Stem cells, differentiation and cell cycle control in pituitary

Frontiers of Hormone Research

Volumn 38, Issue , 2010, Pages 15-24

  Drouin, Jacques ^a   Bilodeau, Steve ^a   Roussel Gervais, Audrey ^a  

^a CLIN RESEARCH INSTITUTE OF MONTREAL   (Canada)

Author keywords

[No Author keywords available]

Indexed keywords

PROTEIN P57;

CELL COUNT; CELL CYCLE PHASE; CELL DIFFERENTIATION; GENE EXPRESSION; GENETIC TRANSCRIPTION; HUMAN; HYPOPHYSIS; MOLECULAR MECHANICS; ORGANOGENESIS; PRIORITY JOURNAL; REVIEW; STEM CELL;

ANIMALS; CELL CYCLE; CELL DIFFERENTIATION; CYCLIN-DEPENDENT KINASE INHIBITOR P57; HOMEODOMAIN PROTEINS; HUMANS; INTRACELLULAR SIGNALING PEPTIDES AND PROTEINS; PITUITARY GLAND; STEM CELLS; T-BOX DOMAIN PROTEINS;

EID: 84926120709     PISSN: 03013073     EISSN: None     Source Type: Book Series    
DOI: 10.1159/000318490     Document Type: Review

References (30)

1. Chen J, Hersmus N, Van DV, Caesens P, Denef C, Vankelecom H: The adult pituitary contains a cell population displaying stem/progenitor cell and early embryonic characteristics. Endocrinology 2005;146: 3985.
2. Fauquier T, Rizzoti K, Dattani M, Lovell-Badge R, Robinson IC: SOX2-expressing progenitor cells generate all of the major cell types in the adult mouse pituitary gland. Proc Natl Acad Sci USA 2008;105:2907.
3. Krylyshkina O, Chen J, Mebis L, Denef C, Vankele-com H: Nestin-immunoreactive cells in rat pituitary are neither hormonal nor typical folliculo-stellate cells. Endocrinology 2005;146:2376.
4. Gleiberman AS, Michurina T, Encinas JM, Roig JL, Krasnov P, Balordi F, Fishell G, Rosenfeld MG, Eni-kolopov G: Genetic approaches identify adult pituitary stem cells. Proc Natl Acad Sci USA 2008;105: 6332.
5. Ward RD, Raetzman LT, Suh H, Stone BM, Nasonkin IO, Camper SA: Role of PROP1 in pituitary gland growth. Mol Endocrinol 2005;19:698.
6. Garcia-Lavandeira M, Quereda V, Flores I, Saez C, Diaz-Rodriguez E, Japon MA, Ryan AK, Blasco MA, Dieguez C, Malumbres M, Alvarez CV: A GRFa2/Prop1/stem (GPS) cell niche in the pituitary. PLoS ONE 2009;4:e4815.
7. Drouin J: Molecular mechanisms of pituitary differentiation and regulation: implications for hormone deficiencies and for hormone resistance syndromes. Front Horm Res. Basel, Karger, 2006, vol 35, pp 74-87.
8. Pulichino AM, Vallette-Kasic S, Tsai JPY, Couture C, Gauthier Y, Drouin J: Tpit determines alternate fates during pituitary cell differentiation. Genes Dev 2003;17:738.
9. Nolan LA, Levy A: A population of non-luteinising hormone/non- adrenocorticotrophic hormone-positive cells in the male rat anterior pituitary responds mitotically to both gonadectomy and adrenalec-tomy. J Neuroendocrinol 2006;18:655.
10. Bodner M, Castrillo JL, Theill LE, Deerinck T, Ellisman M, Karin M: The pituitary-specific transcription factor GHF-1 is a homeobox-containing protein. Cell 1988;55:505.
11. Ingraham HA, Chen R, Mangalam HJ, Elsholtz HP, Flynn SE, Lin CR, Simmons DM, Swanson L, Rosenfeld MG: A tissue-specific transcription factor containing a homeodomain specifies a pituitary phenotype. Cell 1988;55:519.
12. Lamolet B, Pulichino AM, Lamonerie T, Gauthier Y, Brue T, Enjalbert A, Drouin J: A pituitary cell-restricted T-box factor, Tpit, activates POMC transcription in cooperation with Pitx homeoproteins. Cell 2001;104:849.
13. Pulichino AM, Vallette-Kasic S, Couture C, Gauthier Y, Brue T, David M, Malpuech G, Deal C, Van Vliet G, De Vroede M, Riepe FG, Partsch CJ, Sippell WG, Berberoglu M, Atasay B, Drouin J: Human and mouse Tpit gene mutations cause early onset pituitary ACTH deficiency. Genes Dev 2003;17:711.
14. Ingraham HA, Lala DS, Ikeda Y, Luo X, Shen WH, Nachtigal MW, Abbud R, Nilson JH, Parker KL: The nuclear receptor steroidogenic factor 1 acts at multiple levels of the reproductive axis. Genes Dev 1994;8:2302.
15. Zhao L, Bakke M, Krimkevich Y, Cushman LJ, Parlow AF, Camper SA, Parker KL: Steroidogenic factor 1 (SF1) is essential for pituitary gonadotrope function. Development 2001;128:147.
16. Charles MA, Saunders TL, Wood WM, Owens K, Parlow AF, Camper SA, Ridgway EC, Gordon DF: Pituitary-specific Gata2 knockout: effects on gonad-otrope and thyrotrope function. Mol Endocrinol 2006;20:1366.
17. Pals K, Boussemaere M, Swinnen E, Vankelecom H, Denef C: A Pituitary cell type coexpressing messenger ribonucleic acid of proopiomelanocortin and the glycoprotein hormone alpha-subunit in neonatal rat and chicken: rapid decline with age and reappearance in vitro under regulatory pressure of corticotropin-releasing hormone in the rat. Endocrinology 2006;147:4738.
18. Japon MA, Rubinstein M, Low MJ: In situ hybridization analysis of anterior pituitary hormone gene expression during fetal mouse development. J His-tochem Cytochem 1994;42:1117.
19. Kip1 distinguish pituitary progenitor cell cycle exit from cell cycle re-entry of differentiated cells. Mol Cell Biol 2009;29:1895.
20. Fero ML, Rivkin M, Tasch M, Porter P, Carow CE, Firpo E, Polyak K, Tsai LH, Broudy V, Perlmutter RM, Kaushansky K, Roberts JM: A syndrome of multiorgan hyperplasia with features of gigantism, tumorigenesis, and female sterility in p27(Kip1)-deficient mice. Cell 1996;85:733.
21. Kiyokawa H, Kineman RD, Manova-Todorova KO, Soares VC, Hoffman ES, Ono M, Khanam D, Hay-day AC, Frohman LA, Koff A: Enhanced growth of mice lacking the cyclin-dependent kinase inhibitor function of p27(Kip1). Cell 1996;85:721.
22. Nakayama K, Ishida N, Shirane M, Inomata A, Inoue T, Shishido N, Horii I, Loh DY, Nakayama K: Mice lacking p27(Kip1) display increased body size, multiple organ hyperplasia, retinal dysplasia, and pituitary tumors. Cell 1996;85:707.
23. Franklin DS, Godfrey VL, Lee H, Kovalev GI, Schoonhoven R, Chen-Kiang S, Su L, Xiong Y: CDK inhibitors p18(INK4c) and p27(Kip1) mediate two separate pathways to collaboratively suppress pituitary tumorigenesis. Genes Dev 1998;12:2899.
24. Latres E, Malumbres M, Sotillo R, Martin J, Ortega S, Martin-Caballero J, Flores JM, Cordon-Cardo C, Barbacid M: Limited overlapping roles of P15(INK4b) and P18(INK4c) cell cycle inhibitors in proliferation and tumorigenesis. EMBO J 2000;19:3496.
25. Treier M, Gleiberman AS, O'Connell SM, Szeto DP, McMahon JA, McMahon A P, Rosenfeld MG: Multi-step signaling requirements for pituitary organo-genesis in vivo. Genes Dev 1998;12:1691.
26. Treier M, O'Connell S, Gleiberman A, Price J, Szeto D P, Burgess R, Chuang PT, McMahon A P, Rosenfeld MG: Hedgehog signaling is required for pituitary gland development. Development 2001;128:377.
27. Ericson J, Norlin S, Jessell TM, Edlund T: Integrated FGF and BMP signaling controls the progression of progenitor cell differentiation and the emergence of pattern in the embryonic anterior pituitary. Development 1998;125:1005.
28. Raetzman LT, Ross SA, Cook S, Dunwoodie SL, Camper SA, Thomas PQ: Developmental regulation of Notch signaling genes in the embryonic pituitary: Prop1 deficiency affects Notch2 expression. Dev Biol 2004;265:329.
29. Brinkmeier ML, Potok MA, Cha KB, Gridley T, Stifani S, Meeldijk J, Clevers H, Camper SA: TCF and Groucho-related genes influence pituitary growth and development. Mol Endocrinol 2003;17: 2152.
30. Zhu X, Zhang J, Tollkuhn J, Ohsawa R, Bresnick EH, Guillemot F, Kageyama R, Rosenfeld MG: Sustained Notch signaling in progenitors is required for sequential emergence of distinct cell lineages during organogenesis. Genes Dev 2006;20:2739.