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Structural changes in α-synuclein affect its chaperone-like activity in vitro

Published online by Cambridge University Press:  10 February 2001

THOMAS D. KIM
Affiliation:
Department of Microbiology, Yonsei University College of Medicine, Seoul, Korea School of Chemistry, College of Natural Sciences, Seoul National University, Seoul, Korea
SEUNG R. PAIK
Affiliation:
Department of Biochemistry, Inha University College of Medicine, Incheon, Korea
CHUL-HAK YANG
Affiliation:
School of Chemistry, College of Natural Sciences, Seoul National University, Seoul, Korea
JONGSUN KIM
Affiliation:
Department of Microbiology, Yonsei University College of Medicine, Seoul, Korea
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Abstract

α-Synuclein, a major constituent of Lewy bodies (LBs) in Parkinson's disease (PD), has been implicated to play a critical role in synaptic events, such as neuronal plasticity during development, learning, and degeneration under pathological conditions, although the physiological function of α-synuclein has not yet been established. We here present biochemical evidence that recombinant α-synuclein has a chaperone-like function against thermal and chemical stress in vitro. In our experiments, α-synuclein protected glutathione S-transferase (GST) and aldolase from heat-induced precipitation, and α-lactalbumin and bovine serum albumin from dithiothreitol (DTT)-induced precipitation like other molecular chaperones. Moreover, preheating of α-synuclein, which is believed to reorganize the molecular surface of α-synuclein, increased the chaperone-like activity. Interestingly, in organic solvents, which promotes the formation of secondary structure, α-synuclein aggregated more easily than in its native condition, which eventually might abrogate the chaperone-like function of the protein. In addition, α-synuclein was also rapidly and significantly precipitated by heat in the presence of Zn2+ in vitro, whereas it was not affected by the presence of Ca2+ or Mg2+. Circular dichroism spectra confirmed that α-synuclein underwent conformational change in the presence of Zn2+. Taken together, our data suggest that α-synuclein could act as a molecular chaperone, and that the conformational change of the α-synuclein could explain the aggregation kinetics of α-synuclein, which may be related to the abolishment of the chaperonic-like activity.

Type
Research Article
Copyright
© 2000 The Protein Society

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