Abstract
Niemann-Pick type C (NPC) disease is a lysosomal storage disorder arising from mutations in the cholesterol-trafficking protein NPC1 (95%) or NPC2 (5%). These mutations result in accumulation of low-density lipoprotein-derived cholesterol in late endosomes/lysosomes, disruption of endocytic trafficking, and stalled autophagic flux. Additionally, NPC disease results in sphingolipid accumulation, yet it is unique among the sphingolipidoses because of the absence of mutations in the enzymes responsible for sphingolipid degradation. In this work, we examined the cause for sphingosine and sphingolipid accumulation in multiple cellular models of NPC disease and observed that the activity of sphingosine kinase 1 (SphK1), one of the two isoenzymes that phosphorylate sphingoid bases, was markedly reduced in both NPC1 mutant and NPC1 knockout cells. Conversely, SphK1 inhibition with the isotype-specific inhibitor SK1-I in WT cells induced accumulation of cholesterol and reduced cholesterol esterification. Of note, a novel SphK1 activator (SK1-A) that we have characterized decreased sphingoid base and complex sphingolipid accumulation and ameliorated autophagic defects in both NPC1 mutant and NPC1 knockout cells. Remarkably, in these cells, SK1-A also reduced cholesterol accumulation and increased cholesterol ester formation. Our results indicate that a SphK1 activator rescues aberrant cholesterol and sphingolipid storage and trafficking in NPC1 mutant cells. These observations highlight a previously unknown link between SphK1 activity, NPC1, and cholesterol trafficking and metabolism.
Highlights
Niemann–Pick type C (NPC) disease is caused by genetic mutations in the cholesterol transport proteins NPC1 and NPC2, with the vast majority of cases attributed to NPC1 mutations (95%) [1,2,3,4]
In agreement with previous studies demonstrating that in addition to cholesterol, sphingosine accumulates in NPC disease [10, 11, 15], we found that sphingosine levels were elevated in NPC1 mutant fibroblasts derived from well-characterized patients with a wide disease spectrum (NPC25 and NPC26) compared with control fibroblasts from a healthy individual (Fig. 1A)
Because it was suggested that sphingosine accumulation due to impaired sphingosine kinase (SphK) activity causes defective endocytic and autophagic fluxes in NPC mutant cells [20], and we and others have shown that sphingosine kinase 1 (SphK1) is rapidly recruited to vesicles during endocytosis and autophagy to regulate these processes [21, 22, 26], it was of interest to determine the effects of SphK1 activator (SK1-A) on autophagy
Summary
NPC disease is caused by genetic mutations in the cholesterol transport proteins NPC1 and NPC2, with the vast majority of cases attributed to NPC1 mutations (95%) [1,2,3,4]. We showed that accumulation of sphingosine in several types of NPC1 mutant cells correlated with decreased SphK1 activity. Treating NPC1 mutant cells with a novel SphK1 activator that we identified reduced sphingosine accumulation, ameliorated autophagic defects, and restored the impaired cholesterol trafficking.
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