Paxillin inhibits HDAC6 to regulate microtubule acetylation, Golgi structure, and polarized migration

NO Deakin, CE Turner - Journal of Cell Biology, 2014 - rupress.org
NO Deakin, CE Turner
Journal of Cell Biology, 2014rupress.org
Polarized cell migration is essential for normal organism development and is also a critical
component of cancer cell invasion and disease progression. Directional cell motility requires
the coordination of dynamic cell–extracellular matrix interactions as well as repositioning of
the Golgi apparatus, both of which can be controlled by the microtubule (MT) cytoskeleton. In
this paper, we have identified a new and conserved role for the focal adhesion scaffold
protein paxillin in regulating the posttranslational modification of the MT cytoskeleton …
Polarized cell migration is essential for normal organism development and is also a critical component of cancer cell invasion and disease progression. Directional cell motility requires the coordination of dynamic cell–extracellular matrix interactions as well as repositioning of the Golgi apparatus, both of which can be controlled by the microtubule (MT) cytoskeleton. In this paper, we have identified a new and conserved role for the focal adhesion scaffold protein paxillin in regulating the posttranslational modification of the MT cytoskeleton through an inhibitory interaction with the α-tubulin deacetylase HDAC6. We also determined that through HDAC6-dependent regulation of the MT cytoskeleton, paxillin regulates both Golgi organelle integrity and polarized cell invasion and migration in both three-dimensional and two-dimensional matrix microenvironments. Importantly, these data reveal a fundamental role for paxillin in coordinating MT acetylation-dependent cell polarization and migration in both normal and transformed cells.
rupress.org