RND3 binds effectors

Stable Identifier
Reaction [binding]
Homo sapiens
Locations in the PathwayBrowser
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Active GTP bound RND3 binds the following effectors:
ARHGAP5 (Wennerberg et al. 2003; Bagci et al. 2020)
KCTD13 (Gladwyn Ng et al. 2016)
PLEKHG5 (Goh and Manser 2010)
ROCK1 (Riento et al. 2003) RND3 inhibits kinase activity of ROCK1
TNFAIP1 (Gladwyn Ng et al. 2016)
UBXN11 (Katoh et al. 2002)

The following candidate RND3 effectors were reported in the high throughput screen by Bagci et al. 2020 or were reported by some but not all studies:
ANKRD26 (Bagci et al. 2020)
ARHGAP21 (Bagci et al. 2020)
ARHGAP35 (Wennerberg et al. 2003: binding to active RND3; Bagci et al. 2020: no binding to active RND3)
CAV1 (Bagci et al. 2020)
CCDC88A (Bagci et al. 2020)
CKAP4 (Bagci et al. 2020)
CKB (Bagci et al. 2020)
CPD (Bagci et al. 2020)
DDX4 (Bagci et al. 2020)
DEPDC1B (Bagci et al. 2020)
DLG5 (Bagci et al. 2020)
DSG1 (Bagci et al. 2020)
DSP (Bagci et al. 2020)
DST (Bagci et al. 2020)
EPHA2 (Bagci et al. 2020)
FAM83B (Bagci et al. 2020)
FLOT2 (Bagci et al. 2020)
KTN1 (Bagci et al. 2020) - RND3 has not been shown to localize to the endoplasmic reticulum membrane, but some isoforms of KTN1 have been shown to localize to the plasma membrane (Santama et al. 2004)
LEMD3 (Bagci et al. 2020)
MUC13 (Bagci et al. 2020)
NISCH (Bagci et al. 2020)
PICALM (Bagci et al. 2020)
PIK3R1 (Bagci et al. 2020)
PIK3R2 (Bagci et al. 2020)
PKP4 (Bagci et al. 2020)
PTPN13 (Bagci et al. 2020)
RASAL2 (Bagci et al. 2020)
RBMX (Bagci et al. 2020)
SCRIB (Bagci et al. 2020)
SEMA4F (Bagci et al. 2020)
TMOD3 (Bagci et al. 2020)
TXNL1 (Bagci et al. 2020)
VANGL1 (Bagci et al. 2020)
VANGL2 (Bagci et al. 2020)
WDR6 (Bagci et al. 2020)

RND3 does not interact with the following effectors:
ALDH3A2 (Bagci et al. 2020)
EPSTI1 (Bagci et al. 2020)
FAM135A (Bagci et al. 2020)
FNBP1 (Bagci et al. 2020)
FRS2 (Harada et al. 2005)
FRS3 (Harada et al. 2003)
GOLGA3 (Bagci et al. 2020)
KIDINS220 (Bagci et al. 2020)
KIF14 (Bagci et al. 2020)
LRRC1 (Bagci et al. 2020)
NUDC (Bagci et al. 2020)
ROCK2 (Riento et al. 2003)
RRAS2 (Bagci et al. 2020)
STMN2 (Li et al. 2009)
TFRC (Bagci et al. 2020)
TMEM59 (Bagci et al. 2020)
UHRF1BP1L (Bagci et al. 2020)
Literature References
PubMed ID Title Journal Year
26969432 Bacurd1/Kctd13 and Bacurd2/Tnfaip1 are interacting partners to Rnd proteins which influence the long-term positioning and dendritic maturation of cerebral cortical neurons

Qu, Z, Ngo, L, Huang, L, Vanyai, HK, Cullen, HD, Davis, JM, Li, SS, Gladwyn-Ng, I, Heng, JI

Neural Dev 2016
15738000 Direct interaction of Rnd1 with FRS2 beta regulates Rnd1-induced down-regulation of RhoA activity and is involved in fibroblast growth factor-induced neurite outgrowth in PC12 cells

Harada, A, Katoh, H, Negishi, M

J. Biol. Chem. 2005
11940653 Socius is a novel Rnd GTPase-interacting protein involved in disassembly of actin stress fibers

Harada, A, Katoh, H, Mori, K, Negishi, M

Mol. Cell. Biol. 2002
20811643 The RhoA GEF Syx is a target of Rnd3 and regulated via a Raf1-like ubiquitin-related domain

Goh, LL, Manser, E

PLoS ONE 2010
31871319 Mapping the proximity interaction network of the Rho-family GTPases reveals signalling pathways and regulatory mechanisms

Tran, V, Gingras, AC, Elkholi, IE, Robert, A, Boulais, J, Faubert, D, Dubé, N, Hipfner, DR, Cote, JF, Lin, ZY, Bagci, H, Sriskandarajah, N, Thibault, MP

Nat. Cell Biol. 2020
18996843 Rnd1 regulates axon extension by enhancing the microtubule destabilizing activity of SCG10

Ghavampur, S, Li, YH, Grenningloh, G, Bondallaz, P, Püschel, AW, Will, L

J. Biol. Chem. 2009
12842009 Rnd proteins function as RhoA antagonists by activating p190 RhoGAP

Burridge, K, Ellerbroek, SM, Forget, MA, Settleman, J, Arthur, WT, Wennerberg, K, Hansen, SH, Der, CJ

Curr. Biol. 2003
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