Study of alpha-synuclein in MAMs: the role of mortalin and transglutaminase 2 in the stressful condition induced by mutated alpha-synuclein.

Abstract

The main pathological hallmark of Parkinson's disease (PD) is the presence of aggregates formed by the protein alpha-synuclein called Lewy Bodies. Two point mutations on alpha-synuclein gene (SNCA) lead to the formation of mutated proteins, A30P and A53T, both related to familial Parkinson's disease. According to several evidences, alpha-synuclein binds to mitochondrial complex I, promoting the decrease of ”qm, Ca2+ release and release of pro-apoptotic factor stored at mitochondrial inter-membrane space. However, reports have demonstrated a new location of alpha-synuclein in a region denominated MAMs (mitochondria-associated ER membranes) that is a sub-domain of endoplasmic reticulum which interacts with mitochondria. In MAMs alpha-synuclein can interact with several proteins, Ca2+ receptors and channels, mortalin, TG2, IP3R3 and VDAC. The aim of this work is to functionally characterize the interaction among these proteins and the alpha-synuclein or its mutants, by western blot and immunoprecipitation analysis, siRNA or knock-out cells. Aspects related to Ca2+ signaling and homeostasis, as well as mitochondrial dynamics and mitophagy will also be evaluated using fluorescence methods. The understanding of alpha-synuclein interactions with TG2 and mortalin and their role in PD may clarify the mechanism whereby this protein promotes cellular dysfunctions, which can lead neurons to death in PD.