[PDF][PDF] Low-density lipoprotein receptor-related protein-5 binds to Axin and regulates the canonical Wnt signaling pathway
J Mao, J Wang, B Liu, W Pan, GH Farr, C Flynn, H Yuan… - Molecular cell, 2001 - cell.com
J Mao, J Wang, B Liu, W Pan, GH Farr, C Flynn, H Yuan, S Takada, D Kimelman, L Li, D Wu
Molecular cell, 2001•cell.comTo understand how the Wnt coreceptor LRP-5 is involved in transducing the canonical Wnt
signals, we identified Axin as a protein that interacts with the intracellular domain of LRP-5.
LRP-5, when expressed in fibroblast cells, showed no effect on the canonical Wnt signaling
pathway by itself, but acted synergistically with Wnt. In contrast, LRP-5 mutants lacking the
extracellular domain functioned as constitutively active forms that bind Axin and that induce
LEF-1 activation by destabilizing Axin and stabilizing β-catenin. Addition of Wnt caused the …
signals, we identified Axin as a protein that interacts with the intracellular domain of LRP-5.
LRP-5, when expressed in fibroblast cells, showed no effect on the canonical Wnt signaling
pathway by itself, but acted synergistically with Wnt. In contrast, LRP-5 mutants lacking the
extracellular domain functioned as constitutively active forms that bind Axin and that induce
LEF-1 activation by destabilizing Axin and stabilizing β-catenin. Addition of Wnt caused the …
Abstract
To understand how the Wnt coreceptor LRP-5 is involved in transducing the canonical Wnt signals, we identified Axin as a protein that interacts with the intracellular domain of LRP-5. LRP-5, when expressed in fibroblast cells, showed no effect on the canonical Wnt signaling pathway by itself, but acted synergistically with Wnt. In contrast, LRP-5 mutants lacking the extracellular domain functioned as constitutively active forms that bind Axin and that induce LEF-1 activation by destabilizing Axin and stabilizing β-catenin. Addition of Wnt caused the translocation of Axin to the membrane and enhanced the interaction between Axin and LRP-5. In addition, the LRP-5 sequences involved in interactions with Axin are required for LEF-1 activation. Thus, we conclude that the binding of Axin to LRP-5 is an important part of the Wnt signal transduction pathway.
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