Details

Autor(en) / Beteiligte

• Pirozzi, Christopher J
• Carpenter, Austin B
• Waitkus, Matthew S
• Wang, Catherine Y
• Zhu, Huishan
• Hansen, Landon J
• Chen, Lee H
• Greer, Paula K
• Feng, Jie
• Wang, Yu
• Bock, Cheryl B
• Fan, Ping
• Spasojevic, Ivan
• McLendon, Roger E
• Bigner, Darell D
• He, Yiping
• Yan, Hai

Titel

Mutant IDH1 Disrupts the Mouse Subventricular Zone and Alters Brain Tumor Progression

Ist Teil von

• Molecular cancer research, 2017-05, Vol.15 (5), p.507-520

Ort / Verlag

United States: American Association for Cancer Research Inc

Erscheinungsjahr

2017

Link zum Volltext

Quelle

MEDLINE

Beschreibungen/Notizen

• mutations occur in the majority of low-grade gliomas and lead to the production of the oncometabolite, D-2-hydroxyglutarate (D-2HG). To understand the effects of tumor-associated mutant (IDH1-R132H) on both the neural stem cell (NSC) population and brain tumorigenesis, genetically faithful cell lines and mouse model systems were generated. Here, it is reported that mouse NSCs expressing Idh1-R132H displayed reduced proliferation due to p53-mediated cell-cycle arrest as well as a decreased ability to undergo neuronal differentiation. , Idh1-R132H expression reduced proliferation of cells within the germinal zone of the subventricular zone (SVZ). The NSCs within this area were dispersed and disorganized in mutant animals, suggesting that Idh1-R132H perturbed the NSCs and the microenvironment from which gliomas arise. In addition, tumor-bearing animals expressing mutant Idh1 displayed a prolonged survival and also overexpressed Olig2, features consistent with IDH1-mutated human gliomas. These data indicate that mutant disrupts the NSC microenvironment and the candidate cell-of-origin for glioma; thus, altering the progression of tumorigenesis. In addition, this study provides a mutant brain tumor model that genetically recapitulates human disease, laying the foundation for future investigations on mutant -mediated brain tumorigenesis and targeted therapy. Through the use of a conditional mutant mouse model that confers a less aggressive tumor phenotype, this study reveals that mutant Idh1 impacts the candidate cell-of-origin for gliomas. .