Emilia Dzień scite author profile

Membrane environment often has an important effect on the structure, and therefore also on the coordination mode of biologically relevant metal ions. This is also true in the case of Cu(II) coordination to amylin analogues—rat amylin, amylin1–19, pramlintide and Ac-pramlintide, which offer N-terminal amine groups and/or histidine imidazoles as copper(II) anchoring sites. Complex stabilities are comparable, with the exception of the very stable Cu(II)–amylin1–19, which proves that the presence of the amylin C-terminus lowers its affinity for copper(II); although not directly involved, its appropriate arrangement sterically prevents early metal binding. Most interestingly, in membrane-mimicking solution, the Cu(II) affinities of amylin analogues are lower than the ones in water, probably due to the crowding effect of the membrane solution and the fact that amide coordination occurs at higher pH, which happens most likely because the α-helical structure, imposed by the membrane-mimicking solvent, prevents the amides from binding at lower pH, requiring a local unwinding of the α-helix.

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Zn(II) binding to pramlintide results in a structural kink, fibril formation and antifungal activity

Dudek

Dzień

Wątły

et al. 2022

Sci Rep

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The antimicrobial properties of amylin, a 37-amino acid peptide hormone, co-secreted with insulin from the pancreas, are far less known than its antidiabetic function. We provide insight into the bioinorganic chemistry of amylin analogues, showing that the coordination of zinc(II) enhances the antifungal properties of pramlintide, a non-fibrillating therapeutic analogue of amylin. Zinc binds to the N-terminal amino group and His18 imidazole, inducing a kink in the peptide structure, which, in turn, triggers a fibrillization process of the complex, resulting in an amyloid structure most likely responsible for the disruption of the fungal cell.

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Effect of Zn(II) on pramlintide: structural kink, fibril formation, antifungal activity

Dudek

Dzień

Wątły

et al. 2022

Preprint

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The antimicrobial properties of amylin, a polypeptide secreted by the pancreas, are far less known than its antidiabetic function. Among the studied amylin analogues, the coordination of zinc(II) enhances the antifungal properties of pramlintide, a non-fibrillating therapeutic analogue of amylin; binding at the N-terminal amino group and His18 imidazole, it induces a kink in the peptide structure, which, in turn, triggers a fibrillization process of the complex, resulting in an amyloid structure most likely responsible for the disruption of the fungal cell.

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Thermodynamic Surprises of Cu(II)-Amylin Complexes in Membrane Mimicking Solutions

Dzień

Dudek

Witkowska

et al. 2021

Preprint

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Membrane environment often has an important effect on the structure, and therefore also on the coordination mode of biologically relevant metal ions.This is also true in the case of Cu(II) coordination to amylin analogues – rat amylin, amylin1-19, pramlintide and Ac-pramlintide, which offer N-terminal amine groups and/or histidine imidazoles as copper(II) anchoring sites. Complex stabilities are comparable, with the exception of the very stable Cu(II)-amylin1-19, which proves that the presence of the amylin C-terminus lowers its affinity for copper(II); although not directly involved, its appropriate arrangement sterically prevents early metal binding.Most interestingly, in membrane-mimicking solution, the Cu(II) affinities of amylin analogues are lower than the ones in water, probably due to the crowding effect of the membrane solution and the fact that amide coordination occurs at higher pH, which happens most likely because the α-helical structure, imposed by the membrane-mimicking solvent, prevents the amides from binding at lower pH, requiring a local unwinding of the α-helix.

show abstract

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Emilia Dzień

Thermodynamic surprises of Cu(II)–amylin analogue complexes in membrane mimicking solutions

Zn(II) binding to pramlintide results in a structural kink, fibril formation and antifungal activity

Effect of Zn(II) on pramlintide: structural kink, fibril formation, antifungal activity

Thermodynamic Surprises of Cu(II)-Amylin Complexes in Membrane Mimicking Solutions

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