Proteomic Evidence for Amyloidogenic Cross-Seeding in Fibrinaloid Microclots DOI Open Access
Douglas B. Kell, Etheresia Pretorius

International Journal of Molecular Sciences, Journal Year: 2024, Volume and Issue: 25(19), P. 10809 - 10809

Published: Oct. 8, 2024

In classical amyloidoses, amyloid fibres form through the nucleation and accretion of protein monomers, with protofibrils fibrils exhibiting a cross-β motif parallel or antiparallel β-sheets oriented perpendicular to fibre direction. These can intertwine mature fibres. Similar phenomena occur in blood from individuals circulating inflammatory molecules (and also some originating viruses bacteria). Such pathological clotting result an anomalous termed fibrinaloid microclots. Previous proteomic analyses these microclots have shown presence non-fibrin(ogen) proteins, suggesting more complex mechanism than simple entrapment. We thus provide evidence against such entrapment model, noting that clot pores are too large centrifugation would removed weakly bound proteins. Instead, we explore whether co-aggregation into may involve axial (multiple proteins within same fibril), lateral (single-protein contributing fibre), both types integration. Our analysis data different diseases shows no significant quantitative overlap normal plasma proteome correlation between abundance their Notably, abundant like α-2-macroglobulin, fibronectin, transthyretin absent microclots, while less as adiponectin, periostin, von Willebrand factor well represented. Using bioinformatic tools, including AmyloGram AnuPP, found entrapped exhibit high amyloidogenic tendencies, integration elements structures. This likely contributes microclots’ resistance proteolysis. findings underscore role cross-seeding microclot formation highlight need for further investigation structural properties implications thrombotic diseases. insights foundation developing novel diagnostic therapeutic strategies targeting disorders.

Language: Английский

Formation and morphology of flaxseed protein isolate amyloid fibrils as governed by NaCl concentration DOI
Ziqi Wang, Xihua Liu, Saiya Li

et al.

Food Hydrocolloids, Journal Year: 2025, Volume and Issue: 166, P. 111300 - 111300

Published: Feb. 28, 2025

Language: Английский

Citations

0
Proteomic evidence for amyloidogenic cross-seeding in fibrinaloid microclots DOI
Douglas B. Kell, Etheresia Pretorius

bioRxiv (Cold Spring Harbor Laboratory), Journal Year: 2024, Volume and Issue: unknown

Published: July 17, 2024

Abstract In classical amyloidoses, amyloid fibres form through the nucleation and accretion of protein monomers, with protofibrils fibrils exhibiting a cross-β motif parallel or antiparallel β-sheets oriented perpendicular to fibre direction. These can intertwine mature fibres. Similar phenomena occur in blood from individuals circulating inflammatory molecules (also those originating viruses bacteria). presence inflammagens, pathological clotting occur, that results an anomalous termed fibrinaloid microclots. Previous proteomic analyses these microclots have shown non-fibrin(ogen) proteins, suggesting more complex mechanism than simple entrapment. We provide evidence against entrapment model, noting clot pores are too large centrifugation would removed weakly bound proteins. Instead, we explore whether co-aggregation into may involve axial (multiple proteins within same fibril), lateral (single-protein contributing fibre), both types integration. Our analysis data different diseases shows no significant overlap normal plasma proteome correlation between abundance Notably, abundant like α-2-macroglobulin, fibronectin, transthyretin absent microclots, while less such as adiponectin, periostin, von Willebrand Factor well represented. Using bioinformatic tools including AmyloGram AnuPP, found entrapped exhibit high amyloidogenic tendencies, their integration elements structures. This likely contributes microclots’ resistance proteolysis. findings underscore role cross-seeding microclot formation highlight need for further investigation structural properties implications thrombotic diseases. insights foundation developing novel diagnostic therapeutic strategies targeting disorders.

Language: Английский

Citations

2
Proteomic Evidence for Amyloidogenic Cross-Seeding in Fibrinaloid Microclots DOI Open Access
Douglas B. Kell, Etheresia Pretorius

International Journal of Molecular Sciences, Journal Year: 2024, Volume and Issue: 25(19), P. 10809 - 10809

Published: Oct. 8, 2024

In classical amyloidoses, amyloid fibres form through the nucleation and accretion of protein monomers, with protofibrils fibrils exhibiting a cross-β motif parallel or antiparallel β-sheets oriented perpendicular to fibre direction. These can intertwine mature fibres. Similar phenomena occur in blood from individuals circulating inflammatory molecules (and also some originating viruses bacteria). Such pathological clotting result an anomalous termed fibrinaloid microclots. Previous proteomic analyses these microclots have shown presence non-fibrin(ogen) proteins, suggesting more complex mechanism than simple entrapment. We thus provide evidence against such entrapment model, noting that clot pores are too large centrifugation would removed weakly bound proteins. Instead, we explore whether co-aggregation into may involve axial (multiple proteins within same fibril), lateral (single-protein contributing fibre), both types integration. Our analysis data different diseases shows no significant quantitative overlap normal plasma proteome correlation between abundance their Notably, abundant like α-2-macroglobulin, fibronectin, transthyretin absent microclots, while less as adiponectin, periostin, von Willebrand factor well represented. Using bioinformatic tools, including AmyloGram AnuPP, found entrapped exhibit high amyloidogenic tendencies, integration elements structures. This likely contributes microclots’ resistance proteolysis. findings underscore role cross-seeding microclot formation highlight need for further investigation structural properties implications thrombotic diseases. insights foundation developing novel diagnostic therapeutic strategies targeting disorders.

Language: Английский

Citations

1