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- Title
De novo Synthesis of Sphingolipids Is Defective in Experimental Models of Huntington's Disease.
- Authors
Di Pardo, Alba; Basit, Abdul; Armirotti, Andrea; Amico, Enrico; Castaldo, Salvatore; Pepe, Giuseppe; Marracino, Federico; Buttari, Fabio; Digilio, Anna F.; Maglione, Vittorio
- Abstract
Alterations of lipidmetabolismhave been frequently associated with Huntington's disease (HD) over the past years. HD is the most common neurodegenerative disorder, with a complex pathogenic profile, typically characterized by progressive striatal and cortical degeneration and associated motor, cognitive and behavioral disturbances. Previous findings from our group support the idea that disturbed sphingolipid metabolism could represent an additional hallmark of the disease. Although such a defect represents a common biological denominator among multiple disease models ranging from cells to humans through mouse models, more efforts are needed to clearly define its clinical significance and the role it may play in the progression of the disease. In this study, we provided the first evidence of a defective de novo biosynthetic pathway of sphingolipids in multiple HD pre-clinical models. qPCR analysis revealed perturbed gene expression of sphingolipid-metabolizing enzymes in both early and late stage of the disease. In particular, reduction in the levels of sptlc1 and cerS1 mRNA in the brain tissues from manifest HD mice resulted in a significant decrease in the content of dihydroSphingosine, dihydroSphingosine-1-phospahte and dihydroCeramide [C18:0] as assessed by mass spectrometry. Moreover, in vitro studies highlighted the relevant role that aberrant sphingolipid metabolism may have in the HD cellular homeostasis. With this study, we consolidate the evidence of disturbed sphingolipid metabolism in HD and demonstrate for the first time that the de novo biosynthesis pathway is also significantly affected in the disease. This finding further supports the hypothesis that perturbed sphingolipid metabolism may represent a crucial factor accounting for the high susceptibility to disease in HD.
- Subjects
SPHINGOLIPIDS; HUNTINGTON disease; CHOREA
- Publication
Frontiers in Neuroscience, 2017, p1
- ISSN
1662-4548
- Publication type
Article
- DOI
10.3389/fnins.2017.00698