Designed Macrocyclic Peptides as Nanomolar Amyloid Inhibitors Based on Minimal Recognition Elements

Anna Spanopoulou; Luzia Heidrich; Hong Ru Chen; Christina Frost; Dean Hrle; Eleni Malideli; Kathleen Hille; Alexandros Grammatikopoulos; Jürgen Bernhagen; Martin Zacharias; Gerhard Rammes; Aphrodite Kapurniotu

doi:10.1002/anie.201802979

Designed Macrocyclic Peptides as Nanomolar Amyloid Inhibitors Based on Minimal Recognition Elements

Anna Spanopoulou, Luzia Heidrich, Hong Ru Chen, Christina Frost, Dean Hrle, Eleni Malideli, Kathleen Hille, Alexandros Grammatikopoulos, Jürgen Bernhagen, Martin Zacharias, Gerhard Rammes, Aphrodite Kapurniotu

Research output: Contribution to journal › Article › peer-review

42 Scopus citations

Abstract

Amyloid self-assembly is linked to the pathogenesis of Alzheimer's disease (AD) and type 2 diabetes (T2D), but so far, no anti-amyloid compound has reached the clinic. Macrocyclic peptides belong to the most attractive drug candidates. Herein we present macrocyclic peptides (MCIPs) designed using minimal IAPP-derived recognition elements as a novel class of nanomolar amyloid inhibitors of both Aβ40(42) and IAPP or Aβ40(42) alone and show that chirality controls inhibitor selectivity. Sequence optimization led to the discovery of an Aβ40(42)-selective MCIP exhibiting high proteolytic stability in human plasma and human blood–brain barrier (BBB) crossing ability in a cell model, two highly desirable properties for anti-amyloid AD drugs. Owing to their favorable properties, MCIPs should serve as leads for macrocyclic peptide-based anti-amyloid drugs and scaffolds for the design of small-molecule peptidomimetics for targeting amyloidogenesis in AD or in both AD and T2D.

Original language	English
Pages (from-to)	14503-14508
Number of pages	6
Journal	Angewandte Chemie International Edition in English
Volume	57
Issue number	44
DOIs	https://doi.org/10.1002/anie.201802979
State	Published - 26 Oct 2018

Keywords

Alzheimer's disease
amyloid β-peptides
inhibitors
islet amyloid polypeptide
macrocyclic peptides

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Spanopoulou, A., Heidrich, L., Chen, H. R., Frost, C., Hrle, D., Malideli, E., Hille, K., Grammatikopoulos, A., Bernhagen, J., Zacharias, M., Rammes, G., & Kapurniotu, A. (2018). Designed Macrocyclic Peptides as Nanomolar Amyloid Inhibitors Based on Minimal Recognition Elements. Angewandte Chemie International Edition in English, 57(44), 14503-14508. https://doi.org/10.1002/anie.201802979

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abstract = "Amyloid self-assembly is linked to the pathogenesis of Alzheimer's disease (AD) and type 2 diabetes (T2D), but so far, no anti-amyloid compound has reached the clinic. Macrocyclic peptides belong to the most attractive drug candidates. Herein we present macrocyclic peptides (MCIPs) designed using minimal IAPP-derived recognition elements as a novel class of nanomolar amyloid inhibitors of both Aβ40(42) and IAPP or Aβ40(42) alone and show that chirality controls inhibitor selectivity. Sequence optimization led to the discovery of an Aβ40(42)-selective MCIP exhibiting high proteolytic stability in human plasma and human blood–brain barrier (BBB) crossing ability in a cell model, two highly desirable properties for anti-amyloid AD drugs. Owing to their favorable properties, MCIPs should serve as leads for macrocyclic peptide-based anti-amyloid drugs and scaffolds for the design of small-molecule peptidomimetics for targeting amyloidogenesis in AD or in both AD and T2D.",

keywords = "Alzheimer's disease, amyloid β-peptides, inhibitors, islet amyloid polypeptide, macrocyclic peptides",

author = "Anna Spanopoulou and Luzia Heidrich and Chen, {Hong Ru} and Christina Frost and Dean Hrle and Eleni Malideli and Kathleen Hille and Alexandros Grammatikopoulos and J{\"u}rgen Bernhagen and Martin Zacharias and Gerhard Rammes and Aphrodite Kapurniotu",

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Spanopoulou, A, Heidrich, L, Chen, HR, Frost, C, Hrle, D, Malideli, E, Hille, K, Grammatikopoulos, A, Bernhagen, J, Zacharias, M , Rammes, G & Kapurniotu, A 2018, 'Designed Macrocyclic Peptides as Nanomolar Amyloid Inhibitors Based on Minimal Recognition Elements', Angewandte Chemie International Edition in English, vol. 57, no. 44, pp. 14503-14508. https://doi.org/10.1002/anie.201802979

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AU - Spanopoulou, Anna

AU - Heidrich, Luzia

AU - Chen, Hong Ru

AU - Frost, Christina

AU - Hrle, Dean

AU - Malideli, Eleni

AU - Hille, Kathleen

AU - Grammatikopoulos, Alexandros

AU - Bernhagen, Jürgen

AU - Zacharias, Martin

AU - Rammes, Gerhard

AU - Kapurniotu, Aphrodite

PY - 2018/10/26

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N2 - Amyloid self-assembly is linked to the pathogenesis of Alzheimer's disease (AD) and type 2 diabetes (T2D), but so far, no anti-amyloid compound has reached the clinic. Macrocyclic peptides belong to the most attractive drug candidates. Herein we present macrocyclic peptides (MCIPs) designed using minimal IAPP-derived recognition elements as a novel class of nanomolar amyloid inhibitors of both Aβ40(42) and IAPP or Aβ40(42) alone and show that chirality controls inhibitor selectivity. Sequence optimization led to the discovery of an Aβ40(42)-selective MCIP exhibiting high proteolytic stability in human plasma and human blood–brain barrier (BBB) crossing ability in a cell model, two highly desirable properties for anti-amyloid AD drugs. Owing to their favorable properties, MCIPs should serve as leads for macrocyclic peptide-based anti-amyloid drugs and scaffolds for the design of small-molecule peptidomimetics for targeting amyloidogenesis in AD or in both AD and T2D.

AB - Amyloid self-assembly is linked to the pathogenesis of Alzheimer's disease (AD) and type 2 diabetes (T2D), but so far, no anti-amyloid compound has reached the clinic. Macrocyclic peptides belong to the most attractive drug candidates. Herein we present macrocyclic peptides (MCIPs) designed using minimal IAPP-derived recognition elements as a novel class of nanomolar amyloid inhibitors of both Aβ40(42) and IAPP or Aβ40(42) alone and show that chirality controls inhibitor selectivity. Sequence optimization led to the discovery of an Aβ40(42)-selective MCIP exhibiting high proteolytic stability in human plasma and human blood–brain barrier (BBB) crossing ability in a cell model, two highly desirable properties for anti-amyloid AD drugs. Owing to their favorable properties, MCIPs should serve as leads for macrocyclic peptide-based anti-amyloid drugs and scaffolds for the design of small-molecule peptidomimetics for targeting amyloidogenesis in AD or in both AD and T2D.

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KW - amyloid β-peptides

KW - inhibitors

KW - islet amyloid polypeptide

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JF - Angewandte Chemie International Edition in English

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ER -

Designed Macrocyclic Peptides as Nanomolar Amyloid Inhibitors Based on Minimal Recognition Elements

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Keywords

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