SOCS genes expression during physiological and perturbed implantation in bovine endometrium

Abstract

In mammals, suppressor of cytokine signalling (CISH, SOCS1 to SOCS7) factors control signalling pathways involved in the regulation of numerous physiological processes including pregnancy. In order to gain new insights into the biological functions of SOCS in the endometrium, a comprehensive analysis ofSOCSgene expression was carried out in bovine caruncular (CAR) and intercaruncular (ICAR) tissues collected i) during the oestrous cycle, ii) at the time of maternal recognition of pregnancy and at implantation in inseminated females, iii) following uterine interferon-tau (IFNT) infusion at day 14 post-oestrus, iv) following a period of controlled intravaginal progesterone release and v) following transfer of embryos by somatic-cell nuclear transfer (SCNT). The regulatory effects of IFNT onin vitrocultured epithelial and stromal cells were also examined. Altogether, our data showed thatCISH,SOCS4,SOCS5andSOCS7mRNA levels were poorly affected during luteolysis and pregnancy. In contrast,SOCS1,SOCS2,SOCS3andSOCS6mRNA levels were strongly up-regulated at implantation (day 20 of pregnancy). Experimentalin vitroandin vivomodels demonstrated that onlyCISH,SOCS1,SOCS2andSOCS3were IFNT-induced genes. Immunohistochemistry showed an intense SOCS3 and SOCS6 staining in the nucleus of luminal and glandular epithelium and of stromal cells of pregnant endometrium. Finally,SOCS3expression was significantly increased in SCNT pregnancies in keeping with the altered immune function previously reported in this model of compromised implantation. Collectively, our data suggest that spatio-temporal changes in endometrialSOCSgene expression reflect the acquisition of receptivity, maternal recognition of pregnancy and implantation.Free French abstractA French translation of this abstract is freely available athttp://www.reproduction-online.org/content/148/6/545/suppl/DC1.