Abstract
Juvenile neuronal ceroid lipofuscinosis is caused by mutation of a novel, endosomal/lysosomal membrane protein encoded by CLN3. The observation that the mitochondrial ATPase subunit c protein accumulates in this disease suggests that autophagy, a pathway that regulates mitochondrial turnover, may be disrupted. To test this hypothesis, we examined the autophagic pathway in Cln3(Deltaex7/8) knock-in mice and CbCln3(Deltaex7/8) cerebellar cells, accurate genetic models of juvenile neuronal ceroid lipofuscinosis. In homozygous knock-in mice, we found that the autophagy marker LC3-II was increased, and mammalian target of rapamycin was down-regulated. Moreover, isolated autophagic vacuoles and lysosomes from homozygous knock-in mice were less mature in their ultrastructural morphology than the wild-type organelles, and subunit c accumulated in autophagic vacuoles. Intriguingly, we also observed subunit c accumulation in autophagic vacuoles in normal aging mice. Upon further investigation of the autophagic pathway in homozygous knock-in cerebellar cells, we found that LC3-positive vesicles were altered and overlap of endocytic and lysosomal dyes was reduced when autophagy was stimulated, compared with wildtype cells. Surprisingly, however, stimulation of autophagy did not significantly impact cell survival, but inhibition of autophagy led to cell death. Together these observations suggest that autophagy is disrupted in juvenile neuronal ceroid lipofuscinosis, likely at the level of autophagic vacuolar maturation, and that activation of autophagy may be a prosurvival feedback response in the disease process.
Highlights
Macroautophagy is a nonselective process by which cytoplasmic constituents are turned over
Activation of Autophagy in Homozygous Cln3⌬ex7/8 Mice—To first test the hypothesis that autophagy is involved in the pathophysiology of Juvenile onset NCL (JNCL), we examined the state of autophagy in Cln3⌬ex7/8 knock-in mice
We have previously shown that both endosomes and lysosomes exhibit abnormalities in homozygous CbCln3⌬ex7/8 cerebellar cells (22), leading us to hypothesize that the steps in autophagic vacuoles (AV) maturation that require endosomal and lysosomal function are disrupted in JNCL
Summary
CLN3 gene accounts for the majority of JNCL disease alleles (17). This mutation eliminates exons 7 and 8 and the surrounding intronic DNA, giving rise to multiple stably produced mutant CLN3 mRNA species encoding multiple mutant protein isoforms, which are presumably nonfunctional (17, 18). In the studies described we test the hypothesis that autophagy is involved in the JNCL disease process and the hallmark subunit c accumulation characteristic of NCL. These results provide strong evidence supporting disruption of autophagy in JNCL and a direct role for the CLN3-encoded protein, battenin, in normal autophagy
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