Multiple phosphorylation events control mitotic degradation of the muscle transcription factor Myf5Report as inadecuate




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BMC Biochemistry

, 6:27

First Online: 01 December 2005Received: 05 August 2005Accepted: 01 December 2005

Abstract

BackgroundThe two myogenic regulatory factors Myf5 and MyoD are basic helix-loop-helix muscle transcription factors undergoing differential cell cycle dependent proteolysis in proliferating myoblasts. This regulated degradation results in the striking expression of these two factors at distinct phases of the cell cycle, and suggests that their precise and alternated disappearance is an important feature of myoblasts, maybe connected to the maintenance of the proliferative status and-or commitment to the myogenic lineage of these cells. One way to understand the biological functions of the cyclic expression of these proteins is to specifically alter their degradation, and to analyze the effects of their stabilization on cells. To this aim, we undertook the biochemical analysis of the mechanisms governing Myf5 mitotic degradation, using heterologous systems.

ResultsWe show here that mitotic degradation of Myf5 is conserved in non-myogenic cells, and is thus strictly under the control of the cell cycle apparatus. Using Xenopus egg extracts as an in vitro system to dissect the main steps of Myf5 mitotic proteolysis, we show that 1 Myf5 stability is regulated by a complex interplay of phosphorylation-dephosphorylation, probably involving various kinases and phosphatases, 2 Myf5 is ubiquitylated in mitotic extracts, and this is a prerequisite to its degradation by the proteasome and 3 at least in the Xenopus system, the E3 responsible for its mitotic degradation is not the APC-C the major E3 during mitosis.

ConclusionAltogether, our data strongly suggest that the mitotic degradation of Myf5 by the ubiquitin-proteasome system is precisely controlled by multiple phosphorylation of the protein, and that the APC-C is not involved in this process.

Electronic supplementary materialThe online version of this article doi:10.1186-1471-2091-6-27 contains supplementary material, which is available to authorized users.

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Author: Christine Doucet - Gustavo J Gutierrez - Catherine Lindon - Thierry Lorca - Gwendaline Lledo - Christian Pinset - Olivier 

Source: https://link.springer.com/article/10.1186/1471-2091-6-27



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