Exploring the thermodynamic and kinetic landscape of amyloid fibril formation

Emil Axell

Exploring the thermodynamic and kinetic landscape of amyloid fibril formation

Research output: Thesis › Doctoral Thesis (compilation)

112 Downloads (Pure)

Abstract

The purpose of the work that forms the basis of this thesis has been to investigate fundamental properties of amyloid β and tau self-assembly and their solubility. The results of this research are presented as five research articles. In Paper I, a solubility assay for determining the solubility of amyloid proteins is developed and its use demonstrated for the Aβ40 peptide. Paper II finds that tau truncated of its flexible regions adjacent to the amyloid core, (tau 304-380C322S) spontaneously forms fibrils without the use of external inducers and that the proliferation of fibrils occurs through secondary
nucleation. Next, in Paper III, the methodology developed in Paper I is applied to the fragment of tau from Paper II, and its solubility is established. Paper IV explores how fluid shear forces influences the microscopic steps of fibril formation and find that primary and secondary nucleation is increased by mild shear, while elongation and fragmentation is unaffected for Aβ42. The increase in secondary nucleation, in turn increases the oligomer population. Paper V explores one of the body’s own defense mechanisms against protein misfolding, the molecular chaperone DNAJB6b, and how its assembly state affects the potency of Aβ42 aggregation inhibition.

Collectivly, this work provides new insights and avenues for continued research that hopefully one day may help improve the prospects and quality of life for the individuals suffering from AD.

Original language	English
Qualification	Doctor
Supervisors/Advisors	Snogerup-Linse, Sara, Supervisor Sparr, Emma, Assistant supervisor
Award date	2025 Mar 14
Place of Publication	Lund
Publisher	Lunds universitet
ISBN (Print)	978-91-8096-076-2
ISBN (electronic)	978-91-8096-077-9
Publication status	Published - 2025

Bibliographical note

Defence details
Date: 2025-03-14
Time: 09:00
Place: Kemicentrum KC:A
External reviewer(s)
Name: Barth, Andreas
Title: Professor
Affiliation: Stockholms universitet
---

Subject classification (UKÄ)

Natural Sciences
Biological Sciences

Free keywords

self-assembly
alzheimer’s disease
Aβ42
tau
protein solubility
shear forces
secondary nucleation
DNAJB6b
protein aggregation
AD
neurodegenerative diseases

Access to Document

Exploring the thermodynamic and kinetic landscape of amyloid fibril formationFinal published version, 10.1 MB

4 Article

The role of shear forces in primary and secondary nucleation of amyloid fibrils
Axell, E., Hu, J., Lindberg, M., Dear, A. J., Ortigosa-Pascual, L., Andrzejewska, E. A., Šneiderienė, G., Thacker, D., Knowles, T. P. J., Sparr, E. & Linse, S., 2024 Jun 18, In: Proceedings of the National Academy of Sciences of the United States of America. 121, 25, p. e2322572121 10 p.
Research output: Contribution to journal › Article › peer-review

Open Access
A label-free high-throughput protein solubility assay and its application to Aβ40
Lindberg, M., Axell, E., Sparr, E. & Snogerup-Linse, S., 2024 Feb 2, In: Biophysical Chemistry. 307, 8 p., 107165.
Research output: Contribution to journal › Article › peer-review

Open Access
The Ability of DNAJB6b to Suppress Amyloid Formation Depends on the Chaperone Aggregation State
Carlsson, A., Axell, E., Emanuelsson, C., Olsson, U. & Linse, S., 2024, In: ACS Chemical Neuroscience. 15, 9, p. 1732-1737
Research output: Contribution to journal › Article › peer-review

Open Access

National Center for High Resolution Electron Microscopy - ARTEMI Atomic Resolution TEM infrastructure of Sweden
Wallenberg, R. (Manager)
Centre for Analysis and Synthesis
Infrastructure

Cite this

@phdthesis{8eec520506ca4d6484d865b6a50788e9,

title = "Exploring the thermodynamic and kinetic landscape of amyloid fibril formation",

abstract = "The purpose of the work that forms the basis of this thesis has been to investigate fundamental properties of amyloid β and tau self-assembly and their solubility. The results of this research are presented as five research articles. In Paper I, a solubility assay for determining the solubility of amyloid proteins is developed and its use demonstrated for the Aβ40 peptide. Paper II finds that tau truncated of its flexible regions adjacent to the amyloid core, (tau 304-380C322S) spontaneously forms fibrils without the use of external inducers and that the proliferation of fibrils occurs through secondary nucleation. Next, in Paper III, the methodology developed in Paper I is applied to the fragment of tau from Paper II, and its solubility is established. Paper IV explores how fluid shear forces influences the microscopic steps of fibril formation and find that primary and secondary nucleation is increased by mild shear, while elongation and fragmentation is unaffected for Aβ42. The increase in secondary nucleation, in turn increases the oligomer population. Paper V explores one of the body{\textquoteright}s own defense mechanisms against protein misfolding, the molecular chaperone DNAJB6b, and how its assembly state affects the potency of Aβ42 aggregation inhibition. Collectivly, this work provides new insights and avenues for continued research that hopefully one day may help improve the prospects and quality of life for the individuals suffering from AD.",

keywords = "self-assembly, alzheimer{\textquoteright}s disease, Aβ42, tau, protein solubility, shear forces, secondary nucleation, DNAJB6b, protein aggregation, AD, neurodegenerative diseases",

author = "Emil Axell",

note = "Defence details Date: 2025-03-14 Time: 09:00 Place: Kemicentrum KC:A External reviewer(s) Name: Barth, Andreas Title: Professor Affiliation: Stockholms universitet --- ",

year = "2025",

language = "English",

isbn = "978-91-8096-076-2",

publisher = "Lunds universitet",

type = "Doctoral Thesis (compilation)",

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TY - THES

T1 - Exploring the thermodynamic and kinetic landscape of amyloid fibril formation

AU - Axell, Emil

N1 - Defence details Date: 2025-03-14 Time: 09:00 Place: Kemicentrum KC:A External reviewer(s) Name: Barth, Andreas Title: Professor Affiliation: Stockholms universitet ---

PY - 2025

Y1 - 2025

N2 - The purpose of the work that forms the basis of this thesis has been to investigate fundamental properties of amyloid β and tau self-assembly and their solubility. The results of this research are presented as five research articles. In Paper I, a solubility assay for determining the solubility of amyloid proteins is developed and its use demonstrated for the Aβ40 peptide. Paper II finds that tau truncated of its flexible regions adjacent to the amyloid core, (tau 304-380C322S) spontaneously forms fibrils without the use of external inducers and that the proliferation of fibrils occurs through secondary nucleation. Next, in Paper III, the methodology developed in Paper I is applied to the fragment of tau from Paper II, and its solubility is established. Paper IV explores how fluid shear forces influences the microscopic steps of fibril formation and find that primary and secondary nucleation is increased by mild shear, while elongation and fragmentation is unaffected for Aβ42. The increase in secondary nucleation, in turn increases the oligomer population. Paper V explores one of the body’s own defense mechanisms against protein misfolding, the molecular chaperone DNAJB6b, and how its assembly state affects the potency of Aβ42 aggregation inhibition. Collectivly, this work provides new insights and avenues for continued research that hopefully one day may help improve the prospects and quality of life for the individuals suffering from AD.

AB - The purpose of the work that forms the basis of this thesis has been to investigate fundamental properties of amyloid β and tau self-assembly and their solubility. The results of this research are presented as five research articles. In Paper I, a solubility assay for determining the solubility of amyloid proteins is developed and its use demonstrated for the Aβ40 peptide. Paper II finds that tau truncated of its flexible regions adjacent to the amyloid core, (tau 304-380C322S) spontaneously forms fibrils without the use of external inducers and that the proliferation of fibrils occurs through secondary nucleation. Next, in Paper III, the methodology developed in Paper I is applied to the fragment of tau from Paper II, and its solubility is established. Paper IV explores how fluid shear forces influences the microscopic steps of fibril formation and find that primary and secondary nucleation is increased by mild shear, while elongation and fragmentation is unaffected for Aβ42. The increase in secondary nucleation, in turn increases the oligomer population. Paper V explores one of the body’s own defense mechanisms against protein misfolding, the molecular chaperone DNAJB6b, and how its assembly state affects the potency of Aβ42 aggregation inhibition. Collectivly, this work provides new insights and avenues for continued research that hopefully one day may help improve the prospects and quality of life for the individuals suffering from AD.

KW - self-assembly

KW - alzheimer’s disease

KW - Aβ42

KW - tau

KW - protein solubility

KW - shear forces

KW - secondary nucleation

KW - DNAJB6b

KW - protein aggregation

KW - AD

KW - neurodegenerative diseases

M3 - Doctoral Thesis (compilation)

SN - 978-91-8096-076-2

PB - Lunds universitet

CY - Lund

ER -

Exploring the thermodynamic and kinetic landscape of amyloid fibril formation

Abstract

Bibliographical note

Subject classification (UKÄ)

Free keywords

Access to Document

Fingerprint

Research output

The role of shear forces in primary and secondary nucleation of amyloid fibrils

A label-free high-throughput protein solubility assay and its application to Aβ40

The Ability of DNAJB6b to Suppress Amyloid Formation Depends on the Chaperone Aggregation State

Equipment

National Center for High Resolution Electron Microscopy - ARTEMI Atomic Resolution TEM infrastructure of Sweden

Cite this