Acceleration of amyloid fibril formation by carboxyl-terminal truncation of human serum amyloid A

Acceleration of amyloid fibril formation by carboxyl-terminal truncation of human serum amyloid A

Human serum amyloid A (SAA) is a precursor protein of AA amyloidosis. Although the full-length SAA is 104 amino acids long, the C-terminal-truncated SAA lacking mainly residues 77–104 is predominantly deposited in AA amyloidosis. Nevertheless, the amyloid fibril formation of such truncated forms of...

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Veröffentlicht in:Archives of biochemistry and biophysics 2018-02, Vol.639, p.9-15
Hauptverfasser: Tanaka, Masafumi, Kawakami, Toru, Okino, Nozomi, Sasaki, Kaoru, Nakanishi, Kiwako, Takase, Hiroka, Yamada, Toshiyuki, Mukai, Takahiro
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AA amyloidosis
Amyloid fibril
Carboxyl-terminal truncation
Native chemical ligation
Serum amyloid A
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container_title Archives of biochemistry and biophysics
container_volume 639
creator Tanaka, Masafumi
Kawakami, Toru
Okino, Nozomi
Sasaki, Kaoru
Nakanishi, Kiwako
Takase, Hiroka
Yamada, Toshiyuki
Mukai, Takahiro
description Human serum amyloid A (SAA) is a precursor protein of AA amyloidosis. Although the full-length SAA is 104 amino acids long, the C-terminal-truncated SAA lacking mainly residues 77–104 is predominantly deposited in AA amyloidosis. Nevertheless, the amyloid fibril formation of such truncated forms of human SAA has never been investigated. In the present study, we examined the effect of C-terminal truncation on amyloid fibril formation of human SAA induced by heparan sulfate (HS). Circular dichroism (CD) measurements demonstrated that the C-terminal truncation induces a reduced α-helical structure of the SAA molecule. HS-induced increases in thioflavin T fluorescence for SAA (1–76) peptide and less significant increases for full-length SAA were observed. CD spectral changes of SAA (1–76) peptide but not full-length SAA were observed when incubated with HS, although the spectrum was not typical for a β-structure. Fourier transform infrared experiments clearly revealed that SAA (1–76) peptide forms a β-sheet structure. Transmission electron microscopy revealed that short fibrillar aggregates of SAA (1–76) peptides, which became longer with increasing peptide concentrations, were observed under conditions in which full-length SAA scarcely formed fibrillar aggregates. These results suggested that the C-terminal truncation of human SAA accelerates amyloid fibril formation. •The C-terminal-truncated human SAA (residues 1–76) was chemically synthesized.•Effect of C-terminal truncation on amyloid fibril formation of human SAA was tested.•Spectroscopic and morphological analyses were performed.•C-terminal truncation of human SAA was suggested to accelerate the fibril formation.
doi_str_mv 10.1016/j.abb.2017.12.016
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Although the full-length SAA is 104 amino acids long, the C-terminal-truncated SAA lacking mainly residues 77–104 is predominantly deposited in AA amyloidosis. Nevertheless, the amyloid fibril formation of such truncated forms of human SAA has never been investigated. In the present study, we examined the effect of C-terminal truncation on amyloid fibril formation of human SAA induced by heparan sulfate (HS). Circular dichroism (CD) measurements demonstrated that the C-terminal truncation induces a reduced α-helical structure of the SAA molecule. HS-induced increases in thioflavin T fluorescence for SAA (1–76) peptide and less significant increases for full-length SAA were observed. CD spectral changes of SAA (1–76) peptide but not full-length SAA were observed when incubated with HS, although the spectrum was not typical for a β-structure. Fourier transform infrared experiments clearly revealed that SAA (1–76) peptide forms a β-sheet structure. 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subjects AA amyloidosis
Amyloid fibril
Carboxyl-terminal truncation
Native chemical ligation
Serum amyloid A
title Acceleration of amyloid fibril formation by carboxyl-terminal truncation of human serum amyloid A
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