ALPHA-SYNUCLEIN OVEREXPRESSION TRIGGERS A LIPID METABOLIC SWITCH: LIPID DROPLETS AS AN EARLY MARKER OF NEURODEGENERATION

ALZA, N.P.; CONDE, M.; SALVADOR, GABRIELA A.

Cordoba

Congreso; XXXIII CONGRESO ANUAL de la Sociedad Argentina de Investigación en Neurociencias; 2018

Pathological accumulation of α-synuclein (α-syn) is a hallmark of Parkinson ?s disease. α-syn is highly expressed in the brain and has the intriguing characteristic of interacting with lipids. However, little is known about its biological role. We demonstrated that α-syn overexpression downregulates neurofilament expression (NF) through the modulation of phosphatidic acid signaling (Conde et al, 2018). Here, we studied lipid metabolism in neuroblastoma cells either stably transfected with pcDNA3 vector (as a transfection control) or pcDNA-WT-α-syn (WT α-syn). WT α-syn neurons displayed an increase in triacylglycerides (TAG) and cholesterol content consequently with lipid droplet (LD) accumulation. α-syn overexpression also triggered SREBP-2 nuclear translocation coincidently with this lipid metabolic switch. Enhancers of α-syn aggregation (iron, manganese and bortezomib) increased LD content. WT α-syn overexpression also induced Acyl-CoA synthetase activation which explained, at least in part, the increase in TAG, a rather unusual occurrence in healthy neurons. Pharmacological inhibition of TAG synthesis turned the neurons more vulnerable to the presence of WT α-syn. Additionally, NF recovery increased the expression of cleaved caspase 3. In conclusion, α-syn modulates neuronal lipid biology together with the loss of NF as part of a neuroprotective strategy.