Abstract
A critical response to lysosomal membrane permeabilization (LMP) is the clearance of damaged lysosomes through a selective form of macroautophagy known as lysophagy. Although regulators of this process are emerging, whether organ- and cell-specific components contribute to the control of lysophagy remains incompletely understood. Here, we examined LMP and lysophagy in Niemann-Pick type C (NPC) disease, an autosomal recessive disorder characterized by the accumulation of unesterified cholesterol within late endosomes and lysosomes, leading to neurodegeneration and early death. We demonstrated that NPC human fibroblasts show enhanced sensitivity to lysosomal damage as a consequence of lipid storage. Moreover, we described a role for the glycan-binding F-box protein 2 (Fbxo2) in CNS lysophagy. Fbxo2 functions as a component of the S phase kinase-associated protein 1–cullin 1–F-box protein (SKP1-CUL1-SCF) ubiquitin ligase complex. Loss of Fbxo2 in mouse primary cortical cultures delayed clearance of damaged lysosomes and decreased viability after lysosomal damage. Moreover, Fbxo2 deficiency in a mouse model of NPC exacerbated deficits in motor function, enhanced neurodegeneration, and reduced survival. Collectively, our data identified a role for Fbxo2 in CNS lysophagy and establish its functional importance in NPC.
Highlights
Lysosomes are critical organelles that function in degrading and recycling cellular waste and play broader roles in signaling, membrane repair, and metabolism [1]
One protective measure against lysosomal membrane permeabilization (LMP) is the clearance of damaged lysosomes through a selective form of macroautophagy known as lysophagy
To further investigate the role of LMP in Niemann-Pick type C (NPC) disease pathogenesis, we used control (Ctrl) fibroblasts homozygous for WT NPC1 and NPC human fibroblasts homozygous for I1061T NPC1 (I1061T), the most common disease-causing allele in patients of Western European ancestry [24]
Summary
Lysosomes are critical organelles that function in degrading and recycling cellular waste and play broader roles in signaling, membrane repair, and metabolism [1]. One protective measure against LMP is the clearance of damaged lysosomes through a selective form of macroautophagy known as lysophagy. In this process, damaged lysosomes are sensed, and subsequent ubiquitination of lysosomal proteins leads to recruitment of autophagic machinery, engulfment by autophagic membranes, and clearance of the damaged organelles [2]. Cytosolic galectins (Gals), including Gal1, -3, -8, and -9, serve as sensors of lysosomal damage [4,5,6,7] In addition to their sensing function, Gals play more active roles in lysophagy by recruiting autophagy adapters; Gal interacts with TRIM16 [5], and Gal recruits NDP52 [7]. Components of lysophagy are identified in recent studies, aspects of the machinery that function in organ and cell type–specific regulation remain incompletely understood
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