RIT1 controls actin dynamics via complex formation with RAC1/CDC42 and PAK1

Uta Meyer Zum Büschenfelde; Laura Isabel Brandenstein; Leonie von Elsner; Kristina Flato; Tess Holling; Martin Zenker; Georg Rosenberger; Kerstin Kutsche

doi:10.1371/journal.pgen.1007370

RIT1 controls actin dynamics via complex formation with RAC1/CDC42 and PAK1

Standard

RIT1 controls actin dynamics via complex formation with RAC1/CDC42 and PAK1. / Meyer Zum Büschenfelde, Uta; Brandenstein, Laura Isabel; von Elsner, Leonie; Flato, Kristina; Holling, Tess; Zenker, Martin; Rosenberger, Georg ; Kutsche, Kerstin.

In: PLOS GENET, Vol. 14, No. 5, 05.2018, p. e1007370.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Meyer Zum Büschenfelde, U, Brandenstein, LI, von Elsner, L, Flato, K, Holling, T, Zenker, M, Rosenberger, G & Kutsche, K 2018, 'RIT1 controls actin dynamics via complex formation with RAC1/CDC42 and PAK1', PLOS GENET, vol. 14, no. 5, pp. e1007370. https://doi.org/10.1371/journal.pgen.1007370

APA

Meyer Zum Büschenfelde, U., Brandenstein, L. I., von Elsner, L., Flato, K., Holling, T., Zenker, M., Rosenberger, G., & Kutsche, K. (2018). RIT1 controls actin dynamics via complex formation with RAC1/CDC42 and PAK1. PLOS GENET, 14(5), e1007370. https://doi.org/10.1371/journal.pgen.1007370

Vancouver

Meyer Zum Büschenfelde U, Brandenstein LI, von Elsner L, Flato K, Holling T, Zenker M et al. RIT1 controls actin dynamics via complex formation with RAC1/CDC42 and PAK1. PLOS GENET. 2018 May;14(5):e1007370. https://doi.org/10.1371/journal.pgen.1007370

Bibtex

@article{bf5b217ea246476694eb605baef86a26,

title = "RIT1 controls actin dynamics via complex formation with RAC1/CDC42 and PAK1",

abstract = "RIT1 belongs to the RAS family of small GTPases. Germline and somatic RIT1 mutations have been identified in Noonan syndrome (NS) and cancer, respectively. By using heterologous expression systems and purified recombinant proteins, we identified the p21-activated kinase 1 (PAK1) as novel direct effector of RIT1. We found RIT1 also to directly interact with the RHO GTPases CDC42 and RAC1, both of which are crucial regulators of actin dynamics upstream of PAK1. These interactions are independent of the guanine nucleotide bound to RIT1. Disease-causing RIT1 mutations enhance protein-protein interaction between RIT1 and PAK1, CDC42 or RAC1 and uncouple complex formation from serum and growth factors. We show that the RIT1-PAK1 complex regulates cytoskeletal rearrangements as expression of wild-type RIT1 and its mutant forms resulted in dissolution of stress fibers and reduction of mature paxillin-containing focal adhesions in COS7 cells. This effect was prevented by co-expression of RIT1 with dominant-negative CDC42 or RAC1 and kinase-dead PAK1. By using a transwell migration assay, we show that RIT1 wildtype and the disease-associated variants enhance cell motility. Our work demonstrates a new function for RIT1 in controlling actin dynamics via acting in a signaling module containing PAK1 and RAC1/CDC42, and highlights defects in cell adhesion and migration as possible disease mechanism underlying NS.",

keywords = "Journal Article",

author = "{Meyer Zum B{\"u}schenfelde}, Uta and Brandenstein, {Laura Isabel} and {von Elsner}, Leonie and Kristina Flato and Tess Holling and Martin Zenker and Georg Rosenberger and Kerstin Kutsche",

year = "2018",

month = may,

doi = "10.1371/journal.pgen.1007370",

language = "English",

volume = "14",

pages = "e1007370",

journal = "PLOS GENET",

issn = "1553-7404",

publisher = "Public Library of Science",

number = "5",

}

RIS

TY - JOUR

T1 - RIT1 controls actin dynamics via complex formation with RAC1/CDC42 and PAK1

AU - Meyer Zum Büschenfelde, Uta

AU - Brandenstein, Laura Isabel

AU - von Elsner, Leonie

AU - Flato, Kristina

AU - Holling, Tess

AU - Zenker, Martin

AU - Rosenberger, Georg

AU - Kutsche, Kerstin

PY - 2018/5

Y1 - 2018/5

N2 - RIT1 belongs to the RAS family of small GTPases. Germline and somatic RIT1 mutations have been identified in Noonan syndrome (NS) and cancer, respectively. By using heterologous expression systems and purified recombinant proteins, we identified the p21-activated kinase 1 (PAK1) as novel direct effector of RIT1. We found RIT1 also to directly interact with the RHO GTPases CDC42 and RAC1, both of which are crucial regulators of actin dynamics upstream of PAK1. These interactions are independent of the guanine nucleotide bound to RIT1. Disease-causing RIT1 mutations enhance protein-protein interaction between RIT1 and PAK1, CDC42 or RAC1 and uncouple complex formation from serum and growth factors. We show that the RIT1-PAK1 complex regulates cytoskeletal rearrangements as expression of wild-type RIT1 and its mutant forms resulted in dissolution of stress fibers and reduction of mature paxillin-containing focal adhesions in COS7 cells. This effect was prevented by co-expression of RIT1 with dominant-negative CDC42 or RAC1 and kinase-dead PAK1. By using a transwell migration assay, we show that RIT1 wildtype and the disease-associated variants enhance cell motility. Our work demonstrates a new function for RIT1 in controlling actin dynamics via acting in a signaling module containing PAK1 and RAC1/CDC42, and highlights defects in cell adhesion and migration as possible disease mechanism underlying NS.

AB - RIT1 belongs to the RAS family of small GTPases. Germline and somatic RIT1 mutations have been identified in Noonan syndrome (NS) and cancer, respectively. By using heterologous expression systems and purified recombinant proteins, we identified the p21-activated kinase 1 (PAK1) as novel direct effector of RIT1. We found RIT1 also to directly interact with the RHO GTPases CDC42 and RAC1, both of which are crucial regulators of actin dynamics upstream of PAK1. These interactions are independent of the guanine nucleotide bound to RIT1. Disease-causing RIT1 mutations enhance protein-protein interaction between RIT1 and PAK1, CDC42 or RAC1 and uncouple complex formation from serum and growth factors. We show that the RIT1-PAK1 complex regulates cytoskeletal rearrangements as expression of wild-type RIT1 and its mutant forms resulted in dissolution of stress fibers and reduction of mature paxillin-containing focal adhesions in COS7 cells. This effect was prevented by co-expression of RIT1 with dominant-negative CDC42 or RAC1 and kinase-dead PAK1. By using a transwell migration assay, we show that RIT1 wildtype and the disease-associated variants enhance cell motility. Our work demonstrates a new function for RIT1 in controlling actin dynamics via acting in a signaling module containing PAK1 and RAC1/CDC42, and highlights defects in cell adhesion and migration as possible disease mechanism underlying NS.

KW - Journal Article

U2 - 10.1371/journal.pgen.1007370

DO - 10.1371/journal.pgen.1007370

M3 - SCORING: Journal article

C2 - 29734338

VL - 14

SP - e1007370

JO - PLOS GENET

JF - PLOS GENET

SN - 1553-7404

IS - 5

ER -