In vivo effect of 17-β-estradiol, progesterone, hCG and expression of P53 and P21 in endometrial Ishikawa cells

Faruk Abıke; Canan Aslan; Gokhan Kılıc; Meral Koyuturk; Gozde Koksal; Nedret Altıok; Melike Ersoz

doi:10.4236/ojog.2013.31020

Open Journal of Obstetrics and Gynecology > Vol.3 No.1, January 2013

In vivo effect of 17-β-estradiol, progesterone, hCG and expression of P53 and P21 in endometrial Ishikawa cells

Faruk Abıke, Canan Aslan, Gokhan Kılıc, Meral Koyuturk, Gozde Koksal, Nedret Altıok, Melike Ersoz
Department of Obstetrics and Gynecology, Florence Nightingale Kadikoy Hospital, Istanbul, Turkey.
Division of Gynecology, Department of Obstetrics and Gynecology, University of Texas Medical Branch, Galveston, USA.
Istanbul Bilim University, Institute of Health Sciences, Department of Histology & Embryology, Istanbul, Turkey.
DOI: 10.4236/ojog.2013.31020 PDF HTML XML 3,626 Downloads 5,383 Views Citations

Abstract

The following article has been retracted due to the investigation of complaints received against it. The Editorial Board found that the first author published the paper without other authors’ consent and approval. The scientific community takes a very strong view on this matter, and the OJOG treats such behavior seriously. This paper published in Vol. 3 No. 1, 105-110 (pages), 2013, has been removed from this site.

Keywords

Ishikawa cells; 17-β-estradiol; Progesterone; hCG; P53; P21; Endometrium

Share and Cite:

Abıke, F. , Aslan, C. , Kılıc, G. , Koyuturk, M. , Koksal, G. , Altıok, N. and Ersoz, M. (2013) In vivo effect of 17-β-estradiol, progesterone, hCG and expression of P53 and P21 in endometrial Ishikawa cells. Open Journal of Obstetrics and Gynecology, 3, 105-110. doi: 10.4236/ojog.2013.31020.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1]	Bergeron, C. (2002) Effect of estrogens and antiestrogens on the endometrium. Gynécologie Obstétrique & Fertilité, 30, 933-937. doi:10.1016/S1297-9589(02)00486-1
[2]	Fanchin, R., Peltier, E., Frydman, R. and de Ziegler, D. (2001) Human chorionic gonadotropin: Does it affect human endometrial morphology in vivo? Seminars in Reproductive Medicine, 19, 31-35. doi:10.1055/s-2001-13908
[3]	Matsumoto, K., Moriuchi, T., Koji, T. and Nakane, P.K. (1987) Molecular cloning of cDNA coding for rat proliferating cell nuclear antigen (PCNA)/cyclin. The EMBO Journal, 6, 637-642.
[4]	Baserga, R. (1991) Growth regulation of the PCNA gene. Journal of Cell Science, 98, 433-436.
[5]	Celis, J.E. and Madsen, P. (1986) Increased nuclear cyclin/ PCNA antigen staining of non S-phase transformed human amnion cells engaged in nucleotide excision DNA repair. FEBS Letters, 209, 277-283. doi:10.1016/0014-5793(86)81127-9
[6]	Hegele-Hartung, C., Mootz, U. and Beier, H.M. (1992) Luteal control of endometriyal receptivity and its modification by progesterone antagonists. Endocrinology, 131, 2446-2460. doi:10.1210/en.131.5.2446
[7]	Coskun, M. and Coskun, M. (2003) Biological dosimeter and related developments. Cerrahpasa Journal of Medicine, 34, 207-218.
[8]	Durmaz, R. and Vural, M. (2007) Genetics in primary and secondary glioblastoma. Turk Norosirurji Dergisi, 17, 80-90.
[9]	Sherr, C.J. (1996) Cancer cell cycles. Science, 274, 1672-1677. doi:10.1126/science.274.5293.1672
[10]	Ay, M.E., Terzioglu, O., Terzi, C. and Izci Ay, O. (2006) Kolorektal kanserlerde, P21, p27, p57 siklin bagimli kinaz inhibitor geni (CDKI) ekspresyonlarrinin degerlendirilmesi. Akademik Gastroenteroloji Dergisi, 5, 20-25.
[11]	LaBaer, J., Garrett, M.D., Stevenson, L.F., Slingerland, J.M., Sandhu, C., Chou, H.S. et al. (1997) New functional activities for the P21 family of CDK inhibitors. Genes & Development, 11, 847-862. doi:10.1101/gad.11.7.847
[12]	Dotto, G.P. (2000) P21(WAF1/Cip1): More than a break to the cell cycle? Biochim Biophys Acta, 1471, 43-56.
[13]	Tsihlias, J., Kapusta, L. and Slingerland, J. (1999) The prognostic significance of altered cyclin-dependent kinase inhibitors in human cancer. Annual Review of Medicine, 50, 401-423. doi:10.1146/annurev.med.50.1.401
[14]	Heneweer, C., Schmidt, M., Denker, H.W. and Thie, M. (2005) Molecular mechanisms in uterine epithelium during trophoblast binding: The role of small GTPase RhoA in human uterine Ishikawa cells. Journal of Experimental & Clinical Assisted Reproduction, 2, 4. doi:10.1186/1743-1050-2-4
[15]	Nishida, M. (2002) The Ishikawa cells from birth to the present. Human Cell, 15, 104-117. doi:10.1111/j.1749-0774.2002.tb00105.x
[16]	Croxtall, J.D., Elder, M.G. and White, J.O. (1990) Hormonal control of proliferation in the Ishikawa endometriyal adenocarcinoma cell line. Journal of Steroid Biochemistry, 35, 665-669. doi:10.1016/0022-4731(90)90306-D
[17]	Kayisli, U.A., Aksu, C.A.H., Berkkanoglu, M. and Arici, A. (2002) Estrogenicity of isoflavones on human endometriyal stromal and glandular Cells. The Journal of Clinical Endocrinology & Metabolism, 87, 5539-5544.
[18]	Shiozawa, T., Horiuchi, A., Kato, K., Obinata, M., Konishi, I., Fujii, S. and Nikaido, T. (2001) Up-regulation of p27Kip1 by progestins is involved in the growth suppression of the normal and malignant human endometriyal glandular cells. Endocrinology, 142, 4182-4188. doi:10.1210/en.142.10.4182
[19]	Taskin, S., Ozmen, B. and ünlü, C. (2006) Therapeutic use of the levonorgestrel releasing intrauterine system. Journal of the Turkish German Gynecological Association, 7, 63-67.
[20]	Wolkersdorfer, G.W., Bornstein, S.R., Hilbers, U., Zimmermann, G., Biesold, C., Lehmann, M., et al. (1998) The presence of chorionic gonadotrophin beta subunit in normal cyclic human endometriyum. Molecular Human Reproduction, 4, 179-184. doi:10.1093/molehr/4.2.179
[21]	Lei, Z.M., Reshef, E. and Rao, V. (1992) The expression of human chorionic gonadotropin/luteinizing hormone receptors in human endometriyal and myometrial blood vessels. The Journal of Clinical Endocrinology & Metabolism, 75, 651-659. doi:10.1210/jc.75.2.651
[22]	Kornyei, J.L., Lei, Z.M. and Rao, C.V. (1993) Human myometrial smooth muscle cells are novel targets of direct regulation by human chorionic gonadotropin. Biology of Reproduction, 49, 1149-1157. doi:10.1095/biolreprod49.6.1149
[23]	Prapas, N., Tavaniotou, A., Panagiotidis, Y., Prapa, S., Kasapi, E., et al. (2009) Low-dose human chorionic gonadotropin during the proliferative phase may adversely affect endometrial receptivity in oocyte recipients. Gynecological Endocrinology, 25, 53-59. doi:10.1080/09513590802360769
[24]	Stevenson, A.F. (2000) Human granulosa cells in vitro: Characteristics of growth, morphology and influence of some cytokines on steroidogenesis. Indian Journal of Experimental Biology, 38, 1183-1191.
[25]	Smith, M.L. and Seo, Y.R. (2002) P53 regulation of DNA excision repair pathways. Mutagenesis, 17, 149-156. doi:10.1093/mutage/17.2.149
[26]	Maia Jr., H., Maltez, A., Studart, E., Athayde, C. and Coutinho, E.M. (2004) Ki-67, Bcl-2 and P53 expression in endometriyal polyps and in the normal endometriyum during the menstrual cycle. British Journal of Obstetrics and Gynaecology, 111, 1242-1247. doi:10.1111/j.1471-0528.2004.00406.x
[27]	Isaksson, E., Cline, J.M., Skoog, L., Soderqvist, G., Wilking, N., von Schoultz, E., et al. (1999) P53 expression in breast and endometriyum during estrogen and tamoxifen treatment of surgically postmenopausal cynomolgus macaques. Breast Cancer Research and Treatment, 53, 61-67. doi:10.1023/A:1006172025349
[28]	Herr, D., Keck, C., Tempfer, C. and Pietrowski, D. (2004) Chorionic gonadotropin regulates the transcript level of VHL, P53, and HIF-2alpha in human granulosa lutein cells. Molecular Reproduction and Development, 69, 397-401.
[29]	Yaron, Y., Schwartz, D., Evans, M.I., Aloni, R., Kapon, A. and Rotter, V. (1999) P53 tumor suppressor gene expression in the mouse ovary during an artificially induced ovulatory cycle. Journal of Reproductive Medicine, 44, 107-114.
[30]	Wang, H.B., Lu, S.H., Lin, Q.X., Feng, L.X., Li, D.X., Duan, C.M., et al. (2010) Reconstruction of endometrium in vitro via rabbit uterine endometrial cells expanded by sex steroid. Fertility and Sterility, 93, 2385-2395. doi:10.1016/j.fertnstert.2009.01.091
[31]	Chiang, C.H., Cheng, K.W., Igarashi, S., Nathwani, P.S. and Leung, P.C. (2000) Hormonal regulation of estrogen receptor alpha and beta gene expression in human granulosa-luteal cells in vitro. The Journal of Clinical Endocrinology & Metabolism, 85, 3828-3839. doi:10.1210/jc.85.10.3828
[32]	Karlsson, S., Iatropoulos, M.J., Williams, G.M., Kangas, L. and Nieminen, L. (1998) The proliferation in uterine compartments of intact rats of two different strains exposed to high doses of tamoxifen or toremifene. Toxicologic Pathology, 26, 759-768. doi:10.1177/019262339802600608
[33]	El-Deiry, W.S., Tokino, T., Velculescu, V.E., Levy, D.B., Parsons, R., Trent, J.M., et al. (1993) WAF1, a potential mediator of P53 tumor suppression. Cell, 75, 817-825. doi:10.1016/0092-8674(93)90500-P
[34]	Zhang, H., Hannon, G.J. and Beach, D. (1994) P21-containing cyclin kinases exist in both active and inactive states. Genes & Development, 8, 1750-1758. doi:10.1101/gad.8.15.1750
[35]	Macleod, K.F., Sherry, N., Hannon, G., Beach, D., Tokino, T., Kinzler, K., et al. (1995) P53-dependent and independent expression of P21 during cell growth, differentiation, and DNA damage. Genes & Development, 9, 935-944. doi:10.1101/gad.9.8.935

Journals Menu

Follow SCIRP

	+1 323-425-8868
	customer@scirp.org
	+86 18163351462(WhatsApp)
	1655362766

	Paper Publishing WeChat

Journals Menu

Home

About SCIRP

Service

Policies