ALPHA-SYNUCLEIN AND LIPID METABOLISM: INTERSECTING PATHWAYS

ALZA, NATALIA P.; CONDE, MELISA A.; SCODELARO BILBAO, PAOLA G.; GONZÁLEZ-PARDO, VERÓNICA; SALVADOR, GABRIELA A.

Salta

Congreso; LV Reunión Anual SAIB/PABMB; 2019

α-synuclein (α-syn) aggregation and fibrillation is a hallmark of a class of neurodegenerative disorders known as synucleinopathies. An intriguing and not completely clarified feature of α-syn is the many ways in which it interacts with lipids. In the present study, we aimed to investigate theeffect of α-syn overexpression on neuronal lipid metabolism. For this purpose, human IMR-32 neuroblastoma cells stably transfected with either pcDNA3 vector (control) or pcDNA3-WT-α-syn (WT α-syn) were used. We observed that α-syn overexpression induced the accumulation ofcytosolic lipid droplets (LD) and cholesterol (Chol) in lysosomes. LD increase was coincident with a rise in triacylglycerol (TAG) and Chol esters content. To ascertain the mechanism involved in LD accumulation, pharmacological inhibitors of proteasomal degradation and autophagy wereused. Whereas autophagy inhibition did not affect neutral lipids content, the blockage of proteasomal degradation was able to increase LD accumulation in WT α-syn cells. In silico analysis performed with MyProteinNet server (Yeger-Lotem lab) postulates a positive correlationbetween α-syn and sterol regulatory element-binding gen (SREBF-2). To corroborate these data in our experimental model, we evaluated the status of the transcription factors SREBP-1 and SREBP-2. SREBP-1 nuclear localization was slightly diminished by α-syn overexpression with decreasedlevels of fatty acid synthase protein expression. In contrast, α-syn overexpression promoted SREBP-2 nuclear translocation, with no increment in the expression levels of the downstream genes related to Chol synthesis. Intriguingly, fatty acid Coenzyme A esterification and acylation into Choland diacylglycerides were increased in WT α-syn cells. To elucidate the source of fatty acids availability, we measured phospholipid content and TAG hydrolysis. WT α-syn cells displayed diminished levels of cardiolipin and phosphatidic acid with no changes in TAG hydrolysis. Our results allow us to conclude that: α-syn overexpression induces a metabolic switch that triggers the neuronal accumulation of neutral lipids by activating several mechanisms: (i) increased phospholipid hydrolysis, (ii) a rise in fatty acids esterification into Chol and diacylglycerols, and (iii) Chol accumulation in lysosomes probably due to an increment in its uptake. Funding: ANPCyT, CONICET, and UNS.