Stem Cell Characteristics of Ovarian Granulosa Cells - Review

Akagi S., Kaneyama K., Adachi N., Tsuneishi B., Matsukawa K., Watanabe S., Kubo M., Takahashi S. (2008). Bovine nuclear transfer using fresh cumulus cell nuclei and in vivo- or in vitro-matured cytoplasts. Cloning Stem Cells, 10 (1): 173-80.Search in Google Scholar

Batchelder C. A., Hoffert K. A., Bertolini M., Moyer A. L., Anderson G. B. (2004). Development of bovine nuclear transfer embryos cloned from follicular donor cells in sequential stages of differentiation. Reprod. Fertil. Dev., 16, p. 123.Search in Google Scholar

Batchelder C. A., Hoffert K. A., Bertolini M., Moyer A. L., Mason J. B., Petkov S. G., Famula T. R., Anderson G. B. (2005). Effect of the nuclear-donor cell lineage, type, and cell donor on development of somatic cell nuclear transfer embryos in cattle. Cloning Stem Cells, 7 (4): 238-254.Search in Google Scholar

Byskov A. G., Lintern-Moore S. (1973). Follicle formation in the immature mouse ovary: the role of the rete ovarii. J. Anat., 116: 207-217.Search in Google Scholar

Chang H. L., MacLaughlin D. T., Donahoe P. K. (2009). Somatic stem cells of the ovary and their relationship to human ovarian cancers. (April 30, 2009), StemBook, ed. The Stem Cell Research Community, StemBook, doi/10.3824/stembook.1.43.1, http://www.stembook.org. http://www.stembook.orgSearch in Google Scholar

Chronowska E., Tomanek M., Kott T. (2009). Effect of aromatase inhibitor (fadrozole) on proliferation, estradiol production and telomerase activity in pig granulosa cells in vitro. Czech J. Anim. Sci., 54: 566-574.Search in Google Scholar

Chronowska E., Tomanek M., Kott T. (2010). Effect of antioestrogens on proliferation, differentiation and telomerase activity of pig granulosa cells in vitro. J. Anim. Feed Sci., 19: 577-589.Search in Google Scholar

Chronowska E., Kott T. (2011 a). Androgen receptor inhibitor stimulates telomerase activity of pig granulosa cells in vitro. Anim. Sci. Pap. Rep., 29 (4): 313-323.10.22358/jafs/66080/2012Search in Google Scholar

Chronowska E., Kott T. (2011 b). Optimization of conditions of prolonged culture of pig granulosa cells in vitro. Ann. Anim. Sci., 11 (3): 383-392.Search in Google Scholar

Copper G. M. (1997). The cell, a molecular approach. Oxford University Press, London, pp. 604-608.Search in Google Scholar

Daniels R., Hall V., Trounson A. O. (2000). Analysis of gene transcription in bovine nuclear transfer embryos reconstructed with granulosa cell nuclei. Biol. Reprod., 63 (4): 1034-1040.Search in Google Scholar

Dashe R., Fiedler W., Ernst G. (1997). Telomers and telomerase: biological and clinical importance. Clin. Chem., 43: 708-713.Search in Google Scholar

Gibbons J., Arat S., Rzucidło J., Miyoshi K., Waltenburg R., Respess D., Venablem A., Stice S. (2002). Enhanced survivability of cloned calves derived from roscovitinetreated adult somatic cells. Biol. Reprod., 66: 895-900.Search in Google Scholar

Gondos B. (1975). Surface epithelium of the developing ovary. Possible correlation with ovarian neoplasia. Am. J. Pathol., 81: 303-321.Search in Google Scholar

Goto H., Iwata H., Takeo S., Nisinosono K., Murakami S., Monji Y., Kuwayama T. (2011). Effect of bovine age on proliferative activity, global DNA methylation, relative telomere length and telomerase activity of granulosa cells. Zygote (in press).Search in Google Scholar

Gutierrez C. G., Ralph J. H., Telfer E. E., Wilmut I., Webb R. (1997). Growth and antrum formation of bovine preantral follicles in long-term culture in vitro. Biol. Reprod., 62: 1322-1328.Search in Google Scholar

Honda A., Hirose M., Hara K., Matoba S., Inoue K., Miki H., Hiura H., Kanatsu-Shinohara M., Kanai Y., Kono T. Shinohara T., Ogura A. (2007). Isolation, characterization, and in vitro and in vivo differentiation of putative thecal stem cells. Proc. Natl. Acad. Sci. USA, 104: 12389-12394.Search in Google Scholar

Hunter M. G., Paradis F. (2009). Intra-follicular regulatory mechanisms in the porcine ovary. Soc. Reprod. Fertil. Suppl., 66: 149-164.Search in Google Scholar

Keefer C. L., Keyston R., Lazaris A., Bhatia I., Begin I., Bilodeau A. S. (2002). Production of cloned goats after nuclear transfer using adult somatic cells. Biol. Reprod., 66: 199-203.Search in Google Scholar

Kinugawa C., Murakami T., Okamura K., Yajima A. (2000). Telomerase activity in normal ovaries and premature ovarian failure. Tohuku J. Exp. Med., 190: 231-238.Search in Google Scholar

Kossowska-Tomaszczuk K., De Geyter C., De Geyter M., Martin I., Holzgreve W., Scherberich A., Zhang H. (2009). The multipotency of luteinizing granulosa cells collected from mature ovarian follicles. Stem Cells, 27: 210-219.Search in Google Scholar

Lavranos T. C., Mathis J. M., Latam S. E., Kalionis B., Shay J. W., Rodgers R. J. (1999). Evidence for ovarian granulosa stem cells: Telomerase activity and localization of the telomerase ribonucleic acid component in bovine ovarian follicles. Biol. Reprod., 61: 358-366.Search in Google Scholar

Park K. W., Kuhholzer B., Lai L. X., Machaty Z., Sun Q. Y., Day B. N., Prather R. S. (2001). Development and expression of the green fluorescent protein in porcine embryos derived from nuclear transfer of transgenic granulosa-derived cells. Anim. Reprod. Sci., 68: 111-120.Search in Google Scholar

Pinkerton J. H., McKay D. G., Adams E. C., Hertig A. T. (1961). Development of the human ovary - a study using histochemical technics. Obstet. Gynecol., 18: 152-181.Search in Google Scholar

Polejaeva I. A., Chen S. H., Vaught T. D., Page R. L., Mullins J., Ball S., Dai Y., Boone J., Walker S., Ayares D. L., Colman A., Campbell K. H. S. (2000). Cloned pigs produced by nuclear transfer from adult somatic cells. Nature, 407: 86-90.Search in Google Scholar

Potten C. S., Loeffler M. (1990). Stem cells: attributes, cycles, spirals, pitfalls and uncertainties. Lessons for and from the crypt. Development, 110: 1001-1020.Search in Google Scholar

Rodgers R. J., Lavranos T. C., Rodgers H. F., Young F. M., Vella C. A. (1995 a). The physiology of the ovary: maturation of ovarian granulosa cells and a novel role for antioxidants in the corpus luteum. J. Steroid Biochem. Molec. Biol., 53: 1-6.10.1016/0960-0760(95)00054-4Search in Google Scholar

Rodgers H. F., Lavranos T. C., Vella C. A., Rodgers R. J. (1995 b). Basal lamina and other extracellular matrix produced by bovine granulosa cells in anchorage-independent culture. Cell. Tissue Res., 282: 463-471.10.1007/BF003188788581940Search in Google Scholar

Rodgers R. J., Vella C. A., Rodgers H. F., Scott K., Lavranos T. C. (1996). Production of extracellular matrix, fibronectin and steroidogenic enzymes, and growth of bovine granulosa cells in anchorage-independent culture. Reprod. Fertil. Develop., 8: 249-257.Search in Google Scholar

Rodgers R. J., Lavranos T. C., van Wezel I. L., Irving-Rodgers H. F. (1999). Development of the ovarian follicular epithelium. Mol. Cell. Endocrinol., 151: 171-179.Search in Google Scholar

Russo V., Berardinelli P., Martelli A., Di Gioacinto O., Nardinocchi D., Fantasia D., Burboni B. (2006). Expression of telomerase transcriptase subunit (TERT) and telomere sizing in pig ovarian follicles. J. Histochem. Cytochem. 54: 443-455.Search in Google Scholar

Santos F., Zakhartchenko V., Stojkovic M., Peters A., Jenuwein T., Wolf E., Reik W., Dean W. (2003). Epigenetic marking correlates with developmental potential in cloned bovine preimplantation embryos. Curr. Biol., 13 (13): 1116-1121.Search in Google Scholar

Tomanek M., Chronowska E., Kott T., Czernekova V. (2008). Telomerase activity in pig granulosa cells proliferating and differentiating in vitro. Anim. Reprod. Sci., 104 (2-4): 284-298.Search in Google Scholar

Wilmut I., Schnieke A. E., McWhir J., Kind A. J., Campbell K. H. S. (1997). Viable offspring derived from fetal and adult mammalian cells. Nature, 385: 810-813.Search in Google Scholar

Wobus A., Boheler K. (2005). Embryonic stem cells: prospects for developmental biology and cell therapy. Physiol. Rev., 85: 635-678.Search in Google Scholar

Yamagata Y., Nakamura Y., Umayahara K., Harada A., Takayama H., Sugino N., Kato H. (2002). Changes in telomerase activity in experimentally induced atretic follicles of immature rats. Endocrine J., 49: 589-595.Search in Google Scholar