Growing evidence implicates impairment of autophagy as a candidate pathogenic mechanism in the spectrum of neurodegenerative disorders which includes amyotrophic lateral sclerosis and frontotemporal lobar degeneration (ALS-FTLD). SQSTM1, which encodes the autophagy receptor SQSTM1/p62, is genetically associated with ALS-FTLD, although to date autophagy-relevant functional defects in disease-associated variants have not been described. A key protein-protein interaction in autophagy is the recognition of a lipid-anchored form of LC3 (LC3-II) within the phagophore membrane by SQSTM1, mediated through its LC3-interacting region (LIR), and notably some ALS-FTLD mutations map to this region. Here we show that although representing a conservative substitution and predicted to be benign, the ALS-associated L341V mutation of SQSTM1 is defective in recognition of LC3B. We place our observations on a firm quantitative footing by showing the L341V-mutant LIR is associated with a ∼3-fold reduction in LC3B binding affinity and using protein NMR we rationalize the structural basis for the effect. This functional deficit is realized in motor neuron-like cells, with the L341V mutant EGFP-mCherry-SQSTM1 less readily incorporated into acidic autophagic vesicles than the wild type. Our data supports a model in which the L341V mutation limits the critical step of SQSTM1 recruitment to the phagophore. The oligomeric nature of SQSTM1, which presents multiple LIRs to template growth of the phagophore, potentially gives rise to avidity effects which amplify the relatively modest impact of any single mutation on LC3B binding. Over the lifetime of a neuron, impaired autophagy could expose a vulnerability, which ultimately tips the balance from cell survival toward cell death.
Paget disease of bone (PDB) is a relatively common disorder characterised by increased bone turnover within discrete lesions throughout the skeleton. The condition has a strong genetic component, with mutations affecting the SQSTM1 gene that encodes the p62 protein often found in PDB patients, although environmental factors also play an important role in disease aetiology. The precise disease mechanism(s) in familial forms and sporadic forms of PDB is unclear, although defective RANK-NF-kappaB signalling has been suggested to contribute to the increased activity of pagetic osteoclasts in the former. Here, there is a review of recent advances in the understanding of the molecular basis of PDB with particular emphasis on findings since 2008, and focus on newly defined functions of the p62 protein upon which SQSTM1 mutations may impact in the development of the pagetic phenotype.
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