한국발생생물학회지:발생과생식 (Development and Reproduction)

  • 제20권4호
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  • Pages.349-357
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  • 2016
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  • 2465-9525(pISSN)
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  • 2465-9541(eISSN)
한국발생생물학회 (The Korean Society of Developmental Biology)
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Effects of Exposure to Estradiol Benzoate or Flutamide at the Weaning Age on Expression of Connexins in the Caudal Epididymis of Adult Rat

  • Lee, Ki-Ho (Department of Biochemistry and Molecular Biology, College of Medicine, Eulji University)
  • 투고 : 2016.10.24
  • 심사 : 2016.12.17
  • 발행 : 2016.12.31
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초록

The present research was chiefly designed to determine the effect of the treatment of estrogenic agonist, estradiol benzoate (EB), or antiandrogenic compound, flutamide (Flu), at the weaning age on the expression of connexin (Cx) isoforms in the caudal epididymis of adult male rat. Animals were subcutaneously administrated with a single shot of either EB at a low-dose ($0.015{\mu}g$ of EB/kg body weight (BW)) or a high-dose ($1.5{\mu}g$ of EB/kg BW) or Flu at a low-dose ($500{\mu}g$ of EB/kg BW) or a high-dose (5 mg of EB/kg BW). Expressional changes of Cx isoforms in the adult caudal epididymis were examined by quantitative real-time PCR analysis. The treatment of a low-dose EB caused significant increases of Cx30.3, Cx31, Cx32, and Cx43 transcript levels but reduction of Cx31.1, Cx37, and Cx45 expression. Exposure to a high-dose EB resulted in very close responses observed in a low-dose EB treatment, except no significant expressional change of Cx37 and a significant induction of Cx40. Expression of all Cx isoforms, except Cx45, was significantly increased by a low-dose Flu treatment. Expressional increases of all Cx isoforms were detected by a high-dose Flu treatment. The current study demonstrates that a single exposure to estrogenic or antiandrogenic compound during the early postnatal developmental period is sufficient to disrupt normal expression of Cx isoforms in the adult caudal epididymis.

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참고문헌

  1. Atanassova N, McKinnell C, Williams K, Turner KJ, Fisher JS, Saunders PT, Millar MR, Sharpe RM (2001) Age-, cell- and region-specific immunoexpression of estrogen receptor alpha (but not estrogen receptor beta) during postnatal development of the epididymis and vas deferens of the rat and disruption of this pattern by neonatal treatment with diethylstilbestrol. Endocrinology 142:874-886. https://doi.org/10.1210/endo.142.2.7978
  2. Cry DG (2011) Connexins and pannexins: Coordinating cellular communication in the testis and epididymis. Spermatogenesis 1:325-338. https://doi.org/10.4161/spmg.1.4.18948
  3. Cyr DG, Hermo L, Laird DW (1996) Immunocytochemical localization and regulation of connexin43 in the adult rat epididymis. Endocrinology 137:1474-1484. https://doi.org/10.1210/endo.137.4.8625926
  4. Goodenough DA. and Paul DL (2009) Gap junctions. Cold Spring Harb Perspect Biol 1:a003061.
  5. Gorowska E, Zarzycka M, Chojnacka K, Bilinska B, Hejmej A (2014) Postnatal exposure to flutamide affects CDH1 and CTNNB1 gene expression in adult pig epididymis and prostate and alters metabolism of testosterone. Andrology 2:186-197. https://doi.org/10.1111/j.2047-2927.2013.00172.x
  6. Hermoso M, Saez JC, Villalon M (1997) Identification of gap junctions in the oviduct and regulation of connexins during development and by sexual hormones. Eur J Cell Biol 74:1-9.
  7. Lawrence TS, Beers WH, Gilula NB (1978) Transmission of hormonal stimulation by cell-to-cell communication. Nature 272:501-506. https://doi.org/10.1038/272501a0
  8. Lee K-H (2013) Differential expression of multiple connexins in rat corpus and cauda epididymis at various postnatal stages. J Ani Sci Tech 55:521-530. https://doi.org/10.5187/JAST.2013.55.6.521
  9. Lee K-H (2014) Expressional modulation of connexin isoforms in the initial segment of male rat treated with estradiol benzoate or flutamide. Dev Reprod 18:293-300. https://doi.org/10.12717/DR.2014.18.4.293
  10. Lee K-H (2015a) Exogenous exposure to estradiol benzoate or flutamide at the weaning age alters expression of connexin isoforms in the initial segment of male rat. Dev Reprod 19:43-51. https://doi.org/10.12717/DR.2015.19.1.043
  11. Lee K-H (2015b) Modification of gene expression of connexins in the rat corpus epididymis by estradiol benzoate or flutamide exposure at the early neonatal age. Dev Reprod 19:69-77. https://doi.org/10.12717/DR.2015.19.2.069
  12. Lee K-H (2016) Changes in expression of connexin isoforms in the caudal epididymis of adult Sprague-Dawley rats exposed to estradiol benzoate or flutamide at the neonatal age. Dev Reprod 20:237-245. https://doi.org/10.12717/DR.2016.20.3.237
  13. Putz O, Schwartz CB, LeBlanc GA, Cooper RL, Prins GS (2001) Neonatal low- and high-dose exposure to estradiol benzoate in the male rat: II. Effects on male puberty and the reproductive tract. Biol Reprod 65:1506-1517. https://doi.org/10.1095/biolreprod65.5.1506
  14. Seo H-H, Seon C-W, Choi I, Cheon Y-P, Cheon T-H, LeeK-H (2010) Expressional profiling of connexin isoforms in the initial segment of the male reproductive tract during postnatal development. Reprod Dev Biol 34:103-109.
  15. Robaire B, Hermo L (1988) Efferent ducts, epididymis, and vas deferens: structure, functions, and their regulation. In: Knobil E et al (eds.). The Physiology of Reproduction. Raven Press, New York, NY, pp 999-1080.
  16. Robaire B, Hinton BT, Orgebin-Crist MC (2006) The epididymis. In: Knobil E and Neil J (eds.) The Physiology of Reproduction, Elsevier, New York, NY pp 1071-1148.
  17. St-Pierre N, Dufresne J, Rooney AA, Cyr DG (2003) Neonatal hypothyroidism alters the localization of gap junctional protein connexin 43 in the testis and messenger RNA levels in the epididymis of the rat. Biol Reprod. 68:1232-1240. https://doi.org/10.1095/biolreprod.102.010504
  18. Valiunas V, Polosina YY, Miller H, Potapova IA, Valiuniene L, Doronin S, Mathias RT, Robinson RB, Rosen MR, Cohen IS, Brink PR (2005) Connexin-specific cell-to-cell transfer of short interfering RNA by gap junctions. J Physiol 568:459-468. https://doi.org/10.1113/jphysiol.2005.090985
  19. You L, Sar M (1998) Androgen receptor expression in the testes and epididymides of prenatal and postnatal Sprague-Dawley rats. Endocrine 9:253-261. https://doi.org/10.1385/ENDO:9:3:253