UBIQUITINATION-INDUCED CONFORMATIONAL CHANGE WITHIN THE DEIODINASE DIMER IS A SWITCH REGULATING ENZYME ACTIVITY - Archive ouverte HAL
Article Dans Une Revue Molecular Biology of the Cell Année : 2007

UBIQUITINATION-INDUCED CONFORMATIONAL CHANGE WITHIN THE DEIODINASE DIMER IS A SWITCH REGULATING ENZYME ACTIVITY

Résumé

Ubiquitination is a critical posttranslational regulator of protein stability and/or subcellular localization. Here we show that ubiquitination can also regulate proteins by transiently inactivating enzymatic function through conformational change in a dimeric enzyme, which can be reversed upon de-ubiquitination. Our model system is the thyroid hormone activating type 2 deiodinase (D2), an endoplasmic reticulum resident type 1 integral membrane enzyme. D2 exists as a homodimer maintained by interacting surfaces at its transmembrane and globular cytosolic domains. The D2 dimer associates with the Hedgehog-inducible ubiquitin ligase WSB-1, the ubiquitin conjugase UBC-7, and VDU-1, a D2-specific deubiquitinase. Upon binding of T4, its natural substrate, D2 is ubiquitinated, which inactivates the enzyme by interfering with D2's globular interacting surfaces that are critical for dimerization and catalytic activity. This state of transient inactivity and change in dimer conformation persists until de-ubiquitination. The continuous association of D2 with this regulatory protein complex supports rapid cycles of deiodination, conjugation to ubiquitin, and enzyme reactivation by de-ubiquitination, allowing tight control of thyroid hormone action.

Dates et versions

hal-00152172 , version 1 (06-06-2007)

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Citer

G. D. Vivek Sagar, Balázs Gereben, Isabelle Callebaut, Jean-Paul Mornon, Anikó Zeöld, et al.. UBIQUITINATION-INDUCED CONFORMATIONAL CHANGE WITHIN THE DEIODINASE DIMER IS A SWITCH REGULATING ENZYME ACTIVITY. Molecular Biology of the Cell, 2007, 13, pp.4774-83. ⟨10.1128/MCB.00283-07⟩. ⟨hal-00152172⟩
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