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FAM83G/PAWS1 controls cytoskeletal dynamics and cell migration through association with the SH3 adaptor CD2AP

Gopal P Sapkota, Timothy D Cummins, Kevin Z. L. Wu, Polyxeni Bozatzi, Kevin S Dingwell, Thomas J Macartney, Nicola T Wood, Joby Varghese, Robert Gourlay, David G Campbell, Alan Prescott, Eric Griffis, James C Smith
doi: https://doi.org/10.1101/106971

Abstract

Our previous studies of PAWS1 (Protein Associated With SMAD1) have suggested that this molecule has roles beyond BMP signalling. To investigate these roles, we have used CRISPR/Cas9 to generate PAWS1 knockout cells. Here, we show that PAWS1 plays a role in the regulation of the cytoskeletal machinery, including actin and focal adhesion dynamics, and cell migration. Confocal microscopy and live cell imaging of actin in U2OS cells indicate that PAWS1 is also involved in cytoskeletal dynamics and organization. Loss of PAWS1 causes severe defects in F-actin organization and distribution as well as in lamellipodial organization, resulting in impaired cell migration. PAWS1 interacts in a dynamic fashion with the actin/cytoskeletal regulator CD2AP at lamellae, suggesting that its association with CD2AP controls actin organization and cellular migration.

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The copyright holder for this preprint is the author/funder. It is made available under a CC-BY-NC-ND 4.0 International license.
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  • Posted February 8, 2017.

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FAM83G/PAWS1 controls cytoskeletal dynamics and cell migration through association with the SH3 adaptor CD2AP
Gopal P Sapkota, Timothy D Cummins, Kevin Z. L. Wu, Polyxeni Bozatzi, Kevin S Dingwell, Thomas J Macartney, Nicola T Wood, Joby Varghese, Robert Gourlay, David G Campbell, Alan Prescott, Eric Griffis, James C Smith
bioRxiv 106971; doi: https://doi.org/10.1101/106971
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