Advanced search
Publication Cover
Climacteric Volume 15, 2012 - Issue 2
Submit an article Journal homepage
418
Views
8
CrossRef citations to date
0
Altmetric
Review Article

Ovarian stem cells and aging

W. HosniDepartment of Obstetrics and Gynecology, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, MA, USA
&
E. Bastu *Department of Obstetrics and Gynecology, Istanbul University School of Medicine, Istanbul, Turkey
Pages 125-132 | Received 14 Sep 2011, Accepted 11 Oct 2011, Published online: 28 Dec 2011

References

  • Johnson J, Skaznik-Wikiel M, Lee HJ, Niikura Y, Tilly JC, Tilly JL. Setting the record straight on data supporting postnatal oogenesis in female mammals. Cell Cycle 2005;4:1471–7
  • Powell K. Going against the grain. PLoS Biol 2007;5:e338
  • Greenfeld C, Flaws JA. Renewed debate over postnatal oogenesis in the mammalian ovary. Bioessays 2004;26:829–32
  • Byskov AG, Faddy MJ, Lemmen JG, Andersen CY. Eggs forever? Differentiation 2005;73:438–46
  • Gougeon A. Neo-oogenesis in the post natal ovary: Fantasy or reality? Gynecol Obstet Fertil 2005;33:819–23
  • Oktem O, Oktay K. Stem cells: a perspective on oocytes. Ann NY Acad Sci 2008;1127:20–6
  • Tilly JL, Niikura Y, Rueda BR. The current status on evidence for and against postnatal oogenesis in mammals: A case of ovarian optimist versus pessimism. Biol Reprod 2009;80:2–12
  • Bukovsky A, Copas P, Virant-Klun I. Potential new strategies for the treatment of ovarian infertility and degenerative diseases with autologous ovarian stem cells. Exp Opin Biol Ther 2006;6: 341–65
  • Osman P. Rate and course of atresia during follicular development in the adult cyclic rat. J Reprod Fertil 1985;73: 261–70
  • Ingram DL. Atresia. In Zuckerman S, ed. The Ovary. London: Academic Press, 1962:247–73
  • Vermande-Van Eck GJ. Neo-ovogenesis in the adult monkey; consequences of atresia of ovocytes. Anat Rec 1956;125: 207–24
  • Johnson J, Canning J, Kaneko T, Pru JK, Tilly JL. Germline stem cells and follicular renewal in the postnatal mammalian ovary. Nature 2004;428:145–50
  • Kerr JB, Duckett R, Myers M, Britt KL, Mladenovska T, Findlay JK. Quantification of healthy follicles in the neonatal and adult mouse ovary: evidence for maintenance of primordial follicle supply. Reproduction 2006;132:95–109
  • Block E. Quantitative morphological investigations of the follicular system in women; variations at different ages. Anta Anat (Basel) 1952;14:108–23
  • Motta PM, Makabe S. Development of the ovarian surface and associated germ cells in the human fetus. A correlated study by scanning and transmission electron microscopy. Cell Tissue Res 1982;226:493–510
  • Motta PM, Makabe S. Germ cells in the ovarian surface during fetal development in humans. A three dimensional microanatomical study by scanning and transmission electron microscopy. J Submicrosc Cytol 1986;18:271–90
  • Ahmed N, Thompson EW, Quinn MA. Epithelial-mesenchymal interconversions in normal ovarian surface epithelium and ovarian carcinomas: an exception to the norm. J Cell Physiol 2007; 213:581–8
  • Bukovsky A, Svetlikova M, Caudle MR. Oogenesis in cultures derived from adult human ovaries. Reprod Biol Endocrinol 2005;3:17
  • Lee JM, Dedhar S, Kalluri R, Thompson EW. The epithelial-mesenchymal transition: new insights in signaling, development, and disease. J Cell Biol 2006;172:973–81
  • Yuan L, Pelttari J, Brundell E, . The synaptonemal complex protein SCP3 can form multistranded, cross-striated fibers in vivo. J Cell Biol 1998;142:331–9
  • Zou K, Yuan Z, Yang Z, . Production of offspring from a germline stem cell line derived from neonatal ovaries. Nat Cell Biol 2009;11:631–6
  • Rando TA. Stem cells, ageing and the quest for immortality. Nature 2006;441:1080–6
  • Ryu BY, Orwig KE, Oatley JM, Avarbock MR, Brinster RL. Effects of aging and niche microenvironment on spermatogonial stem cell self-renewal. Stem Cells 2006;24:1505–11
  • Zhang X, Ebata KT, Robaire B, . Aging of male germ line stem cells in mice. Biol Reprod 2005;74:119–24
  • Carlson BM, Faulkner JA. Muscle transplantation between young and old rats: age of host determines recovery. Am J Physiol 1989; 256:C1262–6
  • Carlson BM, Dedkov EI, Borisov AB, Faulkner JA. Skeletal muscle regeneration in very old rats. J Gerontol A Biol Sci Med Sci 2001;56:B224–33
  • Wagner W, Horn P, Bork S, Ho AD. Aging of hematopoietic stem cells is regulated by the stem cell niche. Exp Gerontol 2008;43: 974–80
  • Chen J. Senescence and functional failure in hematopoietic stem cells. Exp Hematol 2004;32:1025–32
  • Iakova P, Awad SS, Timchenko NA. Aging reduces proliferative capacities of liver by switching pathways of C/EBPalpha growth arrest. Cell 2003;113:495–506
  • Niikura Y, Niikura T, Tilly JL. Aged mouse ovaries possess rare premeiotic germ cells that can generate oocytes following transplantation into a young host environment. Aging 2009;1: 971–8
  • Lombard DB, Chua KF, Mostoslavsky R, Franco S, Gostissa M, Alt FW. DNA repair, genome stability, and aging. Cell 2005; 120:497–512
  • Lindahl T. Instability and decay of the primary structure of DNA. Nature 1993;362:709–15
  • Dollé ME, Giese H, Hopkins CL, Martus HJ, Hausdorff JM, Vijg J. Rapid accumulation of genome rearrangements in liver but not in brain of old mice. Nat Genet 1997;17:431–4
  • Vousden KH, Lane DP. p53 in health and disease. Nat Rev Mol Cell Biol 2007;8:275–83
  • Flores I, Blasco MA. A p53-dependent response limits epidermal stem cell functionality and organismal size in mice with short telomeres. PLoS One 2009;4:e4934
  • Lin T, Chao C, Saito S, . p53 induces differentiation of mouse embryonic stem cells by suppressing Nanog expression. Nat Cell Biol 2005;7:165–71
  • Zhao T, Xu Y. p53 and stem cells: new developments and new concerns. Trends Cell Biol 2010;20:170–5
  • Smikle CB, Dandekar PV, Schriock ED, Givens CR. Elevated ovarian follicular fluid stem cell factor concentrations are associated with improved pregnancy rates in in-vitro fertilization cycles. Fertil Steril 1998;69:70–2
  • Ismail RS, Okawara Y, Fryer JN, Vanderhyden BC. Hormonal regulation of the ligand for c-kit in the rat ovary and its effects on spontaneous oocyte meiotic maturation. Mol Reprod Dev 1996;43:458–69
  • Doneda L, Klinger FG, Larizza L, De Felici M. KL/KIT co-expression in mouse fetal oocytes. Int J Dev Biol 2002;46: 1015–21
  • Yee NS, Paek I, Besmer P. Role of kit-ligand in proliferation and suppression of apoptosis in mast cells: basis for radiosensitivity of white spotting and steel mutant mice. J Exp Med 1994;179: 1777–87
  • Packer AI, Besmer P, Bachvarova RF. Kit ligand mediates survival of type A spermatogonia and dividing spermatocytes in postnatal mouse testes. Mol Reprod Dev 1995;42:303–10
  • Nilsson EE, Skinner MK. Kit ligand and basic fibroblast growth factor interactions in the induction of ovarian primordial to primary follicle transition. Mol Cell Endocrinol 2004;214: 19–25
  • Pesce M, Farrace MG, Piacentini M, Dolci S, De Felici M. Stem cell factor and leukemia inhibitory factor promote primordial germ cell survival by suppressing programmed cell death (apoptosis). Development 1993;118:1089–94
  • Feng HL, Sandlow JI, Sparks AE, Sandra A, Zheng LJ. Decreased expression of the c-kit receptor is associated with increased apoptosis in subfertile human testes. Fertil Steril 1999;71:85–9
  • Duan YG, Xiong ZM, Li JX, Zhu CH, Liu ZL. Expression patterns of age-related molecule c-kit, HIWI and vimentin in the rat testis and epididymis. Zhonghua Nan Ke Xue 2007;13: 992–6
  • Chan SW, Blackburn EH. New ways not to make ends meet: telomerase, DNA damage proteins and heterochromatin. Oncogene 2002;21:553–63
  • Flores I, Benetti R, Blasco MA. Telomerase regulation and stem cell behavior. Curr Opin Cell Biol 2006;18:254–60
  • Wright WE, Piatyszek MA, Rainey WE, Byrd W, Shay JW. Telomerase activity in human germline and embryonic tissues and cells. Dev Genet 1996;18:173–9
  • Meeker AK, Sommerfeld HJ, Coffey DS. Telomerase is activated in the prostate and seminal vesicles of the castrated rat. Endocrinology 1996;137:5743–6
  • Kinugawa C, Murakami T, Okamura K, Yajima A. Telomerase activity in normal ovaries and premature ovarian failure. Tohoku J Exp Med 2000;190:231–8
  • Yokoyama Y, Takahashi Y, Shinohara A, Lian Z, Tamaya T. Telomerase activity in the female reproductive tract and neoplasms. Gynecol Oncol 1998;68:145–9
  • Tothova Z, Kollipara R, Huntly BJ, . FoxOs are critical mediators of hematopoietic stem cell resistance to physiologic oxidative stress. Cell 2007;128:325–39
  • Tarin JJ. Potential effects of age-associated oxidative stress on mammalian oocytes/embryos. Mol Hum Reprod 1996;2: 717–24
  • Ulaner GA, Hu JF, Vu TH, Giudice LC, Hoffman AR. Telomerase activity in human development is regulated by human telomerase reverse transcriptase (hTERT) transcription and by alternate splicing of hTERT transcripts. Cancer Res 1998;58:4168–72
  • Saito T, Schneider A, Martel N, . Proliferation-associated regulation of telomerase activity in human endometrium and its potential implication in early cancer diagnosis. Biochem Biophys Res Commun 1997;231:610–14
  • Misiti S, Nanni S, Fontemaggi G, . Induction of hTERT expression and telomerase activity by estrogens in human ovary epithelium cells. Mol Cell Biol 2000;20:3764–71
  • Jones DL, Wagers AJ. No place like home: anatomy and function of the stem cell niche. Nat Rev Mol Cell Biol 2008;9:11–21
  • Spradling A, Drummond-Barbosa D, Kai T. Stem cells find their niche. Nature 2001;414:98–104
  • Scadden DT. The stem-cell niche as an entity of action. Nature 2006;441:1075–9
  • Nishizuka Y, Sakakura T. Thymus and reproduction: sex-linked dysgenesia of the gonad after neonatal thymectomy in mice. Science 1969;166:753–5
  • Rebar RW. The thymus gland and reproduction: do thymic peptides influence the reproductive lifespan in females? J Am Geriatr Soc 1982;30:603–6
  • Hoek A, van Kasteren Y, de Haan-Meulman M, Schoemaker J, Drexhage HA. Dysfunction of monocytes and dendritic cells in patients with premature ovarian failure. Am J Reprod Immunol 199;30:207–17
  • Selesniemi K, Lee HJ, Niikura T, Tilly JL. Young adult donor bone marrow infusions into female mice postpone age-related reproductive failure and improve offspring survival. Aging 2008;1:49–57
  • Sanders JE, Hawley J, Levy W, . Pregnancies following high-dose cyclophosphamide with or without high-dose busulfan or total-body irradiation and bone marrow transplantation. Blood 1996;87:3045–52
  • Lee HJ, Selesniemi K, Niikura Y, . Bone marrow transplantation generates immature oocytes and rescues long-term fertility in a preclinical mouse model of chemotherapy-induced premature ovarian failure. J Clin Oncol 2007;25:3198–204
  • Salooja N, Chatterjee R, McMillan AK, . Successful pregnancies in women following single autotransplant for acute myeloid leukemia with a chemotherapy ablation protocol. Bone Marrow Transplant 1994;13:431–5
  • Kashyap V, Rezende NC, Scotland KB, . Regulation of stem cell pluripotency and differentiation involves a mutual regulatory circuit of the NANOG, OCT4, and SOX2 pluripotency transcription factors with polycomb repressive complexes and stem cell microRNAs. Stem Cells Dev 2009;18:1093–108
  • Voog J, Jones DL. Stem cells and the niche: a dynamic duo. Cell Stem Cell 2010;6:103–15
  • Virant-Klun I, Zech N, Rozman P, . Putative stem cells with an embryonic character isolated from the ovarian surface epithelium of women with no naturally present follicles and oocytes. Differentiation 2008;76:843–56
  • Grinnell KL, Yang B, Eckert RL, Bickenbach JR. De-differentiation of mouse interfollicular keratinocytes by the embryonic transcription factor Oct-4. J Invest Dermatol 2007;127:372–80
  • Lange UC, Saitou M, Western PS, Barton SC, Surani MA. The fragilis interferon-inducible gene family of transmembrane proteins is associated with germ cell specification in mice. BMC Dev Biol 2003;3:1
  • Dyce PW, Toms D, Li J. Stem cells and germ cells: microRNA and gene expression signatures. Histol Histopathol 2010;25: 505–13
  • Castrillon DH, Quade BJ, Wang TY, Quigley C, Crum CP. The human VASA gene is specifically expressed in the germ cell lineage. Proc Natl Acad Sci USA 2000;97:9585–90
  • Haston KM, Tung JY, Reijo Pera RA. Dazl functions in maintenance of pluripotency and genetic and epigenetic programs of differentiation in mouse primordial germ cells in vivo and in vitro. PLoS One 2009;4:e5654
  • Sette C, Dolci S, Geremia R, Rossi P. The role of stem cell factor and of alternative c-kit gene products in the establishment, maintenance and function of germ cells. Int J Dev Biol 2000;44: 599–608
  • Anderson EL, Baltus AE, Roepers-Gajadien HL, . Stra8 and its inducer, retinoic acid, regulate meiotic initiation in both spermatogenesis and oogenesis in mice. Proc Natl Acad Sci USA 2008;105:14976–80
  • Nayernia K, Lee JH, Drusenheimer N, . Derivation of male germ cells from bone marrow stem cells. Lab Invest 2006;86: 654–63.
  • Toyooka Y, Tsunekawa N, Akasu R, Noce T. Embryonic stem cells can form germ cells in vitro. Proc Natl Acad Sci USA 2003; 100:11457–62
  • Geijsen N, Horoschak M, Kim K, Gribnau J, Eggan K, Daley GQ. Derivation of embryonic germ cells and male gametes from embryonic stem cells. Nature 2004;427:148–54

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.