In Vivo Functional Characterization of EGFR Variants Identifies Novel Drivers of Glioblastoma

Overview

Journal Neuro Oncol

Publisher Oxford University Press

Specialties Neurology
Oncology

Date 2022 Aug 31

PMID 36044040

Authors

Kwanha Yu

Kathleen Kong

Brittney Lozzi

Estefania Luna-Figueroa

Alexis Cervantes

Rachel Curry

Carrie A Mohila

Ganesh Rao

Ali Jalali

Gordon B Mills

Kenneth L Scott

Benjamin Deneen

Affiliations

Soon will be listed here.

Abstract

Background: Glioblastoma is the most common and aggressive primary brain tumor. Large-scale sequencing initiatives have cataloged its mutational landscape in hopes of elucidating mechanisms driving this deadly disease. However, a major bottleneck in harnessing this data for new therapies is deciphering "driver" and "passenger" events amongst the vast volume of information.

Methods: We utilized an autochthonous, in vivo screening approach to identify driver, EGFR variants. RNA-Seq identified unique molecular signatures of mouse gliomas across these variants, which only differ by a single amino acid change. In particular, we identified alterations to lipid metabolism, which we further validated through an unbiased lipidomics screen.

Results: Our screen identified A289I as the most potent EGFR variant, which has previously not been characterized. One of the mechanisms through which A289I promotes gliomagenesis is to alter cellular triacylglycerides through MTTP. Knockout of Mttp in mouse gliomas, reduces gliomagenesis in multiple models.

Conclusions: EGFR variants that differ by a single amino acid residue differentially promote gliomagenesis. Among the identified mechanism that drives glioma growth include lipid metabolism through MTTP. Understanding triacylglyceride accumulation may present a prospective therapeutic pathway for this deadly disease.

Citing Articles

Glioblastoma disrupts cortical network activity at multiple spatial and temporal scales.

Meyer J, Yu K, Luna-Figueroa E, Deneen B, Noebels J Nat Commun. 2024; 15(1):4503.

PMID: 38802334 PMC: 11130179. DOI: 10.1038/s41467-024-48757-5.

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