CONTEXT: Multiple endocrine neoplasia type 1 (MEN1) is caused by mutations in the menin (MEN1) gene. The mechanism(s) by which MEN1 mutations lead to pituitary tumor formation remain(s) unknown. OBJECTIVE: The aim of the study was to identify the pediatric MEN1-associated pituitary tumor transcriptome. PATIENTS AND METHODS: A patient harboring a MEN1 mutation (c.525C>G; p.H139D) who presented with an early-onset mammosomatotroph pituitary adenoma was studied. Microarray analysis was performed in the tumor sample and compared with the profile observed in normal pituitaries and in a sporadic mammosomatotropinoma. Validation of the microarray results was performed using quantitative real-time PCR and immunohistochemical analysis for selected genes. RESULTS: In the MEN1-associated pituitary adenoma, 59 and 24 genes were found to be significantly up- and down-regulated, respectively. The up-regulated genes included those involved in cell growth and maintenance, apoptosis, growth arrest, and tumorigenesis. Moreover, we observed decreased expression in genes neuroendocrine in nature and related to growth or apoptosis. Only 21 of the 59 genes differentially expressed in the MEN1-associated adenoma showed a similar expression profile to that seen in the sporadic mammosomatotropinoma; for some genes an opposite expression profile was observed. CONCLUSIONS: We identified changes in the transcriptome that occur in pituitary GH- and PRL-producing cells after the loss of menin expression; some of the gene changes are necessary for tumor evolution, and others may be tertiary. Nevertheless, the rare overlap between the expression profiles of the MEN1 tumor vs. that of its sporadic counterpart suggests that these tumors evolve along different molecular pathways.
CONTEXT: Multiple endocrine neoplasia type 1 (MEN1) is caused by mutations in the menin (MEN1) gene. The mechanism(s) by which MEN1 mutations lead to pituitary tumor formation remain(s) unknown. OBJECTIVE: The aim of the study was to identify the pediatric MEN1-associated pituitary tumor transcriptome. PATIENTS AND METHODS: A patient harboring a MEN1 mutation (c.525C>G; p.H139D) who presented with an early-onset mammosomatotroph pituitary adenoma was studied. Microarray analysis was performed in the tumor sample and compared with the profile observed in normal pituitaries and in a sporadic mammosomatotropinoma. Validation of the microarray results was performed using quantitative real-time PCR and immunohistochemical analysis for selected genes. RESULTS: In the MEN1-associated pituitary adenoma, 59 and 24 genes were found to be significantly up- and down-regulated, respectively. The up-regulated genes included those involved in cell growth and maintenance, apoptosis, growth arrest, and tumorigenesis. Moreover, we observed decreased expression in genes neuroendocrine in nature and related to growth or apoptosis. Only 21 of the 59 genes differentially expressed in the MEN1-associated adenoma showed a similar expression profile to that seen in the sporadic mammosomatotropinoma; for some genes an opposite expression profile was observed. CONCLUSIONS: We identified changes in the transcriptome that occur in pituitary GH- and PRL-producing cells after the loss of menin expression; some of the gene changes are necessary for tumor evolution, and others may be tertiary. Nevertheless, the rare overlap between the expression profiles of the MEN1tumor vs. that of its sporadic counterpart suggests that these tumors evolve along different molecular pathways.
Authors: S S Murthy; T Shen; A De Rienzo; W C Lee; P C Ferriola; S C Jhanwar; B T Mossman; J Filmus; J R Testa Journal: Oncogene Date: 2000-01-20 Impact factor: 9.867
Authors: J S Crabtree; P C Scacheri; J M Ward; L Garrett-Beal; M R Emmert-Buck; K A Edgemon; D Lorang; S K Libutti; S C Chandrasekharappa; S J Marx; A M Spiegel; F S Collins Journal: Proc Natl Acad Sci U S A Date: 2001-01-30 Impact factor: 11.205
Authors: S J Marx; S K Agarwal; M B Kester; C Heppner; Y S Kim; M C Skarulis; L A James; P K Goldsmith; S K Saggar; S Y Park; A M Spiegel; A L Burns; L V Debelenko; Z Zhuang; I A Lubensky; L A Liotta; M R Emmert-Buck; S C Guru; P Manickam; J Crabtree; M R Erdos; F S Collins; S C Chandrasekharappa Journal: Recent Prog Horm Res Date: 1999
Authors: C A Stratakis; D H Schussheim; S M Freedman; M F Keil; S D Pack; S K Agarwal; M C Skarulis; R J Weil; I A Lubensky; Z Zhuang; E H Oldfield; S J Marx Journal: J Clin Endocrinol Metab Date: 2000-12 Impact factor: 5.958
Authors: Buddha Gurung; Zijie Feng; Daniel V Iwamoto; Austin Thiel; Guanghui Jin; Chen-Min Fan; Jessica M Y Ng; Tom Curran; Xianxin Hua Journal: Cancer Res Date: 2013-04-11 Impact factor: 12.701