Estudo de associação genômica de prenhez pós-parto em vacas de corte

Foi avaliada a diversidade genética de nove marcadores moleculares, dos quais seis do tipo short tandem repeats - STR (BM4325, BMS3004, ILSTS002, IDVGA51, HEL5, AFZ1) e três do tipo single nucleotide polymorphisms - SNPs (LepSau3A1 A-B, LepSau3A1 1-2 e FSHRAlu1), ligados a genes envolvidos na reprodução e seus efeitos na performance reprodutiva. Foram examinadas amostras de sangue de 81 vacas sem raça definida, os animais foram classificados em dois grupos (vacas férteis e subférteis) baseado nas taxas de prenhez de duas estações reprodutivas. Alto nível de diversidade genética foi observado, revelando alto conteúdo de informação polimórfica, variando de 0,23 a 0,87 e heterozigosidade esperada de 27 a 89% com 62% em média. Os alelos mais frequentes foram BM4325 103*, BMS3004 129*, ILSTS002 137*, IDVGA51 177*, LEPSau3A1 A, LEPSau3A1 1, HEL5 149*, AFZ1 119* e FSHRAlu1 G. Os marcadores IDVGA51 e ILSTS002, ligados aos genes da leptina e LHβ, respectivamente, foram associados a performance reprodutiva. Esses dados suportam achados prévios que sugerem o potencial uso desses marcadores na seleção de animais com maior performance reprodutiva.The aim of this study was to evaluate genetic diversity of nine molecular markers, six short tandem repeats - STRs (BM4325, BMS3004, ILSTS002, IDVGA51, HEL5, AFZ1) and three single nucleotide polymorphisms (SNPs; LepSau3A1 A-B, LepSau3A1 1-2, and FSHRAlu1), linked to genes involved in reproductive function and their possible effect on reproductive performance. For this purpose, 81 crossbred beef cows were used in this study. The animals were classified into two groups (fertile and sub-fertile cows) based on their pregnancy status after two breeding seasons. High genetic diversity level was observed highlighted by the polymorphic content information ranging 0.23 to 0.87 and expected heterozygosity from 27 to 89%, with an average of 62%. Alleles BM4325 103, BMS3004 129, ILSTS002 137, IDVGA51 177, LEPSau3A1 A, LEPSau3A1 1, HEL5 149, AFZ1 119 and FSHRAlu1 G presented high frequencies. Two STRs (IDVGA51 and ILSTS002), linked to Leptin and LHβ genes, respectively, were associated to reproductive performance. These data support previous findings suggesting the potential use of IDVGA51 and ILSTS002 STRs for reproductive performance selection

Efficacy of the porcine species in biomedical research

Since domestication, pigs have been used extensively in agriculture and kept as companion animals. More recently they have been used in biomedical research, given they share many physiological and anatomical similarities with humans. Recent technological advances in assisted reproduction, somatic cell cloning, stem cell culture, genome editing and transgenesis now enable the creation of unique porcine models of human diseases. Here we highlight the potential applications and advantages of using pigs, particularly minipigs, as indispensable large animal models in fundamental and clinical research, including the development of therapeutics for inherited and chronic disorders, and cancers

NRF2 attenuation aggravates detrimental consequences of metabolic stress on cultured porcine parthenote embryos

Abstract The nuclear factor erythroid 2–related factor 2 (NRF2) is a crucial transcription factor that plays a central role in regulating oxidative stress pathways by binding antioxidant response elements, but its involvement in early embryo development remains largely unexplored. In this study, we demonstrated that NRF2 mRNA is expressed in porcine embryos from day 2 to day 7 of development, showing a decrease in abundance from day 2 to day 3, followed by an increase on day 5 and day 7. Comparable levels of NRF2 mRNA were observed between early-cleaving and more developmental competent embryos and late-cleaving and less developmental competent embryos on day 4 and day 5 of culture. Attenuation of NRF2 mRNA significantly decreased development of parthenote embryos to the blastocyst stage. When NRF2-attenuated embryos were cultured in presence of 3.5 mM or 7 mM glucose, development to the blastocyst stage was dramatically decreased in comparison to the control group (15.9% vs. 27.8% for 3.5 mM glucose, and 5.4% vs. 25.3% for 7 mM glucose). Supplementation of melatonin moderately improved the development of NRF2-attenuated embryos cultured in presence of 0.6 mM glucose. These findings highlight the importance of NRF2 in early embryo development, particularly in embryos cultured under metabolically stressful conditions

The histone lysine demethylase KDM7A is required for normal development and first cell lineage specification in porcine embryos

There is growing evidence that histone lysine demethylases (KDMs) play critical roles in the regulation of embryo development. This study investigated if KDM7A, a lysine demethylase known to act on mono-(me1) and di-(me2) methylation of H3K9 and H3K27, participates in the regulation of early embryo development. Knockdown of KDM7A mRNA reduced blastocyst formation by 69.2% in in vitro fertilized (IVF), 48.4% in parthenogenetically activated (PA), and 48.1% in somatic cell nuclear transfer (SCNT) embryos compared to controls. Global immunofluorescence (IF) signal in KDM7A knockdown compared to control embryos was increased for H3K27me1 on D7, for H3K27me2 on D3 and D5, for H3K9me1 on D5 and D7, and for H3K9me2 on D5 embryos, but decreased for H3K9me1, me2 and me3 on D3. Moreover, KDM7A knockdown altered mRNA expression, including the downregulation of KDM3C on D3, NANOG on D5 and D7, and OCT4 on D7 embryos, and the upregulation of CDX2, KDM4B and KDM6B on D5 embryos. On D3 and D5 embryos, total cell number and mRNA expression of embryo genome activation (EGA) markers (EIF1AX and PPP1R15B) were not affected by KDM7A knockdown. However, the ratio of inner cell mass (ICM)/total number of cells in D7 blastocysts was reduced by 45.5% in KDM7A knockdown compared to control embryos. These findings support a critical role for KDM7A in the regulation of early development and cell lineage specification in porcine embryos, which is likely mediated through the modulation of H3K9me1/me2 and H3K27me1/me2 levels, and changes in the expression of other KDMs and pluripotency genes

DNA Damage Induction Alters the Expression of Ubiquitin and SUMO Regulators in Preimplantation Stage Pig Embryos

DNA damage in early-stage embryos impacts development and is a risk factor for segregation of altered genomes. DNA damage response (DDR) encompasses a sophisticated network of proteins involved in sensing, signaling, and repairing damage. DDR is regulated by reversible post-translational modifications including acetylation, methylation, phosphorylation, ubiquitylation, and SUMOylation. While important regulators of these processes have been characterized in somatic cells, their roles in early-stage embryos remain broadly unknown. The objective of this study was to explore how ubiquitylation and SUMOylation are involved in the regulation of early development in porcine embryos by assessing the mRNA profile of genes encoding ubiquitination (UBs), deubiquitination (DUBs), SUMOylation (SUMOs) or deSUMOylation (deSUMOs) enzymes in oocyte and embryos at different stages of development, and to evaluate if the induction of DNA damage at different stages of embryo development would alter the mRNA abundance of these genes. Pig embryos were produced by in vitro fertilization and DNA damage was induced by ultraviolet (UV) light exposure for 10 s on days 2, 4 or 7 of development. The relative mRNA abundance of most UBs, DUBs, SUMOs, and deSUMOs was higher in oocytes and early-stage embryos than in blastocysts. Transcript levels for UBs (RNF20, RNF40, RNF114, RNF169, CUL5, DCAF2, DECAF13, and DDB1), DUBs (USP16), and SUMOs (CBX4, UBA2 and UBC9), were upregulated in early-stage embryos (D2 and/or D4) compared to oocytes and blastocysts. In response to UV-induced DNA damage, transcript levels of several UBs, DUBs, SUMOs, and deSUMOs decreased in D2 and D4 embryos, but increased in blastocysts. These findings revealed that transcript levels of genes encoding for important UBs, DUBs, SUMOs, and deSUMOs are regulated during early embryo development and are modulated in response to induced DNA damage. This study has also identified candidate genes controlling post-translational modifications that may have relevant roles in the regulation of normal embryo development, repair of damaged DNA, and preservation of genome stability in the pig embryo