Author(s)

D. Balesh, Z. Ramjan, W.B. Floriano

Biological Sciences Department, California State Polytechnic University Pomona, Pomona CA 91768.
Department of Chemistry at Lakehead University and Thunder Bay Regional Research Institute, Thunder Bay ON, Canada P7B 5E1.

Aggregation of alpha-synuclein leads to the formation of Lewy bodies in the brains of patients affected by Parkinson's disease (PD). Native human alpha-synuclein is unfolded in solution but assumes a partial alpha-helical conformation upon transient binding to lipid membranes. Annealing Molecular Dynamics (AMD) was used to generate a diverse set of unfolded conformers of free monomeric wild-type alpha-synuclein and PD-associated mutants A30P and A53T. The AMD conformers were compared in terms of secondary structure, hydrogen bond network, solvent-accessible surface per residue, and molecular volume. The objective of these simulations was to identify structural properties near mutation sites and the non-amyloid component (NAC) region that differ between wild- type and disease-associated variants and may be associated to aggregation of alpha- synuclein. Based on experimental evidence, a hypothesis exists that aggregation involves the formation of intermolecular beta sheets. According to our results, disease-associated mutants of alpha-synuclein are no more propense to contain extended beta regions than wild-type alpha-synuclein. Moreover, extended beta structures (necessary for beta sheet formation) were not found at or around positions 30 and 53, or the NAC region in any unfolded conformer of wild-type, A30P or A53T alpha-synuclein, under the conditions of the simulations. These results do not support the hypothesis that the mutant's higher propensity to aggregation results solely from changes in amino acid sequence leading to changes in secondary structure folding propensity.

Alpha-Synuclein; Parkinson's Disease; Lewy Body Formation; Beta Sheet Formation; Unfolding; Molecular Simulations

Balesh, D. , Ramjan, Z. and Floriano, W. (2011) Unfolded annealing molecular dynamics conformers for wild-type and disease-associated variants of alpha-synuclein show no propensity for beta-sheetformation. Journal of Biophysical Chemistry, 2, 124-134. doi: 10.4236/jbpc.2011.22015.