Inhibition of hIAPP amyloid-fibril formation and apoptotic cell death by a designed hIAPP amyloid-core-containing hexapeptide

Marianna Tatarek-Nossol; Li Mei Yan; Anke Schmauder; Konstantinos Tenidis; Gunilla Westermark; Aphrodite Kapurniotu

doi:10.1016/j.chembiol.2005.05.010

Inhibition of hIAPP amyloid-fibril formation and apoptotic cell death by a designed hIAPP amyloid-core-containing hexapeptide

Marianna Tatarek-Nossol, Li Mei Yan, Anke Schmauder, Konstantinos Tenidis, Gunilla Westermark, Aphrodite Kapurniotu

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

103 Scopus citations

Abstract

The pathogenesis of type II diabetes is associated with the aggregation of the 37-residue human islet amyloid polypeptide (hIAPP) into cytotoxic β sheet aggregates and fibrils. We have recently shown that introduction of two N-methyl rests in the β sheet- and amyloid-core-containing sequence hIAPP(22-27), or NFGAIL converted this amyloidogenic and cytotoxic sequence into nonamyloidogenic and noncytotoxic NF(N-Me)GA(N-Me)IL. Here, we show that NF(N-Me)GA(N-Me)IL is able to bind with high-affinity full-length hIAPP and to inhibit its fibrillogenesis. NF(N-Me)GA(N-Me)IL also inhibits hIAPP-mediated apoptotic β cell death. By contrast, unmodified NFGAIL does not inhibit hIAPP amyloidogenesis and cytotoxicity, suggesting that N-methylation conferred on NFGAIL the properties of NF(N-Me)GA(N-Me)IL. These results support the concept that rational N-methylation of hIAPP amyloid-core sequences may be a valuable strategy to design pancreatic-amyloid diagnostics and therapeutics for type II diabetes.

Original language	English
Pages (from-to)	797-809
Number of pages	13
Journal	Chemistry and Biology
Volume	12
Issue number	7
DOIs	https://doi.org/10.1016/j.chembiol.2005.05.010
State	Published - Jul 2005
Externally published	Yes

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@article{c12656405c40409da5298c768275e263,

title = "Inhibition of hIAPP amyloid-fibril formation and apoptotic cell death by a designed hIAPP amyloid-core-containing hexapeptide",

abstract = "The pathogenesis of type II diabetes is associated with the aggregation of the 37-residue human islet amyloid polypeptide (hIAPP) into cytotoxic β sheet aggregates and fibrils. We have recently shown that introduction of two N-methyl rests in the β sheet- and amyloid-core-containing sequence hIAPP(22-27), or NFGAIL converted this amyloidogenic and cytotoxic sequence into nonamyloidogenic and noncytotoxic NF(N-Me)GA(N-Me)IL. Here, we show that NF(N-Me)GA(N-Me)IL is able to bind with high-affinity full-length hIAPP and to inhibit its fibrillogenesis. NF(N-Me)GA(N-Me)IL also inhibits hIAPP-mediated apoptotic β cell death. By contrast, unmodified NFGAIL does not inhibit hIAPP amyloidogenesis and cytotoxicity, suggesting that N-methylation conferred on NFGAIL the properties of NF(N-Me)GA(N-Me)IL. These results support the concept that rational N-methylation of hIAPP amyloid-core sequences may be a valuable strategy to design pancreatic-amyloid diagnostics and therapeutics for type II diabetes.",

author = "Marianna Tatarek-Nossol and Yan, {Li Mei} and Anke Schmauder and Konstantinos Tenidis and Gunilla Westermark and Aphrodite Kapurniotu",

note = "Funding Information: We are grateful to J. Bernhagen for help with the apoptosis assay and to A. Velkova for help with the fluorescence spectroscopy. We thank K. Sweimeh for technical assistance in CD and EM studies. We thank M. Waldner, H. Vasan, and M. M{\"u}sken for technical assistance in peptide synthesis, purification, and fluorescein labeling. This work was partially supported by an institutional grant of The Fraunhofer Institute for Interfacial and Biological Engineering (FhIGB, Stuttgart, Germany).",

year = "2005",

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T1 - Inhibition of hIAPP amyloid-fibril formation and apoptotic cell death by a designed hIAPP amyloid-core-containing hexapeptide

AU - Tatarek-Nossol, Marianna

AU - Yan, Li Mei

AU - Schmauder, Anke

AU - Tenidis, Konstantinos

AU - Westermark, Gunilla

AU - Kapurniotu, Aphrodite

N1 - Funding Information: We are grateful to J. Bernhagen for help with the apoptosis assay and to A. Velkova for help with the fluorescence spectroscopy. We thank K. Sweimeh for technical assistance in CD and EM studies. We thank M. Waldner, H. Vasan, and M. Müsken for technical assistance in peptide synthesis, purification, and fluorescein labeling. This work was partially supported by an institutional grant of The Fraunhofer Institute for Interfacial and Biological Engineering (FhIGB, Stuttgart, Germany).

PY - 2005/7

Y1 - 2005/7

N2 - The pathogenesis of type II diabetes is associated with the aggregation of the 37-residue human islet amyloid polypeptide (hIAPP) into cytotoxic β sheet aggregates and fibrils. We have recently shown that introduction of two N-methyl rests in the β sheet- and amyloid-core-containing sequence hIAPP(22-27), or NFGAIL converted this amyloidogenic and cytotoxic sequence into nonamyloidogenic and noncytotoxic NF(N-Me)GA(N-Me)IL. Here, we show that NF(N-Me)GA(N-Me)IL is able to bind with high-affinity full-length hIAPP and to inhibit its fibrillogenesis. NF(N-Me)GA(N-Me)IL also inhibits hIAPP-mediated apoptotic β cell death. By contrast, unmodified NFGAIL does not inhibit hIAPP amyloidogenesis and cytotoxicity, suggesting that N-methylation conferred on NFGAIL the properties of NF(N-Me)GA(N-Me)IL. These results support the concept that rational N-methylation of hIAPP amyloid-core sequences may be a valuable strategy to design pancreatic-amyloid diagnostics and therapeutics for type II diabetes.

AB - The pathogenesis of type II diabetes is associated with the aggregation of the 37-residue human islet amyloid polypeptide (hIAPP) into cytotoxic β sheet aggregates and fibrils. We have recently shown that introduction of two N-methyl rests in the β sheet- and amyloid-core-containing sequence hIAPP(22-27), or NFGAIL converted this amyloidogenic and cytotoxic sequence into nonamyloidogenic and noncytotoxic NF(N-Me)GA(N-Me)IL. Here, we show that NF(N-Me)GA(N-Me)IL is able to bind with high-affinity full-length hIAPP and to inhibit its fibrillogenesis. NF(N-Me)GA(N-Me)IL also inhibits hIAPP-mediated apoptotic β cell death. By contrast, unmodified NFGAIL does not inhibit hIAPP amyloidogenesis and cytotoxicity, suggesting that N-methylation conferred on NFGAIL the properties of NF(N-Me)GA(N-Me)IL. These results support the concept that rational N-methylation of hIAPP amyloid-core sequences may be a valuable strategy to design pancreatic-amyloid diagnostics and therapeutics for type II diabetes.

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ER -

Inhibition of hIAPP amyloid-fibril formation and apoptotic cell death by a designed hIAPP amyloid-core-containing hexapeptide

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