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TRPML1 activation ameliorates lysosomal phenotypes in CLN3 deficient retinal pigment epithelial cells

Daniela Wünkhaus, R. Tang, Kwamina Nyame, Nouf N. Laqtom, Michaela Schweizer, Anna Scotto Rosato, Einar Krogsaeter, Carina Wollnik, Muhannad Abu‐Remaileh, Christian Grimm, Guido Hermey, Ralf Kühn, Doris Gruber-Schoffnegger, Sandra Markmann

2024Scientific Reports12 citationsDOIOpen Access PDF

Abstract

Mutations in the lysosomal membrane protein CLN3 cause Juvenile Neuronal Ceroid Lipofuscinosis (JNCL). Activation of the lysosomal ion channel TRPML1 has previously been shown to be beneficial in several neurodegenerative disease models. Here, we tested whether TRPML1 activation rescues disease-associated phenotypes in CLN3-deficient retinal pigment epithelial (ARPE-19 CLN3-KO) cells. ARPE-19 CLN3-KO cells accumulate LAMP1 positive organelles and show lysosomal storage of mitochondrial ATPase subunit C (SubC), globotriaosylceramide (Gb3), and glycerophosphodiesters (GPDs), whereas lysosomal bis(monoacylglycero)phosphate (BMP/LBPA) lipid levels were significantly decreased. Activation of TRPML1 reduced lysosomal storage of Gb3 and SubC but failed to restore BMP levels in CLN3-KO cells. TRPML1-mediated decrease of storage was TFEB-independent, and we identified TRPML1-mediated enhanced lysosomal exocytosis as a likely mechanism for clearing storage including GPDs. Therefore, ARPE-19 CLN3-KO cells represent a human cell model for CLN3 disease showing many of the described core lysosomal deficits, some of which can be improved using TRPML1 agonists.

Topics & Concepts

LysosomeTFEBCell biologyLysosomal storage diseaseLAMP1LipofuscinBiologyRetinal pigment epitheliumBatten diseaseRetinalGlobotriaosylceramideRetinitis pigmentosaFabry diseaseBiochemistryInternal medicineEnzymeDiseaseMedicineGeneCalcium signaling and nucleotide metabolismLysosomal Storage Disorders ResearchCellular transport and secretion