Vignal E, De Toledo M, Comunale F, Ladopoulou A, Gauthier-Rouviere C, Blangy A, et al. Characterization of TCL, a new GTPase of the rho family related to TC10 andCcdc42. J Biol Chem. 2000;275:36457–64.
Article
CAS
PubMed
Google Scholar
Uemura A, Fukushima Y. Rho GTPases in Retinal Vascular Diseases. Int J Mol Sci. 2021;22:3684.
Article
CAS
PubMed
PubMed Central
Google Scholar
Heasman SJ, Ridley AJ. Mammalian Rho GTPases: new insights into their functions from in vivo studies. Nat Rev Mol Cell Biol. 2008;9:690–701.
Article
CAS
PubMed
Google Scholar
Mosaddeghzadeh N, Ahmadian MR. The RHO family GTPases: mechanisms of regulation and signaling. Cells. 2021;10:1831.
Article
CAS
PubMed
PubMed Central
Google Scholar
Cervantes-Villagrana RD, Color-Aparicio VM, Reyes-Cruz G, Vazquez-Prado J. Protumoral bone marrow-derived cells migrate via Gbetagamma-dependent signaling pathways and exhibit a complex repertoire of RhoGEFs. J Cell Commun Signal. 2019;13:179–91.
Article
PubMed
PubMed Central
Google Scholar
Takase H, Matsumoto K, Yamadera R, Kubota Y, Otsu A, Suzuki R, et al. Genome-wide identification of endothelial cell-enriched genes in the mouse embryo. Blood. 2012;120:914–23.
Article
CAS
PubMed
Google Scholar
Eelen G, Dubois C, Cantelmo AR, Goveia J, Bruning U, DeRan M, et al. Role of glutamine synthetase in angiogenesis beyond glutamine synthesis. Nature. 2018;561:63–69.
Article
CAS
PubMed
Google Scholar
Valdembri D, Serini G. Angiogenesis: the Importance of RHOJ-mediated trafficking of active integrins. Curr Biol. 2020;30:R652–4.
Article
CAS
PubMed
Google Scholar
Kim C, Yang H, Fukushima Y, Saw PE, Lee J, Park JS, et al. Vascular RhoJ is an effective and selective target for tumor angiogenesis and vascular disruption. Cancer Cell. 2014;25:102–17.
Article
CAS
PubMed
Google Scholar
Wang M, Zhang C, Zheng Q, Ma Z, Qi M, Di G, et al. RhoJ facilitates angiogenesis in glioblastoma via JNK/VEGFR2 mediated activation of PAK and ERK signaling pathways. Int J Biol Sci. 2022;18:942–55.
Article
CAS
PubMed
PubMed Central
Google Scholar
Ruiz R, Jahid S, Harris M, Marzese DM, Espitia F, Vasudeva P, et al. The RhoJ-BAD signaling network: An Achilles’ heel for BRAF mutant melanomas. PLoS Genet. 2017;13:e1006913.
Article
PubMed
PubMed Central
Google Scholar
Wang M, Jiang X, Yang Y, Chen H, Zhang C, Xu H, et al. Rhoj Is a novel target for progression and invasion of glioblastoma by impairing cytoskeleton dynamics. Neurotherapeutics. 2020;17:2028–40.
Article
CAS
PubMed
PubMed Central
Google Scholar
Chen B, Yuan Y, Sun L, Chen J, Yang M, Yin Y, et al. MKL1 mediates TGF-beta induced RhoJ transcription to promote breast cancer cell migration and invasion. Front Cell Dev Biol. 2020;8:832.
Article
CAS
PubMed
PubMed Central
Google Scholar
Debaugnies M, Rodriguez-Acebes S, Blondeau J, Parent MA, Zocco M, Song Y, et al. RHOJ controls EMT-associated resistance to chemotherapy. Nature. 2023;616:168–75.
Article
CAS
PubMed
PubMed Central
Google Scholar
Jahid S, Ortega JA, Vuong LM, Acquistapace IM, Hachey SJ, Flesher JL, et al. Structure-based design of CDC42 effector interaction inhibitors for the treatment of cancer. Cell Rep. 2022;39:110641.
Article
CAS
PubMed
PubMed Central
Google Scholar
Wennerberg K, Rossman KL, Der CJ. The Ras superfamily at a glance. J Cell Sci. 2005;118:843–6.
Article
CAS
PubMed
Google Scholar
Letunic I, Bork P. Interactive Tree Of Life (iTOL) v5: an online tool for phylogenetic tree display and annotation. Nucleic Acids Res. 2021;49:W293–6.
Article
CAS
PubMed
PubMed Central
Google Scholar
Ackermann KL, Florke RR, Reyes SS, Tader BR, Hamann MJ. TCL/RhoJ plasma membrane localization and nucleotide exchange is coordinately regulated by amino acids within the N terminus and a distal loop region. J Biol Chem. 2016;291:23604–17.
Article
CAS
PubMed
PubMed Central
Google Scholar
Florke RR, Young GT, Hamann MJ. Unraveling a model of TCL/RhoJ allosterism using TC10 reverse chimeras. Small GTPases. 2020;11:138–45.
Article
PubMed
Google Scholar
Qadir MI, Parveen A, Ali M. Cdc42: role in cancer management. Chem Biol Drug Des. 2015;86:432–9.
Article
CAS
PubMed
Google Scholar
Murphy GA, Solski PA, Jillian SA, Perez de la Ossa P, D’Eustachio P, Der CJ, et al. Cellular functions of TC10, a Rho family GTPase: regulation of morphology, signal transduction and cell growth. Oncogene. 1999;18:3831–45.
Article
CAS
PubMed
Google Scholar
Tong S, Liss AS, You M, Bose HR Jr. The activation of TC10, a Rho small GTPase, contributes to v-Rel-mediated transformation. Oncogene. 2007;26:2318–29.
Article
CAS
PubMed
Google Scholar
Satoh K, Sakai S, Nishizuka M. Knockdown of RhoQ, a member of Rho GTPase, accelerates TGF-beta-induced EMT in human lung adenocarcinoma. Biochem Biophys Rep. 2022;32:101346.
CAS
PubMed
PubMed Central
Google Scholar
Bridges E, Sheldon H, Kleibeuker E, Ramberger E, Zois C, Barnard A, et al. RHOQ is induced by DLL4 and regulates angiogenesis by determining the intracellular route of the Notch intracellular domain. Angiogenesis. 2020;23:493–513.
Article
CAS
PubMed
PubMed Central
Google Scholar
Farhan H, Hsu VW. Cdc42 and cellular polarity: emerging roles at the golgi. Trends Cell Biol. 2016;26:241–8.
Article
CAS
PubMed
Google Scholar
Cerione RA. Cdc42: new roads to travel. Trends Cell Biol. 2004;14:127–32.
Article
CAS
PubMed
Google Scholar
Sundararaman A, Fukushima Y, Norman JC, Uemura A, Mellor H. RhoJ regulates alpha5beta1 integrin trafficking to control fibronectin remodeling during angiogenesis. Curr Biol. 2020;30:2146–55.e5.
Article
CAS
PubMed
Google Scholar
Fukushima Y, Okada M, Kataoka H, Hirashima M, Yoshida Y, Mann F, et al. Sema3E-PlexinD1 signaling selectively suppresses disoriented angiogenesis in ischemic retinopathy in mice. J Clin Invest. 2011;121:1974–85.
Article
CAS
PubMed
PubMed Central
Google Scholar
Kusuhara S, Fukushima Y, Fukuhara S, Jakt LM, Okada M, Shimizu Y, et al. Arhgef15 promotes retinal angiogenesis by mediating VEGF-induced Cdc42 activation and potentiating RhoJ inactivation in endothelial cells. PLoS ONE. 2012;7:e45858.
Article
CAS
PubMed
PubMed Central
Google Scholar
Wu A, Jiang X. p21-
Comments (0)