Rationale: Impaired degradation of misfolded proteins is associated with a large subset of heart diseases. Misfolded proteins are degraded primarily by the ubiquitin-proteasome system, but the ubiquitin ligases responsible for the degradation remain largely unidentified. The cullin deneddylation activity of the COP9 signalosome (CSN) requires all 8 CSN subunits (CSN1 through CSN8) and regulates cullin-RING ligases, thereby controlling ubiquitination of a large number of proteins; however, neither CSN nor cullin-RING ligases is known to regulate the degradation of cytosolic misfolded proteins. Objective: We sought to investigate the role of CSN8/CSN in misfolded protein degradation and cardiac proteinopathy. Methods and Results: Cardiac CSN8 knockout causes mouse premature death; hence, CSN8 hypomorphism (CSN8 ^hypo ) mice were used. Myocardial neddylated forms of cullins were markedly increased, and myocardial capacity of degrading a surrogate misfolded protein was significantly reduced by CSN8 hypomorphism. When introduced into proteinopathic mice in which a bona fide misfolded protein R120G missense mutation of αβ-crystallin (CryAB ^R120G ) is overexpressed in the heart, CSN8 hypomorphism aggravated CryAB ^R120G -induced restrictive cardiomyopathy and shortened the lifespan of CryAB ^R120G mice, which was associated with augmented accumulation of protein aggregates, increased neddylated proteins, and reduced levels of total ubiquitinated proteins and LC3-II in the heart. In cultured cardiomyocytes, both CSN8 knockdown and cullin-RING ligase inactivation suppressed the ubiquitination and degradation of CryAB ^R120G but not native CryAB, resulting in accumulation of protein aggregates and exacerbation of CryAB ^R120G cytotoxicity. Conclusions: (1) CSN8/CSN promotes the ubiquitination and degradation of misfolded proteins and protects against cardiac proteotoxicity, and (2) cullin-RING ligases participate in degradation of cytosolic misfolded proteins.