Abstract
Muscular dystrophy in the NH-413 chicken is caused by a missense mutation in the WWP1 gene. WWP1 is a HECT-type E3 ubiquitin ligase containing four tandem WW domains that interact with proline-rich peptide motifs of target proteins, and a short region connecting the second and third WW domains is crucial for the E3 ligase to maintain an autoinhibitory state. A mutation of the arginine in the WW2-WW3 linker to glutamine is thought to affect WWP1 function, but there is little information on this mutation to date. In this study, we generated a transgenic (Tg) mouse model expressing the WWP1 transgene with the R436Q mutation, which corresponds to the missense mutation found in the NH-413 chicken. Tg mice showed marked degradation of mutant WWP1 proteins in various tissues, particularly in striated muscle. Immunoprecipitation analysis using a WWP1-specific antibody demonstrated that the mutant WWP1 proteins lacked the C-terminal catalytic cysteine residue that is required for their binding to the E2-substrate complex during their degradation. In vitro analysis using the R436Q mutant of WWP1 lacking this catalytic cysteine residue showed no autodegradation, indicating that the loss-of-function degradation of this protein is caused by self-ubiquitination. Tg mice expressing R436Q WWP1 did not show stunted growth or premature death. Furthermore, histological analysis did not reveal any obvious changes. These observations suggested that the R436Q mutant WWP1 protein, which is released from autoinhibitory mode by its missense mutation, does not have abnormally activated enzyme function to substrates before its self-degradation and loss of enzyme function.
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