Cell Migration and Invadopodia Formation Require a Membrane-binding Domain of CARMIL2

Lanier, M; McConnell, Patrick I.; Cooper, John A.

doi:10.1074/jbc.m115.676882

Cited by 30 publications

(35 citation statements)

References 47 publications

(53 reference statements)

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“…A similar result was obtained for CARMIL1 ( Edwards et al ., 2013 ); therefore another function of CARMIL1 and CARMIL2 must be necessary for cell migration in wound healing. That function may be binding to membranes, which is mediated by a basic and hydrophobic membrane-binding domain, as described by us in a separate study ( Lanier et al ., 2015 ).…”

Section: Discussionmentioning

confidence: 76%

CARMIL2 is a novel molecular connection between vimentin and actin essential for cell migration and invadopodia formation

Lanier

Kim

Cooper

2015

MBoC

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Section: Discussionmentioning

confidence: 76%

CARMIL2 is a novel molecular connection between vimentin and actin essential for cell migration and invadopodia formation

Lanier

Kim

Cooper

2015

MBoC

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“…Our results provide new information about the function of CARMIL3, especially in the in vivo context of a whole vertebrate organism during the process of embryogenesis. Previous studies on CARMIL3 have used cell culture and mouse tumor models to uncover roles in neuronal synapse formation and cancer cell migration, based on actin assembly (Hsu et al, 2011;Lanier et al, 2016;Spence et al, 2019;Wang et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

CARMIL3 is important for cell migration and morphogenesis during early development in zebrafish

Stark¹,

Gao

Belk

et al. 2020

Preprint

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Cell migration is important during early animal embryogenesis. Cell migration and cell shape are controlled by actin assembly and dynamics, which depend on capping proteins, including the barbed-end heterodimeric actin capping protein (CP). CP activity can be regulated by capping-protein-interacting (CPI) motif proteins, including CARMIL (capping protein Arp2/3 myosin-I linker) family proteins. Previous studies of CARMIL3, one of the three highly conserved CARMIL genes in vertebrates, have largely been limited to cells in culture. Towards understanding CARMIL function during embryogenesis in vivo, we analyzed zebrafish lines carrying mutations of carmil3. Maternal-zygotic mutants show impaired endodermal migration during gastrulation, along with defects in dorsal forerunner cell (DFC) cluster formation, affecting the morphogenesis of Kupffers vesicle (KV). Mutant KVs are smaller and display decreased numbers of cilia, leading to defects in left/right (L/R) patterning with variable penetrance and expressivity. The penetrance and expressivity of the KV phenotype in carmil3 mutants correlated well with the L/R heart positioning defect at the end of embryogenesis. This first in vivo animal study of CARMIL3 reveals its new role for CARMIL3 during morphogenesis of the vertebrate embryo. This role involves migration of endodermal cells and DFCs, along with subsequent morphogenesis of the KV and L/R asymmetry.

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“…One cellular pool of CP with potentially great physiological significance is that found as a 1:1 complex with a CPI-motif protein that has been targeted to a membrane (11,14). Cell studies suggest that this pool of CP is part of the active fraction of CP, available to cap barbed ends of actin filaments that are near membranes (15,34). These barbed ends may have arrived at the membrane by growth of barbed ends that were nucleated by Arp2/3 complex or formins, whose activity can depend on membrane-associated signals and regulators.…”

Section: Effect Of Cpi-motif Peptides On V-1 Binding To Cpmentioning

confidence: 99%

“…This region enhances the ability of CARMILs to bind to and affect the activity of CP, relative to CPI motifs alone (19,35). CARMILs also possess a third region, downstream of (Cterminal to) the CSI motif, which also affects interaction with CP and which is responsible for binding to membranes (19,34,35). Thus, while proteins with CPI motifs were found to differ rather widely in their ability to bind and affect CP, based on the results here with CPI-motifcontaining peptides, we expect that CARMIL family proteins, with their CSI motifs and membrane-binding motifs, will differ from non-CARMIL CPI-motif proteins by an even larger degree.…”

Section: Consideration Of Carmil Proteins Relative To Other Cpi-motifmentioning

confidence: 99%

Comparative analysis of CPI-motif regulation of biochemical functions of actin capping protein

McConnell¹,

Mekel²,

Козлов³

et al. 2020

Preprint

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The heterodimeric actin capping protein (CP) is regulated by a set of proteins that contain CP-interacting (CPI) motifs. Outside of the CPI motif, the sequences of these proteins are unrelated and distinct. The CPI motif and surrounding sequences are conserved within a given protein family, when compared to those of other CPI-motif protein families. Using biochemical assays with purified proteins, we compared the ability of CPI-motif-containing peptides from different protein families to a) bind to CP, b) allosterically inhibit barbed-end capping by CP, and c) allosterically inhibit interaction of CP with V-1, another regulator of CP.We found large differences in potency among the different CPI-motif-containing peptides, and the different functional assays showed different orders of potency. These biochemical differences among the CPI-motif peptides presumably reflect interactions between CP and CPI-motif peptides involving amino-acid residues that are conserved but are not part of the strictly defined

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Cell Migration and Invadopodia Formation Require a Membrane-binding Domain of CARMIL2

Cited by 30 publications

References 47 publications

CARMIL2 is a novel molecular connection between vimentin and actin essential for cell migration and invadopodia formation

CARMIL2 is a novel molecular connection between vimentin and actin essential for cell migration and invadopodia formation

CARMIL3 is important for cell migration and morphogenesis during early development in zebrafish

Comparative analysis of CPI-motif regulation of biochemical functions of actin capping protein

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