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ERK3/MAPK6 dictates CDC42/RAC1 activity and ARP2/3-dependent actin polymerization

Katarzyna Bogucka, Gregory S. Harms, Marie‐May Coissieux, Mohamed Bentires‐Alj, Bernd Thiede, Krishnaraj Rajalingam

2023eLife34 citationsDOIOpen Access PDF

Abstract

The actin cytoskeleton is tightly controlled by RhoGTPases, actin binding-proteins and nucleation-promoting factors to perform fundamental cellular functions. We have previously shown that ERK3, an atypical MAPK, controls IL-8 production and chemotaxis (Bogueka et al., 2020). Here, we show in human cells that ERK3 directly acts as a guanine nucleotide exchange factor for CDC42 and phosphorylates the ARP3 subunit of the ARP2/3 complex at S418 to promote filopodia formation and actin polymerization, respectively. Consistently, depletion of ERK3 prevented both basal and EGF-dependent RAC1 and CDC42 activation, maintenance of F-actin content, filopodia formation, and epithelial cell migration. Further, ERK3 protein bound directly to the purified ARP2/3 complex and augmented polymerization of actin in vitro. ERK3 kinase activity was required for the formation of actin-rich protrusions in mammalian cells. These findings unveil a fundamentally unique pathway employed by cells to control actin-dependent cellular functions.

Topics & Concepts

FilopodiaCell biologyMDia1Actin remodelingWiskott–Aldrich syndrome proteinCDC42Actin-binding proteinPseudopodiaActin cytoskeletonForminsLamellipodiumRac GTP-Binding ProteinsActinBiologyChemistryActin remodeling of neuronsRAC1Cell migrationCytoskeletonSignal transductionBiochemistryCellCellular Mechanics and InteractionsHeat shock proteins researchMelanoma and MAPK Pathways
ERK3/MAPK6 dictates CDC42/RAC1 activity and ARP2/3-dependent actin polymerization | Litcius