Analysis of nuclear maturation, DNA damage and repair gene expression of bovine oocyte and cumulus cells submitted to ionizing radiation

Radiotherapy causes destruction of tumor cells, but also threatens the integrity and survival of surrounding normal cells. Then, woman submitted to irradiation for cancer treatment may present permanent ovary damage, resulting in impaired fertility. The objective of this study was to investigate the effects of therapeutic doses of ionizing radiation (IR), used for ovarian cancer treatment in humans, on bovine cumulus-oocyte complexes (COCs) as experimental model. Bovine ovaries were exposed to 0.9 Gy, 1.8 Gy, 3.6 Gy or 18.6 Gy IR, and then COCs were collected and used to evaluate: (a) oocyte nuclear maturation; (b) presence of phosphorylated H2A.X (γH2AX), as an indicator of DNA double-strand breaks (DSBs); and (c) expression of genes involved in DNA repair (TP53BP1, RAD52, ATM, XRCC6 and XRCC5) and apoptosis (BAX). The radiation doses tested in this study had no detrimental effects on nuclear maturation and did not increase γH2AX in the oocytes. However, IR treatment altered the mRNA abundance of RAD52 (RAD52 homolog, DNA repair protein) and BAX (BCL2-associated X protein). We conclude that although IR doses had no apparent effect on oocyte nuclear maturation and DNA damage, molecular pathways involved in DNA repair and apoptosis were affected by IR exposure in cumulus cells

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

Angiotensina-(1-7) durante o processo inicial na cascata da ovulação em bovinos Angiotensin-(1-7) during the initial process of ovulatory cascade in cattle

O presente estudo teve como objetivo avaliar o efeito da Ang-(1-7) e de seu receptor (MAS) na regulação da ovulação. No experimento I, utilizando um modelo in vitro de cultivo de células foliculares, foi avaliado o efeito do tratamento com Ang-(1-7) ou do bloqueio do receptor MAS através do inibidor d-Ala7-Ang-(1-7) (A-779) na expressão de RNAm para epirregulina (Ereg; um marcador inicial do processo de ovulação) em células da granulosa. No experimento II, foi utilizado um modelo in vivo de injeção intrafolicular no qual vinte vacas tiveram o ciclo estral sincronizado e, quando os folículos atingiram um diâmetro mínimo de 12mm, foi realizada a injeção intrafolicular de A-779 ou solução salina 0,9%. No momento da injeção intrafolicular, foi realizada uma aplicação IM de análogo de GnRH. A suplementação com Ang-(1-7) ou o bloqueio de seu receptor MAS em sistema de cultivo de células da granulosa não alteraram o padrão de expressão de RNAm para Ereg. A aplicação intrafolicular de A-779 (10-5M) não bloqueou a ovulação quando realizada antes do início do pico esperado de LH (100% das vacas ovularam nos grupos A-779 e controle), sugerindo que a Ang-(1-7) não possui papel relevante no início da cascata ovulatória em bovinos.This study aimed to evaluate the effect of Ang-(1-7) and its receptor (MAS) in the regulation of the ovulatory cascade. In the experiment I, the effect of Ang-(1-7) or d-Ala7-Ang-(1-7) (A-779; Ang-(1-7) antagonist) on the epirregulin (Ereg; initial marker of ovulation process) mRNA expression in granulosa cells was assessed using an in vitro model of follicular cell culture. In experiment II, it was used an in vivo intrafollicular injection model, in which twenty cows had their follicular waves synchronized and the ovarian follicular size was daily monitored by ultrasound. Follicles that reached a minimum diameter of 12mm were injected with A-779 or saline 0.9%. At the time of the intrafollicular injection, cows were challenged with an intramuscular application of GnRH analogue. Ang-(1-7) or the blockade of its receptor MAS had no effect in Ereg mRNA expression in granulosa cells cultured in vitro. Likewise, the intrafollicular injection of MAS receptor inhibitor (10-5M of A-779) did not block ovulation before the expected time of LH peak (100% of the cows ovulated after GnRH challenge in the treatment and control groups), suggesting that Ang-(1-7) has no role in the early ovulatory cascade in cattle