Fucosylation of Cripto is Required for Its Ability to Facilitate Nodal Signaling

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2001 Aug 14

PMID 11500501

Citations 21

Authors

S G Schiffer

S Foley

A Kaffashan

X Hronowski

A E Zichittella

C Y Yeo

K Miatkowski

H B Adkins

B Damon

M Whitman

D Salomon

M Sanicola

K P Williams

Affiliations

Soon will be listed here.

Abstract

O-linked fucose modification is rare and has been shown to occur almost exclusively within epidermal growth factor (EGF)-like modules. We have found that the EGF-CFC family member human Cripto-1 (CR) is modified with fucose and through a combination of peptide mapping, mass spectrometry, and sequence analysis localized the site of attachment to Thr-88. The identification of a fucose modification on human CR within its EGF-like domain and the presence of a consensus fucosylation site within all EGF-CFC family members suggest that this is a biologically important modification in CR, which functionally distinguishes it from the EGF ligands that bind the type 1 erbB growth factor receptors. A single CR point mutation, Thr-88 --> Ala, results in a form of the protein that is not fucosylated and has substantially weaker activity in cell-based CR/Nodal signaling assays, indicating that fucosylation is functionally important for CR to facilitate Nodal signaling.

Citing Articles

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Mouse WIF1 Is Only Modified with -Fucose in Its EGF-like Domain III Despite Two Evolutionarily Conserved Consensus Sites.

Pennarubia F, Pinault E, Al Jaam B, Brun C, Maftah A, Germot A Biomolecules. 2020; 10(9).

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Biochemical and Cellular Analysis Reveals Ligand Binding Specificities, a Molecular Basis for Ligand Recognition, and Membrane Association-dependent Activities of Cripto-1 and Cryptic.

Aykul S, Parenti A, Chu K, Reske J, Floer M, Ralston A J Biol Chem. 2017; 292(10):4138-4151.

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