Ana Toledano-Zaragoza scite author profile

Acid sphingomyelinase deficiency (ASMD) leads to cellular accumulation of sphingomyelin (SM), neurodegeneration, and early death. Here, we describe the downregulation of the endocannabinoid (eCB) system in neurons of ASM knockout (ASM‐KO) mice and a ASMD patient. High SM reduced expression of the eCB receptor CB1 in neuronal processes and induced its accumulation in lysosomes. Activation of CB1 receptor signaling, through inhibition of the eCB‐degrading enzyme fatty acid amide hydrolase (FAAH), reduced SM levels in ASM‐KO neurons. Oral treatment of ASM‐KO mice with a FAAH inhibitor prevented SM buildup; alleviated inflammation, neurodegeneration, and behavioral alterations; and extended lifespan. This treatment showed benefits even after a single administration at advanced disease stages. We also found CB1 receptor downregulation in neurons of a mouse model and a patient of another sphingolipid storage disorder, Niemann–Pick disease type C (NPC). We showed the efficacy of FAAH inhibition to reduce SM and cholesterol levels in NPC patient‐derived cells and in the brain of a NPC mouse model. Our findings reveal a pathophysiological crosstalk between neuronal SM and the eCB system and offer a new treatment for ASMD and other sphingolipidoses.

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Addressing neurodegeneration in lysosomal storage disorders: Advances in Niemann Pick diseases

Toledano-Zaragoza

Ledesma

2020

Neuropharmacology

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A Free Radical-Generating System Regulates Amyloid Oligomers: Involvement of Cathepsin B

Llorente

Kristen

Sastre

et al. 2018

JAD

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Amyloid-␤ (A␤), a major component of senile plaques, is generated via the proteolysis of amyloid-␤ protein precursor (A␤PP). This cleavage also produces A␤PP fragment-derived oligomers which can be highly neurotoxic. A␤PP metabolism/processing is affected by many factors, one of which is oxidative stress (OS). Associated with aging, OS is an important risk factor for Alzheimer's disease. In addition, the protein degradation systems, especially those involving cathepsins, are impaired in aging brains. Moreover, cathepsin B (CTSB) is a cysteine protease with potentially specific roles in A␤PP proteolysis (␤-secretase activity) and A␤ clearance (A␤ degradative activity). The present work examines the effect of OS and the involvement of CTSB in amyloid oligomer formation. The xanthine/xanthine oxidase (X-XOD) free radical generating system induced the partial inhibition of CTSB activity, which was accompanied by an increase in large amyloid oligomers. These were located throughout the cytosol and in endo-lysosomal vesicles. Cells treated with the CTSB inhibitor CA-074Me also showed increased amyloid oligomer levels, whereas those subjected to OS in the presence of the inhibitor showed no such increase. However, CTSB inhibition clearly modulated the A␤PP metabolism/processing induced by X-XOD, as revealed by the increase in intracellular A␤PP and secreted ␣-secretase-cleaved soluble A␤PP. The present results suggest that CTSB participates in the changes of amyloid oligomer induced by mild OS.

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