👤 Katherine E Larrimore

Juvenile neuronal ceroid lipofuscinosis (JNCL) is a neurodegenerative lysosomal storage disease caused by the loss of the endolysosomal transmembrane protein, CLN3. The main protein component of lysosomal storage material in JNCL is subunit c of mitochondrial ATP synthase (SCMAS), which is normally degraded within the lysosome by tripeptidyl-peptidase 1 (TPP1) during mitophagy. Previous studies have shown that TPP1 expression is elevated in JNCL, a potential compensatory response, while reduced levels of TPP1 exacerbate disease in a JNCL mouse model. These observations suggest a role for TPP1 in JNCL pathogenesis, and it is possible that lysosomal perturbations from the loss of CLN3 in JNCL could reduce the ability of TPP1 to degrade SCMAS. To test this hypothesis, we introduced a transgene that overexpresses TPP1 in a mouse model of JNCL and find that constitutively elevated TPP1 prevents SCMAS storage. This is associated with correction or significant reduction of other phenotypes of disease including neuroinflammation, an elevated plasma biomarker of neurodegeneration, and a disease-associated loss of brain mass with aging. From a clinical perspective, these results suggest that TPP1 augmentation could be a viable therapeutic strategy for JNCL and other lysosomal diseases that accumulate SCMAS where addressing the primary defect may be difficult or impossible. Show less

Late-infantile neuronal ceroid lipofuscinosis (LINCL) and juvenile neuronal ceroid lipofuscinosis (JNCL) are inherited neurodegenerative diseases caused by mutations in the genes encoding lysosomal proteins tripeptidyl peptidase 1 (TPP1) and CLN3 protein, respectively. TPP1 is well-understood and, aided by animal models that accurately recapitulate the human disease, enzyme replacement therapy has been approved and other promising therapies are emerging. In contrast, there are no effective treatments for JNCL, partly because the function of the CLN3 protein remains unknown but also because animal models have attenuated disease and lack robust survival phenotypes. Mouse models for LINCL and JNCL, with mutations in Tpp1 and Cln3, respectively, have been thoroughly characterized but the phenotype of a double Cln3/Tpp1 mutant remains unknown. We created this double mutant and find that its phenotype is essentially indistinguishable from the single Tpp1 Show less