15 Blastocysts altered CDX2 and SOX2 gene expression and pregnancy failure after embryo transfer in yak heterospecific somatic cell nuclear transfer
M. Y. Felipe A B , M. D. Rodríguez A , L. D. Ratner A , A. De Stéfano A , A. M. Valdez C and D. F. Salamone AA Laboratorio de Biotecnología Animal, FAUBA/INPA-CONICET, Buenos Aires, Argentina;
B Programa Nacional de Innovación Agraria (PNIA), Lima, Perú;
C Valdez & Laurenti, Buenos Aires, Argentina
Reproduction, Fertility and Development 33(2) 115-115 https://doi.org/10.1071/RDv33n2Ab15
Published: 8 January 2021
Abstract
Heterospecific cloning is a tool for the genetic rescue of endangered animals. Our objective was to evaluate the effects of heterospecific yak (Bos grunniens) cloned embryo aggregation on the expression levels of NANOG, OCT4, CDX2, and SOX2 genes, and to compare with IVF, parthenogenetic zona-free (P-ZF), and homospecific bovine cloned embryos (BB1x). Oocytes were recovered from the ovaries of slaughtered cows and in vitro matured for 22 h. The zona pellucida was removed by protease treatment and then mature oocytes were enucleated by micromanipulation. Enucleated oocytes were placed in phytohemagglutinin to induce adherence with a somatic donor cell followed by electrofusion (with two 30-µs pulses of 1.2 kV/cm, 0.1 s apart). Two hours after fusion, reconstructed embryos were activated using ionomycin followed by 6-(dimethylamino)purine (6-DMAP) treatment for 3 h and cultured in synthetic oviductal fluid (SOF) medium for 7 days. The experimental groups were IVF, P-ZF, BB1x, heterospecific yak-bovine cloned embryos (1 embryo per microwell, YB1x), and heterospecific yak-bovine cloned embryos aggregated (2 embryos per microwell, YB2x). In all experimental groups, cleavage and blastocyst rates were assessed 7 days after activation. In addition, 5 blastocysts were pooled for each biological replicate, and pluripotency-specific genes (NANOG, SOX2, CDX2, and OCT4) were analysed by quantitative PCR. Data were analysed by the ΔΔCT method using the geometric mean of ACTB (actin) and GAPDH as internal standard followed by one-way ANOVA. Cleavages rates were significantly lower in the YB1x group compared with the other groups. Moreover, blastocyst rates in YB2x (31.34%, n = 67) were significantly higher than in YB1x (13.86%, n = 101) and BB1x (13.33%, n = 45) groups, but there were no significant differences compared with the IVF (43.82%, n = 89) and P-ZF (25%, n = 68) groups. In contrast, although no significant differences were observed among groups in the expression of NANOG and OCT4 genes, the expression of CDX2 was lower in YB2x and YB1x blastocysts compared with the BB1X, P-ZF, and IVF (control) groups. In addition, a decrease in SOX2 gene expression was observed in the YB2x and YB1x blastocysts compared with the BB1X group. Blastocysts from YB1x (n = 5) and YB2x (n = 18) groups were transferred to recipient cows (n = 23) on Day 7. Forty days after embryo transfer, presence of uterine fluid was detected by ultrasound in 3 recipient cows (from YB2x), suggesting embryo loss. In concordance with our previous reports, yak heterospecific SCNT blastocysts showed underexpression of CDX2 and SOX2 compared with the overexpression observed for these genes in bovine homospecific SCNT blastocysts. Thus, yak heterospecific SCNT blastocysts may have compromised developmental competence associated with altered expression of CDX2 and SOX2 that cannot be rescued by the aggregation of 2 reconstructed embryos.
