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Inhibition of β1 integrin induces its association with MT1-MMP and decreases MT1-MMP internalization and cellular invasiveness

Olivia R. Grafinger, Genya Gorshtein, Tyler Stirling, Jennifer Geddes‐McAlister, Marc G. Coppolino

2021Cellular Signalling17 citationsDOIOpen Access PDF

Abstract

Integrin signaling plays a fundamental role in the establishment of focal adhesions and the subsequent formation of invadopodia in malignant cancer cells. Invadopodia facilitate localized adhesion and degradation of the extracellular matrix (ECM), which promote tumour cell invasion and metastasis. Degradation of ECM components is often driven by membrane type-1 matrix metalloproteinase (MT1-MMP), and we have recently shown that regulation of enzyme internalization is dependent on signaling downstream of β1 integrin. Phosphorylation of the cytoplasmic tail of MT1-MMP is required for its internalization and delivery to Rab5-marked early endosomes, where it is then able to be recycled to new sites of invadopodia formation and promote invasion. Here we found that inhibition of β1 integrin, using the antibody AIIB2, inhibited the internalization and recycling of MT1-MMP that is necessary to support long-term cellular invasion. MT1-MMP and β1 integrin were sequestered at the cell surface when β1-integrin was inhibited, and their association under these conditions was detected using immunoprecipitation and mass spectrometry analyses. Sequestration of β1 integrin and MT1-MMP at the cell surface resulted in the formation of large invadopodia and local ECM degradation; however, the impaired internalization and recycling of MT1-MMP and β1 integrin ultimately led to a loss of invasive behaviour.

Topics & Concepts

InvadopodiaInternalizationCell biologyIntegrinEndosomeExtracellular matrixFocal adhesionMatrix metalloproteinaseCell adhesionCollagen receptorChemistryPhosphorylationBiologyCellCancer cellIntracellularBiochemistryCancerGeneticsProtease and Inhibitor MechanismsCell Adhesion Molecules ResearchCellular Mechanics and Interactions