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Literature DB >> 22616703

The cellular origin for malignant glioma and prospects for clinical advancements.

Hui Zong¹, Roel G W Verhaak, Peter Canoll.

Abstract

Glioma remains incurable despite great advancements in medicine. Targeting the cell of origin for gliomas could bring great hope for patients. However, as a collection of diverse diseases, each subtype of glioma could derive from a distinct cell of origin. To resolve such a complex problem, one must use multiple research approaches to gain deep insights. Here we review current evidence regarding the cell of origin from clinical observations, whole-genome molecular pathology and glioma animal models. We conclude that neural stem cells, glial progenitors (including oligodendrocyte progenitor cells) and astrocytes could all serve as cells of origin for gliomas, and that cells incurring initial mutations (cells of mutation) might not transform, while their progeny cells could instead transform and act as cells of origin. Further studies with multidisciplinary approaches are needed to link each subtype to a particular cell of origin, and to develop effective therapies that target the signaling network within these cells.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2012 PMID： 22616703 PMCID： PMC3368274 DOI： 10.1586/erm.12.30

Source DB: PubMed Journal: Expert Rev Mol Diagn ISSN： 1473-7159 Impact factor: 5.225

85 in total

1. EGF converts transit-amplifying neurogenic precursors in the adult brain into multipotent stem cells.

Authors: Fiona Doetsch; Leopoldo Petreanu; Isabelle Caille; Jose Manuel Garcia-Verdugo; Arturo Alvarez-Buylla
Journal: Neuron Date: 2002-12-19 Impact factor: 17.173

2. GFAP-positive progenitor cells produce neurons and oligodendrocytes throughout the CNS.

Authors: Kristen B Casper; Ken D McCarthy
Journal: Mol Cell Neurosci Date: 2006-02-03 Impact factor: 4.314

3. Glial progenitors in adult white matter are driven to form malignant gliomas by platelet-derived growth factor-expressing retroviruses.

Authors: Marcela Assanah; Richard Lochhead; Alfred Ogden; Jeffrey Bruce; James Goldman; Peter Canoll
Journal: J Neurosci Date: 2006-06-21 Impact factor: 6.167

4. Cooperativity within and among Pten, p53, and Rb pathways induces high-grade astrocytoma in adult brain.

Authors: Lionel M L Chow; Raelene Endersby; Xiaoyan Zhu; Sherri Rankin; Chunxu Qu; Junyuan Zhang; Alberto Broniscer; David W Ellison; Suzanne J Baker
Journal: Cancer Cell Date: 2011-03-08 Impact factor: 31.743

5. Aging results in reduced epidermal growth factor receptor signaling, diminished olfactory neurogenesis, and deficits in fine olfactory discrimination.

Authors: Emeka Enwere; Tetsuro Shingo; Christopher Gregg; Hirokazu Fujikawa; Shigeki Ohta; Samuel Weiss
Journal: J Neurosci Date: 2004-09-22 Impact factor: 6.167

6. Recursive partitioning analysis of prognostic factors in three Radiation Therapy Oncology Group malignant glioma trials.

Authors: W J Curran; C B Scott; J Horton; J S Nelson; A S Weinstein; A J Fischbach; C H Chang; M Rotman; S O Asbell; R E Krisch
Journal: J Natl Cancer Inst Date: 1993-05-05 Impact factor: 13.506

7. NG2+/Olig2+ cells are the major cycle-related cell population of the adult human normal brain.

Authors: Sameh Geha; Johan Pallud; Marie-Pierre Junier; Bertrand Devaux; Nadine Leonard; Francine Chassoux; Hervé Chneiweiss; Catherine Daumas-Duport; Pascale Varlet
Journal: Brain Pathol Date: 2009-05-22 Impact factor: 6.508

8. Modeling Adult Gliomas Using RCAS/t-va Technology.

Authors: Dolores Hambardzumyan; Nduka M Amankulor; Karim Y Helmy; Oren J Becher; Eric C Holland
Journal: Transl Oncol Date: 2009-05 Impact factor: 4.243

9. Recruited cells can become transformed and overtake PDGF-induced murine gliomas in vivo during tumor progression.

Authors: Elena I Fomchenko; Joseph D Dougherty; Karim Y Helmy; Amanda M Katz; Alexander Pietras; Cameron Brennan; Jason T Huse; Ana Milosevic; Eric C Holland
Journal: PLoS One Date: 2011-07-06 Impact factor: 3.240

10. PDGF receptors in the rat CNS: during late neurogenesis, PDGF alpha-receptor expression appears to be restricted to glial cells of the oligodendrocyte lineage.

Authors: N P Pringle; H S Mudhar; E J Collarini; W D Richardson
Journal: Development Date: 1992-06 Impact factor: 6.868

56 in total

Review 1. Cell of origin for malignant gliomas and its implication in therapeutic development.

Authors: Hui Zong; Luis F Parada; Suzanne J Baker
Journal: Cold Spring Harb Perspect Biol Date: 2015-01-29 Impact factor: 10.005

Review 2. Advancing neuro-oncology of glial tumors from big data and multidisciplinary studies.

Authors: Chin-Hsing Annie Lin; Mitchel S Berger
Journal: J Neurooncol Date: 2019-12-18 Impact factor: 4.130

3. Pericytes in Glioblastomas: Multifaceted Role Within Tumor Microenvironments and Potential for Therapeutic Interventions.

Authors: Anirudh Sattiraju; Akiva Mintz
Journal: Adv Exp Med Biol Date: 2019 Impact factor: 2.622

Review 4. Glia as drivers of abnormal neuronal activity.

Authors: Stefanie Robel; Harald Sontheimer
Journal: Nat Neurosci Date: 2016-01 Impact factor: 24.884

5. The transcriptional regulatory network of proneural glioma determines the genetic alterations selected during tumor progression.

Authors: Adam M Sonabend; Mukesh Bansal; Paolo Guarnieri; Liang Lei; Benjamin Amendolara; Craig Soderquist; Richard Leung; Jonathan Yun; Benjamin Kennedy; Julia Sisti; Samuel Bruce; Rachel Bruce; Reena Shakya; Thomas Ludwig; Steven Rosenfeld; Peter A Sims; Jeffrey N Bruce; Andrea Califano; Peter Canoll
Journal: Cancer Res Date: 2014-01-03 Impact factor: 12.701