[1]O'SHEA J D, HAY M F,CRAN D G. Ultrastructural changes in the theca interna during follicular atresia in sheep [J]. J Reprod Fertil,1978, 54(1):183-187.
[2]ERICKSON G F, MAGOFFIN D A, DYER C A, et al. The ovarian androgen producing cells: a review of structure/function relationships [J]. Endocr Rev,1985, 6(3):371-399.
[3]MANNA P R, DYSON M T,STOCCO D M. Regulation of the steroidogenic acute regulatory protein gene expression: present and future perspectives [J]. Mol Hum Reprod,2009, 15(6):321-333.
[4]WOOD J R,STRAUSS J F. Multiple signal transduction pathways regulate ovarian steroidogenesis [J]. Rev Endocr Metab Disord,2002, 3(1):33-46.
[5]MATSUDA F, INOUE N, MANABE N, et al. Follicular growth and atresia in mammalian ovaries: regulation by survival and death of granulosa cells [J]. J Reprod Dev,2012, 58(1):44-50.
[6]AKHTAR M, WRIGHT J N,LEE-ROBICHAUD P. A review of mechanistic studies on aromatase (CYP19) and 17alpha-hydroxylase-17,20-lyase (CYP17) [J]. J Steroid Biochem Mol Biol,2011, 125(1-2):2-12.
[7]MCNEILLY J R, SAUNDERS P T, TAGGART M, et al. Loss of oocytes in Dazl knockout mice results in maintained ovarian steroidogenic function but altered gonadotropin secretion in adult animals [J]. Endocrinology, 2000, 141(11):4284-4294.
[8]LI Y, LIANG X Y, WEI L N, et al. Study of RNA interference inhibiting rat ovarian androgen biosynthesis by depressing 17alpha-hydroxylase/17, 20-lyase activity in vivo [J]. Reprod Biol Endocrinol, 2009, 7:73. Doi:10.1186/1477-7827-7-73.
[9]LAVOIE H A,KING S R. Transcriptional regulation of steroidogenic genes: STARD1, CYP11A1 and HSD3B [J]. Exp Biol Med (Maywood), 2009, 234(8):880-907.
[10]GLISTER C, RICHARDS S L,KNIGHT P G. Bone morphogenetic proteins (BMP) -4, -6, and -7 potently suppress basal and luteinizing hormone-induced androgen production by bovine theca interna cells in primary culture: could ovarian hyper androgenic dysfunction be caused by a defect in thecal BMP signaling? [J]. Endocrinology,2005, 146(4):1883-1892.
[11]CAMPBELL B K, BAIRD D T,WEBB R. Effects of dose of LH on androgen production and luteinization of ovine theca cells cultured in a serum-free system [J]. J Reprod Fertil,1998, 112(1):69-77.
[12]PALERMO R. Differential actions of FSH and LH during folliculogenesis [J]. Reprod Biomed Online,2007, 15(3):326-337.
[13]BAIRD D T, SWANSTON I A,MCNEILLY A S. Relationship between LH, FSH, and prolactin concentration and the secretion of androgens and estrogens by the preovulatory follicle in the ewe [J]. Biol Reprod,1981, 24(5):1013-1025.
[14]CLARK L J, IRVING-RODGERS H F, DHARMARAJAN A M, et al. Theca interna: the other side of bovine follicular atresia [J]. Biol Reprod,2004, 71(4):1071-1078.
[15]IRVING-RODGERS H F, KRUPA M,RODGERS R J. Cholesterol side-chain cleavage cytochrome P450 and 3beta-hydroxysteroid dehydrogenase expression and the concentrations of steroid hormones in the follicular fluids of different phenotypes of healthy and atretic bovine ovarian follicles [J]. Biol Reprod,2003, 69(6):2022-2028.
[16]LI X, ZHANG H, SHENG X, et al. Immunoreactivities of androgen receptor, estrogen receptors, p450arom, p450c17 proteins in wild ground squirrels ovaries during the nonbreeding and breeding seasons [J]. J Ovarian Res,2012,5(1):26. Doi: 10.1186/1757-2215-5-26.
[17]CHANG R J,COOK-ANDERSEN H. Disordered follicle development [J]. Mol Cell Endocrinol,2013,373(1-2): 51-60.
[18]FRASER H M,DUNCAN W C. SRB reproduction, fertility and development award lecture 2008. regulation and manipulation of angiogenesis in the ovary and endometrium [J]. Reprod Fertil Dev,2009, 21(3):377-392.
[19]MANNA P R, DYSON M T, JO Y, et al. Role of dosage-sensitive sex reversal, adrenal hypoplasia congenita, critical region on the X chromosome, gene 1 in protein kinase A- and protein kinase C-mediated regulation of the steroidogenic acute regulatory protein expression in mouse Leydig tumor cells: mechanism of action [J]. Endocrinology,2009, 150(1):187-199.
[20]ROBINSON R S, WOAD K J, HAMMOND A J, et al. Angiogenesis and vascular function in the ovary [J]. Reproduction,2009, 138(6):869-881.
[21]TAYLOR P D, HILLIER S G,FRASER H M. Effects of GnRH antagonist treatment on follicular development and angiogenesis in the primate ovary [J]. J Endocrinol,2004, 183(1):1-17.
[22]WULFF C, WILSON H, WIEGAND S J, et al. Prevention of thecal angiogenesis, antral follicular growth, and ovulation in the primate by treatment with vascular endothelial growth factor Trap R1R2 [J]. Endocrinology,2002, 143(7):2797-2807.
[23]FRASER H M, WILSON H, MORRIS K D, et al. Vascular endothelial growth factor Trap suppresses ovarian function at all stages of the luteal phase in the macaque [J]. J Clin Endocrinol Metab, 2005, 90(10):5811-5818.
[24]YOUNG J M, HENDERSON S, SOUZA C, et al. Activin B is produced early in antral follicular development and suppresses thecal androgen production [J]. Reproduction, 2012, 143(5):637-650.
[25]ORISAKA M, TAJIMA K, TSANG B K, et al. Oocyte-granulosa-theca cell interactions during preantral follicular development [J]. J Ovarian Res,2009,2(1):9. Doi: 10.1186/1757-2215-2-9.
[26]HUANG C T, WEITSMAN S R, DYKES B N, et al. Stem cell factor and insulin-like growth factor-I stimulate luteinizing hormone-independent differentiation of rat ovarian theca cells [J]. Biol Reprod, 2001, 64(2):451-456.
[27]ORISAKA M, ORISAKA S, JIANG J Y, et al. Growth differentiation factor 9 is antiapoptotic during follicular development from preantral to early antral stage [J]. Mol Endocrinol, 2006, 20(10):2456-2468.
[28]WU X, CHEN L, BROWN C A, et al. Interrelationship of growth differentiation factor 9 and inhibin in early folliculogenesis and ovarian tumorigenesis in mice [J]. Mol Endocrinol,2004, 18(6):1509-1519. |