Connexins (Cxs) are a group of gap junction proteins involved in the direct exchange of small molecules between neighboring cells. Information concerning the expression and regulation of Cxs in the chicken oviduct is lacking, but likely has potential implications for functioning of the oviduct and the quality of the egg laid by commercially used hens. The present study was designed to examine whether selected Cxs are present in the chicken oviduct and, if so, whether expression of the most abundant Cx changes following tamoxifen (TMX; estrogen receptor modulator) treatment. Hy-Line Brown laying hens were injected (s.c.) daily with a vehicle (n = 6) or with TMX (n = 6), at a dose of 6 mg/kg of body weight for 7 days until complete cessation of egg laying by TMX-treated hens. All oviductal segments (infundibulum, magnum, isthmus, shell gland, and vagina) were collected from hens on day 8 of the experiment. First, the gene expression of GJA1 (i.e. Cx43 protein), GJA4 (Cx39), GJB1 (Cx32), and GJD2 (Cx36) was investigated by real-time PCR in tissues of control birds. The results demonstrated gene- and oviductal segment-dependent expression of GJB1, GJD2, GJA4, and GJA1 mRNA. Since the GJA1 transcript was the most abundant in all oviductal parts, subsequently, the Cx43 expression and localization were examined in the oviduct of all hens. The relative expression of GJA1 mRNA in control hens was highest in the infundibulum and vagina and lowest in the magnum. The pattern of Cx43 protein abundance evaluated by Western blot was similar to that of mRNA. Treatment of hens with TMX decreased the GJA1 mRNA levels in the magnum and isthmus, and Cx43 protein abundances were reduced in the isthmus and vagina. Immunofluorescence demonstrated cell- and segment-dependent localization of Cx43 protein in the oviductal wall; the most intense immunoreactivity was observed in the muscle cells of the shell gland and vagina. In TMX-treated hens, the immunoreactivity for Cx43 in all oviductal segments was slightly reduced and had a different signal pattern compared with control chickens. These results suggest that Cx43 likely takes part in the regulation of oviduct functioning, especially in the coordination of muscle contraction required for egg transport and oviposition. In addition, the results suggest a contribution of estrogen in the regulation of Cx43 expression and/or fates in the chicken oviduct. New insights into the expression and regulation of Cxs in the hen oviduct, indicating their potential involvement in the mechanisms of egg formation and transport that may affect poultry production, were obtained in this study.
Keywords: Chicken; Cx43; Gap junction; Oviduct; Tamoxifen.
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