy offspring. Chromosomal analysis performed incidentally and blinded for this mare revealed 63,X/64,XX/65,XXX mosaicism. Two closely related mares were also mosaics (63,X/64,XX), and one of them was a carrier of a marker chromosome. Repeated examinations of the mare and seven relatives (four mares and three stallions) did not provide evidence for sub- or in-fertility. They had no developmental abnormalities or conspicuous body conditions. Peripheral blood samples were collected for analysis of the karyotype and molecular analyses. Chromosomes were Giemsa stained and 4',6-diamidino-2-phenylindole banded to identify numerical or structural aberrations of chromosomes and identification of sex chromosomes, respectively. Fluorescence in situ hybridization was performed with an equine Y-chromosome painting probe to identify and count the sex chromosomes, and polymerase chain reaction analysis was used to test for the presence of the SRY gene and investigating chimerism. The present article demonstrates the necessity of further studies analyzing chromosomal X0 mosaics to improve the predictive value of chromosomal aberrations on fertility

Identification of chromosome abnormalities in the horse using a panel of chromosome-specific painting probes generated by microdissection

Fluorescent in situ hybridisation (FISH) using a panel of molecular probes for all chromosome pairs obtained by chromosome microdissection of the domestic horse ( Equus caballus ) was used to diagnose karyotype abnormalities in 35 horses (32 mares, 2 stallions and 1 intersex), which were selected for the study due to infertility (23 horses), reduced fertility (10 horses) and developmental anomalies (2 horses). The use of the FISH technique with probes for each horse chromosome pair enabled the diagnosis of many different chromosome aberrations in this population. Among the horses analysed, 21 animals had normal karyotype — 64,XX (19 mares) and 64,XY (2 stallions). Fourteen animals, constituting 40% of the population studied, showed the following chromosome abnormalities: 63,X (1 mare); 63,X/64,XX (6 mares); 63,X/64,XX/65,XXX (3 mares); 63,X/65,XXX (1 mare); 64,XX/65,XX+Xp (1 mare); 63,X/64,XX/65,XX+Xq (1 mare), and 63,X/64,XX/65,XX+delY (1 intersex). When only the mares studied because of complete infertility were taken into consideration, this proportion exceeded 56%. Due to the increased frequency of the above-mentioned aberrations in the mosaic form of two or more lines, it was necessary to analyse a large number (100–300) of metaphase spreads. The use of specific molecular probes obtained by chromosome microdissection made these diagnoses much easier

Detection of equine X chromosome mosaicism in a mare using an equine X whole chromosome painting probe (WCPP) — A case report

An infertile mare with hypoplastic ovaries was subjected to cytogenetic analysis. Fluorescence in situ hybridisation (FISH) using the equine X whole chromosome painting probe (WCPP) was carried out on a chromosome preparation obtained from blood lymphocyte culture. The number of analysed spreads was high (235) and in the X chromosome aneuploidy in mosaic form was diagnosed. The karyotype formula was 63,X / 64,XX / 65,XXX. The ratio of the three lines was 15%, 82% and 3%, respectively. The application of the FISH technique with WCPP is discussed

[Unilateral peromelia of the left pelvic limb in a Brown Swiss calf].

ngeborene Missbildungen der Gliedmassen treten sporadisch bei verschiedenen Spezies auf, wobei die Ursache häufig unklar ist. Das hier vorgestellte, klinisch gesunde, weibliche Brown Swiss Kalb zeigte eine kongenitale Peromelie des linken Hinterbeins. Dabei ist das betroffene Bein nach innen rotiert, disproportional und die Knochen distal des Metatarsus fehlen. Karyotypisierung und Gesamtgenomsequenzierungen ergaben keinen Hinweis auf eine genetische Ursache für die Anomalie. Eine Infektion mit dem Schmallenberg-Virus konnte nicht ausgeschlossen werden. Darüber hinaus lagen keine Anhaltspunkte für weitere schädliche Umwelteffekte während der Trächtigkeit vor.Congenital deformities of the limbs occur sporadically in various species, but the cause is often unclear. The clinically healthy female Brown Swiss calf presented here showed a congenital peromelia of the left hind limb. The affected limb is twisted, disproportional and the bones distally of the metatarsus are missing. Karyotyping and genome sequencing did not indicate on a genetic cause of the anomaly. An infection with the Schmallenberg virus could not be ruled out. Furthermore, there was no evidence of further adverse environmental effects during pregnancy.Péromélie unilatérale du postérieur gauche chez un veau de race Brown Swiss Des malformations congénitales des membres, dont la cause est souvent peu claire, surviennent sporadiquement chez diverses espèces. Le veau Brown Swiss femelle présenté ici, tout en étant cliniquement sain, présentait une péromélie congénitale du postérieur gauche. Le membre concerné été en rotation interne, disproportionné et les os distalement au métatarse étaient absents. La détermination du caryotype et le séquençage de l’ensemble du génome n’ont apporté aucun élément parlant pour une cause génétique de l’anomalie. Il n’a pas été possible d’exclure une infection par le virus de ­Schmallenberg. D’autre part il n’y avait aucun élément évoquant d’autres influences environnementales néfastes durant la gestation.Peromelia unilaterale dell’arto ­sinistro posteriore in un vitello di Brown Swiss Le malformazioni congenite degli arti sono sporadiche in diverse specie e la causa non chiara. Il caso qui presentato concerne una femmina di vitello Brown Swiss clinicamente sana che presenta una peromelia congenita dell’arto posteriore sinistro. L’arto colpito è ruotato verso l’interno, sproporzionato e le ossa distali del metatarso sono assenti. Il cariotipo e il sequenziamento del genoma non hanno rivelato una causa genetica del­l’anomalia. Un’infezione provocata dal virus di Schmallenberg non può venire esclusa. Inoltre, non vi sono prove di possibili effetti ambientali nocivi durante la gestazione

37,X/38,XY Mosaicism in a Cryptorchid Bengal Cat with Müllerian Duct Remnants

A 23-month-old tomcat was referred to our clinic because of male behavioral problems, cryptorchidism, and an undefined intra-abdominal organ resembling a uterus. Ultrasonography and computed tomography showed 2 fluid-filled tubular structures dorsolaterally to the bladder and connected to the pelvic urethra. The cat was castrated, and the tubular structures were surgically removed. Histology identified them as Müllerian duct remnants. The testes were hypoplastic, the epididymes and deferent ducts were normal. Cytogenetic analyses revealed the presence of a mosaic 37,X/38,XY karyotype which explains the clinical findings