scholarly journals RAPGEF5 regulates nuclear translocation of β-catenin

2017 ◽  
Author(s):  
John N. Griffin ◽  
Florencia del Viso ◽  
Anna R. Duncan ◽  
Andrew Robson ◽  
Saurabh Kulkarni ◽  
...  
Keyword(s):  
Wnt Signaling ◽  
Nuclear Translocation ◽  
Nuclear Transport ◽  
Nucleotide Exchange ◽  
Transport Pathway ◽  
Disease States ◽  
Guanine Nucleotide Exchange ◽  
Nucleotide Exchange Factor ◽  
Pathway Activation ◽  
Intensive Investigation

SUMMARYCanonical Wnt signaling coordinates many critical aspects of embryonic development, while dysregulated Wnt signaling contributes to common diseases, including congenital malformations and cancer. The nuclear localization of β-catenin is the defining step in pathway activation. However, despite intensive investigation, the mechanisms regulating β-catenin nuclear transport remain undefined. In a patient with congenital heart disease and heterotaxy, a disorder of left-right patterning, we previously identified the guanine nucleotide exchange factor, RAPGEF5. Here, we demonstrate that RAPGEF5 regulates left-right patterning via Wnt signaling. In particular, RAPGEF5, regulates the nuclear translocation of β-catenin independently of both β-catenin cytoplasmic stabilization and the importin β1/Ran mediated transport system. We propose a model whereby RAPGEF5 activates the nuclear GTPases, Rap1/2, to facilitate the nuclear transport of β-catenin, defining a parallel nuclear transport pathway to Ran. Our results suggest new targets for modulating Wnt signaling in disease states.

Ran is associated with chromosomes during starfish oocyte meiosis and embryonic mitoses

Zygote ◽  
1999 ◽  
Vol 8 (S1) ◽  
pp. S91-S91
Author(s):  
Beth Hinkle ◽  
Melissa M. Rolls ◽  
Pascal Stein ◽  
Tom Rapoport ◽  
Mark Terasaki
Keyword(s):  
Nuclear Transport ◽  
Nucleotide Exchange ◽  
Activator Proteins ◽  
Guanine Nucleotide Exchange ◽  
Gtpase Activating Proteins ◽  
Small G Protein ◽  
Oocyte Meiosis ◽  
Nucleotide Exchange Factor ◽  
Contrast Reduction ◽  
Bipolar Spindles

Ran is an abundant small G protein that has a central role in nuclear transport during interphase. Ran function depends on distinct pools of RanGTP in the nucleus and RanGDP in the cytoplasm, which are maintained by compartmentalisation of the nucleotide exchange and GTPase activating proteins for Ran. RCC1 (Regulator of Chromosome Condensation) is the only known guanine nucleotide exchange factor for Ran and is associated with chromatin. RanGAPl together with RanBPl are the primary GTPase activator proteins and are located in the cytoplasm.Ran function in nuclear transport is clearly inactivated after the nuclear envelope has disassembled during mitosis. There is now evidence that Ran plays a role in organising the spindle. Experiments using well-characterised cell-free extracts from meiotic metaphase II arrested Xenopus eggs suggest that Ran regulates microtubules involved in spindle assembly (Carazo-Salas et al., 1999; Kalab et al., 1999; Ohba et al., 1999; Wilde & Zheng, 1999). These experiments demonstrate that high levels of RanGTP or GTP-locked forms of Ran result in aster formation and can cause formation of bipolar spindles in the absence of centrosomes or chromosomes. In contrast, reduction of RanGTP blocks centriole- and chromatin-dependent aster formation.

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