Monika Stachowiak

Genetics of fat tissue accumulation in pigs: a comparative approach

Fatness traits are important in pig production since they influence meat quality and fattening efficiency. On the other hand, excessive fat accumulation in humans has become a serious health problem due to worldwide spread of obesity. Since the pig is also considered as an animal model for numerous human diseases, including obesity and metabolic syndrome, comparative genomic studies may bring new insights into genetics of fatness/obesity. Input of genetic factors into phenotypic variability of these traits is rather high and the heritability coefficient (h2) of these traits oscillates around 0.5. Genome scanning revealed the presence of more than 500 QTLs for fatness in the pig genome. In addition to QTL studies, many candidate gene polymorphisms have been analyzed in terms of their associations with pig fatness, including genes encoding leptin (LEP) and its receptor (LEPR), insulin-like growth factor 2 (IGF-2), fatty acid-binding proteins (FABP3 andFABP4), melanocortin receptor type 4 (MC4R), and theFTO (fat mass and obesity-associated) gene. Among them, a confirmed effect on pig fatness was found for a well-known polymorphism of theIGF-2 gene. In humans the strongest association with predisposition to obesity was shown for polymorphism of theFTO gene, while in pigs such an association seems to be doubtful. The development of functional genomics has revealed a large number of genes whose expression is associated with fat accumulation and lipid metabolism, so far not studied extensively in terms of the association of their polymorphism with pig fatness. Recently, epigenomic mechanisms, mainly RNA interference, have been considered as a potential source of information on genetic input into the fat accumulation process. The rather limited progress in studies focused on the identification of gene polymorphism related with fatness traits shows that their genetic background is highly complex.

SNPs in the porcine PPARGC1a gene: interbreed differences and their phenotypic effects.

Due to its function, the peroxisome proliferative activated receptor-γ, coactivator-1α (PPARGC1A) gene is a candidate in the search for genes that may affect production traits in the pig. The purpose of this study was to screen for new SNPs in exon 8 of the porcine PPARGC1A gene and to test their possible association with production traits. Altogether 736 pigs representing five breeds Polish Landrace, n=242; Polish Large White, n=192; Hampshire, n=27; Duroc, 21; Pietrain, n=12) and synthetic line 990 (n=242) were scanned via SSCP assay. Four SNPs were found; two new ones: C/G (His338Gln) and G/A Thr359Thr), and two previously reported ones: C/A (Arg369Arg) and T/A Cys430Ser). The missense T/A and C/G SNPs demonstrated pronounced interbreed variability in terms of allele frequencies, including the exclusive presence of the C/G substitution in the Hampshire breed. The tested SNPs occurred in five putative haplotypes, and their frequency also differed substantially between breeds. The association of the SNPs with production traits was tested for G/A (Thr359Thr), C/A (Arg369Arg) and T/A (Cys430Ser) substitutions in Polish Large White, Polish Landrace and line 990. The analysis revealed only breed-specific associations. The T/A (Cys430Ser) SNP was related to the feed conversion ratio in the Polish Large White (P=0.02), and the silent G/A and C/A substitutions were respectively associated with abdominal fat in line 990 and backfat thickness in Polish Landrace (P=0.04). The combined effects of the substitutions were estimated as haplotype effects. Three significant contrasts between haplotypes were calculated, but the observed associations were again only breed-specific.

Polymorphism of the Porcine Leptin Gene Promoter and Analysis of Its Association with Gene Expression and Fatness Traits

We describe for the first time a 245 bp fragment of the porcine leptin gene promoter in the proximity of the transcription start site. Altogether, 720 pigs were screened with the PCR-SSCP technique for polymorphism in this region. Four SNPs, segregating as two haplotypes, have been identified, one of them (C113G) in the putative consensus site for the AP-2 transcription factor. This polymorphism was evenly distributed in the Duroc breed (n=21) and was absent in the Polish Landrace (n=248) and Pietrain breed (n=12). In the Polish Large White (n=191) and synthetic line 990 (n=243), allele G occurred with a very low frequency. The investigation was performed to test if the C113G SNP affects leptin mRNA level in subcutaneous fat and leptin protein concentration in serum. Additionally, the effect of this polymorphism on fatness traits was statistically analyzed. Although there was a trend toward decreased expression in GG animals, the differences were not significant between genotypes. We also found no evidence for an association of the LEP promoter genotype with the analyzed fatness traits.

Cytogenetic mapping of DGAT1, PPARA, ADIPOR1 and CREB genes in the pig.

In the present study we show FISH localization of 4 porcine BAC clones harbouring potential candidate genes for fatness traits:DGAT1 (SSC4p15),PPARA (SSC5p15),ADIPOR1 (SSC10p13) andCREB (SSC15q24). Until now theCREB andADIPOR1 genes are considered to be monomorphic,DGAT1 is highly polymorphic, while for thePPARA gene only 1 SNP was identified. Assignment of the studied genes in relation to QTL chromosome regions for meat quality in pig chromosomes SSC4, SSC5, SSC10 and SSC15 is discussed.

Association of a New SNP in Promoter Region of the Porcine FABP3 Gene with Fatness Traits in a Polish Synthetic Line

Associations between FABP3 (alternatively named H-FABP) gene polymorphisms and fatness traits were tested in two pig breeds (Polish Large White and Polish Landrace) and one synthetic line—990. Three known single nucleotide polymorphisms, detected by HinfI, MspI and HaeIII restriction enzymes, were analyzed. Moreover, three new polymorphisms in the 5′ regulatory region were identified: C(–221)T, C(–160)G and T(−158)G, but only the third one was widely distributed and correlated with backfat thickness in line 990. The obtained results suggest that the FABP3 gene is linked with an unknown gene directly affecting backfat thickness, but the analyzed polymorphisms do not influence fatness traits.

The ACACA and SREBF1 genes are promising markers for pig carcass and performance traits, but not for fatty acid content in the longissimus dorsi muscle and adipose tissue.

Among functional and positional candidate genes for pig fatness traits, there are genes encoding acetyl-CoA carboxylase alpha (ACACA) and sterol regulatory element binding transcription factor 1 (SREBF1). In our study, 5 known and 2 novel SNPs in the ACACA gene and 2 known and 6 novel polymorphisms in the SREBF1 were found. The SNPs segregated as 6 and 10 haplotypes in ACACA and SREBF1, respectively. Two SNPs in ACACA were associated with fatness and performance traits in Polish breeds. In the SREBF1 gene, two novel SNPs were associated with daily gain and one, within a potential intronic micro-RNA gene, showed an association with fatness traits. Breed-specific differences in the transcript level were observed for ACACA only. No correlation between the transcript levels and fatty acid compositions was found in muscle and fat tissues. We concluded that polymorphisms of the ACACA and SREBF1 genes are promising markers for pig carcass and performance traits.

Genetics of Adiposity in Large Animal Models for Human Obesity—Studies on Pigs and Dogs

The role of domestic mammals in the development of human biomedical sciences has been widely documented. Among these model species the pig and dog are of special importance. Both are useful for studies on the etiology of human obesity. Genome sequences of both species are known and advanced genetic tools [eg, microarray SNP for genome wide association studies (GWAS), next generation sequencing (NGS), etc.] are commonly used in such studies. In the domestic pig the accumulation of adipose tissue is an important trait, which influences meat quality and fattening efficiency. Numerous quantitative trait loci (QTLs) for pig fatness traits were identified, while gene polymorphisms associated with these traits were also described. The situation is different in dog population. Generally, excessive accumulation of adipose tissue is considered, similar to humans, as a complex disease. However, research on the genetic background of canine obesity is still in its infancy. Between-breed differences in terms of adipose tissue accumulation are well known in both animal species. In this review we show recent advances of studies on adipose tissue accumulation in pigs and dogs, and their potential importance for studies on human obesity.

The first case of 38,XX (SRY-positive) disorder of sex development in a cat

BackgroundSRY-positive XX testicular disorder of sex development (DSD) caused by X;Y translocations was not yet reported in domestic animals. In humans it is rarely diagnosed and a majority of clinical features resemble those which are typical for Klinefelter syndrome (KS). Here we describe the first case of SRY-positive XX DSD in a tortoiseshell cat with a rudimentary penis and a lack of scrotum.ResultsMolecular analysis showed the presence of two Y-linked genes (SRY and ZFY) and a normal sequence of the SRY gene. Application of classical cytogenetic techniques revealed two X chromosomes (38,XX), but further FISH studies with the use of the whole X chromosome painting probe and BAC probes specific to the Yp chromosome facilitated identification of Xp;Yp translocation. The SRY gene was localised at a distal position of Xp. The karyotype of the studied case was described as: 38,XX.ish der(X)t(X;Y)(p22;p12)(SRY+). Moreover, the X inactivation status assessed by a sequential R-banding and FISH with the SRY-specific probe showed a random inactivation of the derivative XSRY chromosome.ConclusionsOur study showed that among DSD tortoiseshell cats, apart from XXY trisomy and XX/XY chimerism, also SRY-positive XX cases may occur. It is hypothesized that the extremely rare occurrence of this abnormality in domestic animals, when compared with humans, may be associated with a different organisation of the Yp arm in these species.

Porcine familial adenomatous polyposis model enables systematic analysis of early events in adenoma progression

We compared gene expression in low and high-grade intraepithelial dysplastic polyps from pigs carrying an APC1311 truncating mutation orthologous to human APC1309, analysing whole samples and microdissected dysplastic epithelium. Gene set enrichment analysis revealed differential expression of gene sets similar to human normal mucosa versus T1 stage polyps. Transcriptome analysis of whole samples revealed many differentially-expressed genes reflecting immune infiltration. Analysis of microdissected dysplastic epithelium was markedly different and showed increased expression in high-grade intraepithelial neoplasia of several genes known to be involved in human CRC; and revealed possible new roles for GBP6 and PLXND1. The pig model thus facilitates analysis of CRC pathogenesis.

Altered microRNA profiles during early colon adenoma progression in a porcine model of familial adenomatous polyposis

MicroRNAs are dysregulated in various cancers including colorectal cancer, and are potential useful biomarkers of disease development. We used next generation sequencing to investigate miRNA expression profiles in low- and high-grade intraepithelial dysplastic polyps from pigs carrying a mutation in the adenomatous polyposis coli tumour suppressor (APC1311, orthologous to human APC1309) that model an inherited predisposition to colorectal cancer, familial adenomatous polyposis. We identified several miRNAs and their isomiRs significantly (P < 0.05) differentially expressed between low and high-grade intraepithelial dysplastic polyps. Of these, ssc-let-7e, ssc-miR-98, ssc-miR-146a-5p, ssc-miR-146b, ssc-miR-183 and ssc-miR-196a were expressed at higher level and ssc-miR-126-3p at lower level in high-grade intraepithelial dysplastic polyps. Functional miRNA target analysis revealed significant (P < 0.001) over-representation of cancer-related pathways, including ‘microRNAs in cancer’, ‘proteoglycans in cancer’, ’pathways in cancer’ and ‘colorectal cancer’. This is the first study to reveal miRNAs associated with premalignant transformation of colon polyps.