Glioma: experimental models and reality.
Document Type
Article
Publication Date
2-2017
JAX Source
Acta Neuropathol 2017 Feb; 133(2):263-282
Volume
133
Issue
2
First Page
263
Last Page
282
ISSN
1432-0533
PMID
28074274
Abstract
In theory, in vitro and in vivo models for human gliomas have great potential to not only enhance our understanding of glioma biology, but also to facilitate the development of novel treatment strategies for these tumors. For reliable prediction and validation of the effects of different therapeutic modalities, however, glioma models need to comply with specific and more strict demands than other models of cancer, and these demands are directly related to the combination of genetic aberrations and the specific brain micro-environment gliomas grow in. This review starts with a brief introduction on the pathological and molecular characteristics of gliomas, followed by an overview of the models that have been used in the last decades in glioma research. Next, we will discuss how these models may play a role in better understanding glioma development and especially in how they can aid in the design and optimization of novel therapies. The strengths and weaknesses of the different models will be discussed in light of genotypic, phenotypic and metabolic characteristics of human gliomas. The last part of this review provides some examples of how therapy experiments using glioma models can lead to deceptive results when such characteristics are not properly taken into account. Acta Neuropathol 2017 Feb; 133(2):263-282.
Recommended Citation
Lenting K,
Verhaak R,
Ter Laan M,
Wesseling P,
Leenders W.
Glioma: experimental models and reality. Acta Neuropathol 2017 Feb; 133(2):263-282