Transcriptomic profiling of mare endometrium at different stages of endometrosis.

In the current study, transcriptome profiles of mare endometrium, classified into categories I, IIA, and IIB according to Kenney and Doig, were compared using RNA sequencing, analyzed, and functionally annotated using in silico analysis. In the mild stage (IIA) of endometrosis compared to category I endometrium, differentially expressed genes (DEGs) were annotated to inflammation, abnormal metabolism, wound healing, and quantity of connective tissue. In the moderate stage (IIB) of endometrosis compared to category I endometrium, DEGs were annotated to inflammation, fibrosis, cellular homeostasis, mitochondrial dysfunction, and pregnancy disorders. Ingenuity pathway analysis (IPA) identified cytokines such as transforming growth factor (TGF)-ß1, interleukin (IL)-4, IL-13, and IL-17 as upstream regulators of DEGs associated with cellular homeostasis, metabolism, and fibrosis signaling pathways. In vitro studies showed the effect of these cytokines on DEGs such as ADAMTS1, -4, -5, -9, and HK2 in endometrial fibroblasts at different stages of endometrosis. The effect of cytokines on ADAMTS members' gene transcription in fibroblasts differs according to the severity of endometrosis. The identified transcriptomic changes associated with endometrosis suggest that inflammation and metabolic changes are features of mild and moderate stages of endometrosis. The changes of ADAMTS-1, -4, -5, -9, in fibrotic endometrium as well as in endometrial fibroblast in response to TGF-ß1, IL-4, IL-13, and IL-17 suggest the important role of these factors in the development of endometrosis.

Analysis of morphological disorders and ploidy in domestic cat blastocysts.

This study describes, for the first time, the relationship between morphology and ploidy in domestic cat embryos. Blastocyst morphology and quality were assessed using time-lapse recordings, while ploidy was analyzed using fluorescence in situ hybridization. Out of 54 blastocysts, clear fluorescence signals for all the molecular probes used were observed in 24 (44.4%) blastocysts, while in another 14 (25.9%) blastocysts, fluorescence signals only allowed for sex assessment. No clear signals were observed in the remaining 16 blastocysts (29.7%). Of the 24 blastocysts with clear signals, normal ploidy was detected in 10 (41.4%), 7 (29.2%) were diagnosed as haploid, and the remaining 7 blastocysts (29.2%) were mosaics. Additionally, results showed the distribution of diploid, haploid, and mosaic blastocysts in relation to the occurrence of morphological disorders and to embryo quality. The presence of abnormal embryo morphology and karyotype disorders may affect further development and the pregnancy rate. Due to the comparable proportion of good and poor quality blastocysts with disturbed ploidy, it is important to implement new methods of embryo assessment, especially when techniques used in humans, such as pronuclear observation, cannot be used.

Screening and detection of chromosomal copy number alterations in the domestic horse using SNP-array genotyping data.

Chromosomal abnormalities are a common cause of infertility in horses. However, they are difficult to detect using automated methods. Here, we propose a simple methodology based on single nucleotide polymorphism (SNP)-array data that allows us to detect the main chromosomal abnormalities in horses in a single procedure. As proof of concept, we were able to detect chromosomal abnormalities in 33 out of 268 individuals, including monosomies, chimerisms, and male and female sex-reversions, by analyzing the raw signal intensity produced by an SNP array-based genotyping platform. We also demonstrated that the procedure is not affected by the SNP density of the array employed or by the inbreeding level of the individuals. Finally, the methodology proposed in this study could be performed in an open bioinformatic environment, thus permitting its integration as a flexible screening tool in diagnostic laboratories and genomic breeding programs.

Severe asynapsis in spermatocytes of interspecific hybrids of the silver fox (Vulpes vulpes) and the blue fox (Alopex lagopus) leads to pachytene I arrest as a result of sustained H2AXγ phosphorylation.

Infertility is frequently associated with meiotic anomalies which can result in the production of chromosomally abnormal gametes or be concomitant with meiotic arrest. We investigated whether spermatocytes of male interspecific hybrids of the red fox (Vulpes vulpes) and the arctic fox (Alopex lagopus) presented alterations in chromosomal synapses and meiotic checkpoint signalling. Using the immunofluorescence technique with SP1 and SP3 proteins, bivalent structures and their deviations (multivalents, univalents and not fully conjugated bivalents) were analyzed on meiotic preparations. This technique allowed the localization of frequent foci of phosphorylated histones H2AHγ (Ser 139) to the meiotic block in late pachytene. These results indicate a disruption of meiotic division in male fox hybrids, which leads to a high percentage of apoptotic cells in the gonads of these animals and, consequently, sterility.

Methylation Marks of Blood Leukocytes of Native Hucul Mares Differentiated in Age.

Horses are one of the longest-living species of farm animals. Advanced age is often associated with a decrease in body condition, dysfunction of immune system, and late-onset disorders. Due to this, the search for new solutions in the prevention and treatment of pathological conditions of the advanced age of horses is desirable. That is why the identification of aging-related changes in the horse genome is interesting in this respect. In the recent years, the research on aging includes studies of age-related epigenetic effects observed on the DNA methylation level. We applied reduced representation bisulfite sequencing (RRBS) to uncover a range of age DMR sites in genomes of blood leukocytes derived from juvenile and aged horses of native Hucul breed. Genes colocated with age-related differentially methylated regions (age DMRs) are the members of pathways involved in cellular signal transduction, immune response, neurogenesis, differentiation, development, and cancer progression. A positive correlation was found between methylation states and gene expression in particular loci from our data set. Some of described age DMR-linked genes were also reported elsewhere. Obtained results contribute to the knowledge about the molecular basis of aging of equine blood cells.

Chondrogenic expression and DNA methylation patterns in prolonged passages of chondrocyte cell lines of the horse.

We investigated the activity of chondrogenic markers and variation of methylation patterns in equine cartilaginous cells cultivated in monolayer. The transcriptional and epigenetic effect of the long-term culture of chondrocytes has been evaluated using several passages of chondrocyte cell-lines derived from equine articular cartilage. Using 3 genes as endogenous control we tested the expression of 7 genes important for different stages of chondrocyte differentiation and maturation. CpG islands in RUNX3 locus were inspected for the evaluation of differential methylation state of passaged cell-lines. The general decline of transcript abundance of marker loci was detected in passage 11 which is the sign of dedifferentiation of cultivated chondrocytes in prolonged monolayer culture. Passages 13 and 14 were characterized by the upregulation of a number of genes, possibly due to the heterogeneity of developed cell lines at this stage of the culture. Instead, gradual increase of methylation percent at particular CpG sites of RUNX3 locus was associated with the growing number of passage. This finding led us to the conclusion that epigenetic alterations better describe the stage of cultivated chondrocytes.

Characterisation of genome-wide structural aberrations in canine mammary tumours using single nucleotide polymorphism (SNP) genotyping assay.

Characterisation of copy number variation (CNV) and loss of heterozygosity (LOH) has pro- vided evidence for the relationship of this type of genetic variation with the occurrence of a broad spectrum of diseases, including cancer lesions. The role of CNVs and germinal or somatic LOHs in canine mammary tumours is still unknown. Therefore, the aim of this study was to identify CNVs and LOHs in canine mammary tumours. Forty-eight samples obtained from normal (n=24) and tumour (n=24) tissues of dogs were analysed. In the study, we used CanineHD BeadChip assay (Illumina) and OncoSNP software to identify copy number alternations in genomes of dif- ferent dog breeds and in different mammary cancer types occurring in this species. The analyses revealed that, in the case of CNV, the amplification-type variants were longer and more frequent than deletions. Based on the analysis of the frequency of different types of aberrations in the in- dividual parts of the genome, regions that are particularly susceptible to structural aberrations were indicated. The fraction of genes identified within these regions was associated with major processes of neoplastic transformation. Association analysis of such traits as tumour grading as well as the size and age of dogs demonstrated that structural aberrations were more frequent in dogs diagnosed with tumour malignancy grade II and III, in dogs with a larger body size, and in large dogs aged 7-8. The promising results of these pioneering investigations prompt continuation thereof to analyse other types of cancer.

Diversifying selection signatures among divergently selected subpopulations of Polish Red cattle.

Polish Red cattle is one of the few indigenous breeds of European red cattle which is characterized by several desired features, such as high disease resistance, good health, longevity, good fertility, and high nutritional value of milk. Currently, Polish Red cattle population is a subject of two independent breeding programs: (i) improvement program and (ii) genetic resources conservation program. The aim of the improvement program is the genetic progress in terms of milk production and body conformation traits, while the conservation program mainly focuses on protection of the genetic resources of Polish Red cattle and preservation of the existing, original gene pool. By the analysis of FST genetic distances across genome-wide SNP panel, we detected diversifying selection signatures among these two subpopulations and indicated (among others) the significance of DGAT1 and FGF2 genes for milk production traits in these cattle. We also found that among genes being presumably under selection in terms of milk production, there are genes responsible, for example, for mammary gland development (e.g., SOSTDC1, PYGO2, MED1, and CCND1) and immune system response (e.g., IL10RA, IL12B, and IL21). The most important finding of this study is that the most pronounced genetic differences between the analyzed populations were associated with ß-defensin genes (e.g., DEFB1, DEFB4A, DEFB5, DEFB7, DEFB10, DEFB13, EBD, BNBD-6, and LAP) located within so-called bovine cluster D on BTA27. The ß-defensins are expressed mainly in the mammary gland and are antimicrobial peptides against the Gram-negative and Gram-positive bacteria, viruses, and other unicellular parasites. This suggests that antimicrobial resistance of mammary gland is of high importance during selection towards increased milk production and that genes responsible for this process are selected together with increasing levels of productivity.

DNA methylation patterns of the S100A14, POU2F3 and SFN genes in equine sarcoid tissues.

Genetic and epigenetic alterations in the equine sarcoid, a locally invasive skin tumour of equids, are still poorly characterized. Numerous studies have provided reliable evidence for the relationship between the development of cancer and the loss of function of a number of tumour suppressor genes. In the present study, we assessed methylation levels in the promoter region of SFN, S100A14 and POU2F3 genes in sarcoid samples to clarify whether DNA methylation may be associated with previously identified changes in the expression level of these genes during the course of tumour progression. Using bisulfite sequencing and clone sequencing, we detected that lesional samples had a significantly higher rate of DNA methylation in the analyzed S100A14A region than the corresponding normal skin tissue. A frequent methylation of the SFN and POU2F3 promoter sequences were observed in both the tumour samples and the control skin tissues. Further studies are needed to evaluate the role of aberrant methylation in sarcoid progression and to understand the mechanisms involved in reduced expression of SFN, S100A14 and POU2F3 genes in the lesional tissues.