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Proteostasis, a portmanteau of the words protein and homeostasis, refers to the ability of
eukaryotic cells to maintain a stable proteome by acting on protein synthesis, quality control and/or
degradation. Over the last two decades, an increasing number of disorders caused by proteostasis
perturbations have been identified. Depending on their molecular etiology, such diseases may be
classified into ribosomopathies, proteinopathies and proteasomopathies. Strikingly, most—if not
all—of these syndromes exhibit an autoinflammatory component, implying a direct cause-and-effect
relationship between proteostasis disruption and the initiation of innate immune responses. In this
review, we provide a comprehensive overview of the molecular pathogenesis of these disorders and
summarize current knowledge of the various mechanisms by which impaired proteostasis promotes
autoinflammation. We particularly focus our discussion on the notion of how cells sense and integrate
proteostasis perturbations as danger signals in the context of autoinflammatory diseases to provide
insights into the complex and multiple facets of sterile inflammation.
Mutations in genes coding for proteasome subunits and/or proteasome assembly helpers typically cause recurring autoinflammation referred to as chronic atypical neutrophilic dermatosis with lipodystrophy and elevated temperatures (CANDLE) or proteasome-associated autoinflammatory syndrome (PRAAS). Patients with CANDLE/PRAAS present with mostly chronically elevated type I interferon scores that emerge as a consequence of increased proteotoxic stress by mechanisms that are not fully understood. Here, we report on five unrelated patients with CANDLE/PRAAS carrying novel inherited proteasome missense and/or nonsense variants. Four patients were compound heterozygous for novel pathogenic variants in the known CANDLE/PRAAS associated genes, PSMB8 and PSMB10, whereas one patient showed additive loss-of-function mutations in PSMB8. Variants in two previously not associated proteasome genes, PSMA5 and PSMC5, were found in a patient who also carried the PSMB8 founder mutation, p.T75M. All newly identified mutations substantially impact the steady-state expression of the affected proteasome subunits and/or their incorporation into mature 26S proteasomes. Our observations expand the spectrum of PRAAS-associated genetic variants and improve a molecular diagnosis and genetic counseling of patients with sterile autoinflammation.