search

menu

  • Research Research
    • Where science meets inspired minds

    • Back
    • Research
    • Our Science
    • Research Groups
    • Facilities & Platforms
    • Clinical research
    • Find a researcher
    • Publications
    • Knowledge Transfer
  • Careers & study Careers & study
    • Become a leader in cancer research

    • Back
    • Careers & study
    • Vacancies
    • Faculty
    • Scientific staff
    • Scientific support staff
    • Postdoctoral fellows
    • PhD Students
    • Operational staff
    • Clinical fellows
    • Life in Amsterdam
    • Student internships
  • News & Events News & Events
    • Check out our stories and events

    • Back
    • News & Events
    • News
    • Media & Press
    • Calendar
  • About us About us
    • Maximum impact for cancer patients

    • Back
    • About us
    • Our vision
    • Organization
    • Collaborations
    • Responsible Research
    • Support us
    • Visit us
    • Contact us
  • Support us
Support us
  • Home
  • Publications
  • Research
  • Publications
  • Article

Re-evaluating the role of Frat in Wnt-signal transduction.

Renée van Amerongen ,
Anton Berns

Abstract

Frat proteins are potent activators of canonical Wnt-signal transduction. By binding to GSK3, Frat prevents the phosphorylation and concomitant degradation of beta-catenin and allows the activation of downstream target genes by beta-catenin/TCF complexes. The identification of the Xenopus Frat homologue GBP as an essential component of the maternal Wnt-pathway during embryonic axis formation suggested that Frat might fulfill a similar role in higher vertebrates. As a result most, if not all, studies addressing Frat function have focused on its ability to bind GSK3 and induce signaling through beta-catenin/TCF. Consequently, Frat has been advocated as the "missing link" that bridged signaling from Dishevelled to GSK3 in the canonical Wnt-pathway. Recent mouse-knockout studies however, call for a reevaluation of the physiological role of Frat. Mice that lack all Frat-family members appear to be normal and display no obvious defects in beta-catenin/TCF signaling. This observation reopens the question as to how GSK3 activity is controlled in vertebrate canonical Wnt-signal transduction in view of the apparent dispensability of Frat. Here we will review the studies that have been conducted on Frat proteins to date, with a specific focus on those that implicate a role for Frat in Wnt-signal transduction. In addition, we will discuss potential alternatives for the endogenous function of Frat.

More about this publication

Cell cycle (Georgetown, Tex.)

Volume 4
Issue nr. 8
Pages 1065-72
Publication date 01-08-2005

Full text links

Publisher website (DOI) 16082208
Europe PubMed Central 16082208

Where science meets inspired minds

Contact

Plesmanlaan 121
1066CX Amsterdam

020 512 9111 communicatie@nki.nl

Quick links

  • Vacancies
  • News
  • Contact us
  • Media & Press

Follow us on

Disclaimer
Privacy statement
Cookies
Change cookie settings

This site uses cookies

This website uses cookies to ensure you get the best experience on our website.