Literature DB >> 32273388

PHIP drives glioblastoma motility and invasion by regulating the focal adhesion complex.

David de Semir1, Vladimir Bezrookove1, Mehdi Nosrati1, Kara R Scanlon1, Eric Singer1, Jonathon Judkins1, Christopher Rieken2, Clayton Wu1, Julia Shen1, Christina Schmudermayer1, Altaf A Dar1, James R Miller1, Charles Cobbs1, Garret Yount1, Pierre-Yves Desprez1, Robert J Debs1, Nathan Salomonis3, Sean McAllister1, James E Cleaver4, Liliana Soroceanu1, Mohammed Kashani-Sabet5.   

Abstract

The invasive behavior of glioblastoma is essential to its aggressive potential. Here, we show that pleckstrin homology domain interacting protein (PHIP), acting through effects on the force transduction layer of the focal adhesion complex, drives glioblastoma motility and invasion. Immunofluorescence analysis localized PHIP to the leading edge of glioblastoma cells, together with several focal adhesion proteins: vinculin (VCL), talin 1 (TLN1), integrin beta 1 (ITGB1), as well as phosphorylated forms of paxillin (pPXN) and focal adhesion kinase (pFAK). Confocal microscopy specifically localized PHIP to the force transduction layer, together with TLN1 and VCL. Immunoprecipitation revealed a physical interaction between PHIP and VCL. Targeted suppression of PHIP resulted in significant down-regulation of these focal adhesion proteins, along with zyxin (ZYX), and produced profoundly disorganized stress fibers. Live-cell imaging of glioblastoma cells overexpressing a ZYX-GFP construct demonstrated a role for PHIP in regulating focal adhesion dynamics. PHIP silencing significantly suppressed the migratory and invasive capacity of glioblastoma cells, partially restored following TLN1 or ZYX cDNA overexpression. PHIP knockdown produced substantial suppression of tumor growth upon intracranial implantation, as well as significantly reduced microvessel density and secreted VEGF levels. PHIP copy number was elevated in the classical glioblastoma subtype and correlated with elevated EGFR levels. These results demonstrate PHIP's role in regulating the actin cytoskeleton, focal adhesion dynamics, and tumor cell motility, and identify PHIP as a key driver of glioblastoma migration and invasion.

Entities:  

Keywords:  PHIP; angiogenesis; glioblastoma; invasion; motility

Mesh:

Substances:

Year:  2020        PMID: 32273388      PMCID: PMC7183218          DOI: 10.1073/pnas.1914505117

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


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