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Cross-linking and amyloid formation by N- and C-terminal cysteine derivatives of human apolipoprotein C-II
Authors:Pham Chi L L  Hatters Danny M  Lawrence Lynne J  Howlett Geoffrey J
Institution:Russell Grimwade School of Biochemistry and Molecular Biology, The University of Melbourne, Parkville, Victoria 3010, Australia.
Abstract:We have investigated the effect of disulfide cross-linking on amyloid formation by human apolipoprotein (apo) C-II. Three derivatives of apoC-II were generated by inserting a cysteine residue on either the N-terminus (C(N)-apoC-II), C-terminus (C(C)-apoC-II), or both termini (C(N)C(C)-apoC-II). Under reducing conditions, all derivatives formed amyloid with a fibrous ribbon morphology similar to that of wild-type apoC-II. Under oxidizing conditions, C(N)- and C(N)C(C)-apoC-II formed a highly tangled network of fibrils, suggesting that the addition of an N-terminal cysteine to apoC-II promotes interfibril disulfide cross-links. Fibrils formed by C(C)-apoC-II under oxidizing conditions were closely packed but less tangled than fibrils formed by the C(N) and C(N)C(C) derivatives. The frequency of closed ring structures was more than doubled for C(C)-apoC-II compared to wild-type apoC-II. The kinetics of fibril formation by all cysteine derivatives was markedly enhanced under oxidizing conditions, suggesting that disulfide cross-linking promotes amyloid formation. Substoichiometric levels of preformed C(N)- and C(C)-apoC-II dimers accelerate amyloid formation by wild-type apoC-II. These data suggest that the N- and C-termini of apoC-II are close together in the amyloid fibril such that covalent cross-linking of either the N or C end of apoC-II promotes nucleation and the "seeding" of fibril growth.
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