Cryo-Electron Microscopy Provides Mechanistic Insights into Solution-Dependent Polymorphism and Cross-Aggregation Phenomena of the Human and Rat Islet Amyloid Polypeptides

Dylan Valli; Saik Ann Ooi; Ibrahim Kaya; Asger Berg Thomassen; Himanshu Chaudhary; Tobias Weidner; Per E Andrén; Michał Maj

doi:10.1021/acs.biochem.5c00042

Cryo-Electron Microscopy Provides Mechanistic Insights into Solution-Dependent Polymorphism and Cross-Aggregation Phenomena of the Human and Rat Islet Amyloid Polypeptides

Dylan Valli, Saik Ann Ooi, Ibrahim Kaya, Asger Berg Thomassen, Himanshu Chaudhary, Tobias Weidner, Per E Andrén, Michał Maj^*

^*Corresponding author af dette arbejde

Institut for Kemi

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avis › Tidsskriftartikel › Forskning › peer review

Abstract

Inhibitors targeting amyloids formed by the human Islet Amyloid Polypeptide (hIAPP) are promising therapeutic candidates for type 2 diabetes. Peptide formulations derived from the nonamyloidogenic rat IAPP (rIAPP) sequence are currently used as hIAPP mimetics to support insulin therapy. rIAPP itself acts as a peptide inhibitor; yet, the structural-level consequences of such inhibition, particularly its impact on amyloid polymorphism, have not been studied in detail. Here, we conduct coaggregation experiments with varying rIAPP-to-hIAPP concentration ratios and employ high-resolution cryo-electron microscopy (Cryo-EM) to elucidate the polymorphism of the resulting fibril structures. Our results demonstrate that the polymorphism of hIAPP amyloids is highly sensitive to the electrostatic environment, which can be modulated by buffer composition, the concentration of the inhibitor, and cosolvents such as hexafluoroisopropanol (HFIP). Under native conditions, rIAPP associates with hIAPP but does not cross-aggregate, resulting in fibrils primarily composed of hIAPP. Significant inhibition is observed at relatively high concentrations of rIAPP. However, trace amounts of HFIP disrupt this inhibition, leading to increased fibril concentrations due to the formation of cross-seeded products composed of both hIAPP and rIAPP, as evidenced by mass spectrometry and two-dimensional infrared (2D IR) spectroscopy. These findings highlight the critical role of experimental conditions, particularly the electrostatic environment, in modulating amyloid polymorphism, cross-seeding, and inhibition. By providing structural insights into these processes, this study advances our understanding of peptide aggregation and offers valuable guidance for the rational design of more effective therapeutic inhibitors targeting hIAPP-related amyloidosis.

Originalsprog	Engelsk
Tidsskrift	Biochemistry
Vol/bind	64
Nummer	12
Sider (fra-til)	2583-2595
Antal sider	13
ISSN	0006-2960
DOI	https://doi.org/10.1021/acs.biochem.5c00042
Status	Udgivet - 17 jun. 2025

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@article{02ef641c8242460d882b716db5a8379a,

title = "Cryo-Electron Microscopy Provides Mechanistic Insights into Solution-Dependent Polymorphism and Cross-Aggregation Phenomena of the Human and Rat Islet Amyloid Polypeptides",

abstract = "Inhibitors targeting amyloids formed by the human Islet Amyloid Polypeptide (hIAPP) are promising therapeutic candidates for type 2 diabetes. Peptide formulations derived from the nonamyloidogenic rat IAPP (rIAPP) sequence are currently used as hIAPP mimetics to support insulin therapy. rIAPP itself acts as a peptide inhibitor; yet, the structural-level consequences of such inhibition, particularly its impact on amyloid polymorphism, have not been studied in detail. Here, we conduct coaggregation experiments with varying rIAPP-to-hIAPP concentration ratios and employ high-resolution cryo-electron microscopy (Cryo-EM) to elucidate the polymorphism of the resulting fibril structures. Our results demonstrate that the polymorphism of hIAPP amyloids is highly sensitive to the electrostatic environment, which can be modulated by buffer composition, the concentration of the inhibitor, and cosolvents such as hexafluoroisopropanol (HFIP). Under native conditions, rIAPP associates with hIAPP but does not cross-aggregate, resulting in fibrils primarily composed of hIAPP. Significant inhibition is observed at relatively high concentrations of rIAPP. However, trace amounts of HFIP disrupt this inhibition, leading to increased fibril concentrations due to the formation of cross-seeded products composed of both hIAPP and rIAPP, as evidenced by mass spectrometry and two-dimensional infrared (2D IR) spectroscopy. These findings highlight the critical role of experimental conditions, particularly the electrostatic environment, in modulating amyloid polymorphism, cross-seeding, and inhibition. By providing structural insights into these processes, this study advances our understanding of peptide aggregation and offers valuable guidance for the rational design of more effective therapeutic inhibitors targeting hIAPP-related amyloidosis.",

author = "Dylan Valli and Ooi, {Saik Ann} and Ibrahim Kaya and Thomassen, {Asger Berg} and Himanshu Chaudhary and Tobias Weidner and Andr{\'e}n, {Per E} and Micha{\l} Maj",

year = "2025",

month = jun,

day = "17",

doi = "10.1021/acs.biochem.5c00042",

language = "English",

volume = "64",

pages = "2583--2595",

journal = "Biochemistry",

issn = "0006-2960",

publisher = "American Chemical Society",

number = "12",

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Cryo-Electron Microscopy Provides Mechanistic Insights into Solution-Dependent Polymorphism and Cross-Aggregation Phenomena of the Human and Rat Islet Amyloid Polypeptides. / Valli, Dylan; Ooi, Saik Ann; Kaya, Ibrahim et al.
I: Biochemistry, Bind 64, Nr. 12, 17.06.2025, s. 2583-2595.

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avis › Tidsskriftartikel › Forskning › peer review

TY - JOUR

T1 - Cryo-Electron Microscopy Provides Mechanistic Insights into Solution-Dependent Polymorphism and Cross-Aggregation Phenomena of the Human and Rat Islet Amyloid Polypeptides

AU - Valli, Dylan

AU - Ooi, Saik Ann

AU - Kaya, Ibrahim

AU - Thomassen, Asger Berg

AU - Chaudhary, Himanshu

AU - Weidner, Tobias

AU - Andrén, Per E

AU - Maj, Michał

PY - 2025/6/17

Y1 - 2025/6/17

N2 - Inhibitors targeting amyloids formed by the human Islet Amyloid Polypeptide (hIAPP) are promising therapeutic candidates for type 2 diabetes. Peptide formulations derived from the nonamyloidogenic rat IAPP (rIAPP) sequence are currently used as hIAPP mimetics to support insulin therapy. rIAPP itself acts as a peptide inhibitor; yet, the structural-level consequences of such inhibition, particularly its impact on amyloid polymorphism, have not been studied in detail. Here, we conduct coaggregation experiments with varying rIAPP-to-hIAPP concentration ratios and employ high-resolution cryo-electron microscopy (Cryo-EM) to elucidate the polymorphism of the resulting fibril structures. Our results demonstrate that the polymorphism of hIAPP amyloids is highly sensitive to the electrostatic environment, which can be modulated by buffer composition, the concentration of the inhibitor, and cosolvents such as hexafluoroisopropanol (HFIP). Under native conditions, rIAPP associates with hIAPP but does not cross-aggregate, resulting in fibrils primarily composed of hIAPP. Significant inhibition is observed at relatively high concentrations of rIAPP. However, trace amounts of HFIP disrupt this inhibition, leading to increased fibril concentrations due to the formation of cross-seeded products composed of both hIAPP and rIAPP, as evidenced by mass spectrometry and two-dimensional infrared (2D IR) spectroscopy. These findings highlight the critical role of experimental conditions, particularly the electrostatic environment, in modulating amyloid polymorphism, cross-seeding, and inhibition. By providing structural insights into these processes, this study advances our understanding of peptide aggregation and offers valuable guidance for the rational design of more effective therapeutic inhibitors targeting hIAPP-related amyloidosis.

AB - Inhibitors targeting amyloids formed by the human Islet Amyloid Polypeptide (hIAPP) are promising therapeutic candidates for type 2 diabetes. Peptide formulations derived from the nonamyloidogenic rat IAPP (rIAPP) sequence are currently used as hIAPP mimetics to support insulin therapy. rIAPP itself acts as a peptide inhibitor; yet, the structural-level consequences of such inhibition, particularly its impact on amyloid polymorphism, have not been studied in detail. Here, we conduct coaggregation experiments with varying rIAPP-to-hIAPP concentration ratios and employ high-resolution cryo-electron microscopy (Cryo-EM) to elucidate the polymorphism of the resulting fibril structures. Our results demonstrate that the polymorphism of hIAPP amyloids is highly sensitive to the electrostatic environment, which can be modulated by buffer composition, the concentration of the inhibitor, and cosolvents such as hexafluoroisopropanol (HFIP). Under native conditions, rIAPP associates with hIAPP but does not cross-aggregate, resulting in fibrils primarily composed of hIAPP. Significant inhibition is observed at relatively high concentrations of rIAPP. However, trace amounts of HFIP disrupt this inhibition, leading to increased fibril concentrations due to the formation of cross-seeded products composed of both hIAPP and rIAPP, as evidenced by mass spectrometry and two-dimensional infrared (2D IR) spectroscopy. These findings highlight the critical role of experimental conditions, particularly the electrostatic environment, in modulating amyloid polymorphism, cross-seeding, and inhibition. By providing structural insights into these processes, this study advances our understanding of peptide aggregation and offers valuable guidance for the rational design of more effective therapeutic inhibitors targeting hIAPP-related amyloidosis.

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U2 - 10.1021/acs.biochem.5c00042

DO - 10.1021/acs.biochem.5c00042

M3 - Journal article

C2 - 40417836

SN - 0006-2960

VL - 64

SP - 2583

EP - 2595

JO - Biochemistry

JF - Biochemistry

IS - 12

ER -

Cryo-Electron Microscopy Provides Mechanistic Insights into Solution-Dependent Polymorphism and Cross-Aggregation Phenomena of the Human and Rat Islet Amyloid Polypeptides

Abstract

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