Litcius/Paper detail

A cytoskeleton regulator AVIL drives tumorigenesis in glioblastoma

Zhongqiu Xie, Paweł Janczyk, Ying Zhang, Aiqun Liu, Xinrui Shi, Sandeep Singh, Loryn Facemire, Kristopher E. Kubow, Zi Li, Yuemeng Jia, Dorothy A. Schafer, James W. Mandell, Roger Abounader, Hui Li

2020Nature Communications111 citationsDOIOpen Access PDF

Abstract

Glioblastoma is a deadly cancer, with no effective therapies. Better understanding and identification of selective targets are urgently needed. We found that advillin (AVIL) is overexpressed in all the glioblastomas we tested including glioblastoma stem/initiating cells, but hardly detectable in non-neoplastic astrocytes, neural stem cells or normal brain. Glioma patients with increased AVIL expression have a worse prognosis. Silencing AVIL nearly eradicated glioblastoma cells in culture, and dramatically inhibited in vivo xenografts in mice, but had no effect on normal control cells. Conversely, overexpressing AVIL promoted cell proliferation and migration, enabled fibroblasts to escape contact inhibition, and transformed immortalized astrocytes, supporting AVIL being a bona fide oncogene. We provide evidence that the tumorigenic effect of AVIL is partly mediated by FOXM1, which regulates LIN28B, whose expression also correlates with clinical prognosis. AVIL regulates the cytoskeleton through modulating F-actin, while mutants disrupting F-actin binding are defective in its tumorigenic capabilities.

Topics & Concepts

CarcinogenesisGliomaCancer researchGene silencingBiologyOncogeneRegulatorCell biologyActin cytoskeletonGlioblastomaStem cellCytoskeletonCell cultureCancerCellCell cycleGeneticsGeneCaveolin-1 and cellular processesRNA Research and SplicingCellular Mechanics and Interactions