Abstract
Neddylation is a posttranslational modification that controls diverse biological processes by covalently conjugating the ubiquitin-like protein NEDD8 to specific targets. Neddylation is commonly mediated by NEDD8-specific enzymes (typical neddylation) and, sometimes, by ubiquitin enzymes (atypical neddylation). Although typical neddylation is known to regulate protein function in many ways, the regulatory mechanisms and biological consequence of atypical neddylation remain largely unexplored. Here we report that NEDD8 conjugates were accumulated in the diseased hearts from mouse models and human patients. Proteotoxic stresses induced typical and atypical neddylation in cardiomyocytes. Loss of NUB1L exaggerated atypical neddylation, whereas NUB1L overexpression repressed atypical neddylation through promoting the degradation of NEDD8. Activation of atypical neddylation accumulated a surrogate misfolded protein, GFPu. In contrast, suppression of atypical neddylation by NUB1L overexpression enhanced GFPu degradation. Moreover, NUB1L depletion accumulated a cardiomyopathy-linked misfolded protein, CryAB(R120G), whereas NUB1L overexpression promoted its degradation through suppressing neddylation of ubiquitinated proteins in cardiomyocytes. Consequently, NUB1L protected cells from proteotoxic stress-induced cell injury. In summary, these data indicate that NUB1L suppresses atypical neddylation and promotes the degradation of misfolded proteins by the proteasome. Our findings also suggest that induction of NUB1L could potentially become a novel therapeutic strategy for diseases with increased proteotoxic stress.
Highlights
NEDD8 conjugates are increased in cells with proteasome function impairment, and neddylation of ubiquitinated proteins on the ubiquitin chain requires ubiquitin- but not NEDD8-activating enzyme
We reveal that neddylation is dysregulated in the diseased hearts of mouse models of desmin-related cardiomyopathy and human patients
We demonstrate that proteotoxic stress induces excessive neddylation in cardiomyocytes, UBE1-mediated atypical neddylation, which, in turn, directly or indirectly impairs proteasome function
Summary
NEDD8 conjugates are increased in cells with proteasome function impairment, and neddylation of ubiquitinated proteins on the ubiquitin chain requires ubiquitin- but not NEDD8-activating enzyme. Neddylation is a posttranslational modification that controls diverse biological processes by covalently conjugating the ubiquitin-like protein NEDD8 to specific targets. Activation of atypical neddylation accumulated a surrogate misfolded protein, GFPu. In contrast, suppression of atypical neddylation by NUB1L overexpression enhanced GFPu degradation. NUB1L depletion accumulated a cardiomyopathy-linked misfolded protein, CryABR120G, whereas NUB1L overexpression promoted its degradation through suppressing neddylation of ubiquitinated proteins in cardiomyocytes. NUB1L protected cells from proteotoxic stress-induced cell injury These data indicate that NUB1L suppresses atypical neddylation and promotes the degradation of misfolded proteins by the proteasome. By modulating the cellular functions of the substrates, neddylation influences diverse cellular processes, including ubiquitination, cell proliferation, DNA damage response, transcriptional regulation, signaling transduction, and others [4, 11]. Dysregulation of neddylation has been linked to developmental defects [12], cancer [13], heart failure [14, 15], and synaptic dysfunction [16]
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