Fast Motions of Key Methyl Groups in Amyloid-β Fibrils
Amyloid-β (Aβ) peptide is the major component of plaques found in Alzheimer’s disease patients. Using solid-state 2H NMR relaxation performed on selectively deuterated methyl groups, we probed the dynamics in the threefold symmetric and twofold symmetric polymorphs of native Aβ as well as the protof...
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Published in | Biophysical journal Vol. 111; no. 10; pp. 2135 - 2148 |
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Main Authors | , , , , , |
Format | Journal Article |
Language | English |
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United States
Elsevier Inc
15.11.2016
Elsevier The Biophysical Society |
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Abstract | Amyloid-β (Aβ) peptide is the major component of plaques found in Alzheimer’s disease patients. Using solid-state 2H NMR relaxation performed on selectively deuterated methyl groups, we probed the dynamics in the threefold symmetric and twofold symmetric polymorphs of native Aβ as well as the protofibrils of the D23N mutant. Specifically, we investigated the methyl groups of two leucine residues that belong to the hydrophobic core (L17 and L34) as well as M35 residues belonging to the hydrophobic interface between the cross-β subunits, which has been previously found to be water-accessible. Relaxation measurements performed over 310–140 K and two magnetic field strengths provide insights into conformational variability within and between polymorphs. Core packing variations within a single polymorph are similar to what is observed for globular proteins for the core residues, whereas M35 exhibits a larger degree of variability. M35 site is also shown to undergo a solvent-dependent dynamical transition in which slower amplitude motions of methyl axes are activated at high temperature. The motions, modeled as a diffusion of methyl axis, have activation energy by a factor of 2.7 larger in the twofold compared with the threefold polymorph, whereas D23N protofibrils display a value similar to the threefold polymorph. This suggests enhanced flexibility of the hydrophobic interface in the threefold polymorph. This difference is only observed in the hydrated state and is absent in the dry fibrils, highlighting the role of solvent at the cavity. In contrast, the dynamic behavior of the core is hydration-independent. |
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AbstractList | Amyloid-β (Aβ) peptide is the major component of plaques found in Alzheimer’s disease patients. Using solid-state 2H NMR relaxation performed on selectively deuterated methyl groups, we probed the dynamics in the threefold symmetric and twofold symmetric polymorphs of native Aβ as well as the protofibrils of the D23N mutant. Specifically, we investigated the methyl groups of two leucine residues that belong to the hydrophobic core (L17 and L34) as well as M35 residues belonging to the hydrophobic interface between the cross-β subunits, which has been previously found to be water-accessible. Relaxation measurements performed over 310–140 K and two magnetic field strengths provide insights into conformational variability within and between polymorphs. Core packing variations within a single polymorph are similar to what is observed for globular proteins for the core residues, whereas M35 exhibits a larger degree of variability. M35 site is also shown to undergo a solvent-dependent dynamical transition in which slower amplitude motions of methyl axes are activated at high temperature. The motions, modeled as a diffusion of methyl axis, have activation energy by a factor of 2.7 larger in the twofold compared with the threefold polymorph, whereas D23N protofibrils display a value similar to the threefold polymorph. This suggests enhanced flexibility of the hydrophobic interface in the threefold polymorph. This difference is only observed in the hydrated state and is absent in the dry fibrils, highlighting the role of solvent at the cavity. In contrast, the dynamic behavior of the core is hydration-independent. Amyloid-β (Aβ) peptide is the major component of plaques found in Alzheimer's disease patients. Using solid-state H NMR relaxation performed on selectively deuterated methyl groups, we probed the dynamics in the threefold symmetric and twofold symmetric polymorphs of native Aβ as well as the protofibrils of the D23N mutant. Specifically, we investigated the methyl groups of two leucine residues that belong to the hydrophobic core (L17 and L34) as well as M35 residues belonging to the hydrophobic interface between the cross-β subunits, which has been previously found to be water-accessible. Relaxation measurements performed over 310-140 K and two magnetic field strengths provide insights into conformational variability within and between polymorphs. Core packing variations within a single polymorph are similar to what is observed for globular proteins for the core residues, whereas M35 exhibits a larger degree of variability. M35 site is also shown to undergo a solvent-dependent dynamical transition in which slower amplitude motions of methyl axes are activated at high temperature. The motions, modeled as a diffusion of methyl axis, have activation energy by a factor of 2.7 larger in the twofold compared with the threefold polymorph, whereas D23N protofibrils display a value similar to the threefold polymorph. This suggests enhanced flexibility of the hydrophobic interface in the threefold polymorph. This difference is only observed in the hydrated state and is absent in the dry fibrils, highlighting the role of solvent at the cavity. In contrast, the dynamic behavior of the core is hydration-independent. Amyloid- β (A β ) peptide is the major component of plaques found in Alzheimer’s disease patients. Using solid-state 2 H NMR relaxation performed on selectively deuterated methyl groups, we probed the dynamics in the threefold symmetric and twofold symmetric polymorphs of native A β as well as the protofibrils of the D23N mutant. Specifically, we investigated the methyl groups of two leucine residues that belong to the hydrophobic core (L17 and L34) as well as M35 residues belonging to the hydrophobic interface between the cross- β subunits, which has been previously found to be water-accessible. Relaxation measurements performed over 310–140 K and two magnetic field strengths provide insights into conformational variability within and between polymorphs. Core packing variations within a single polymorph are similar to what is observed for globular proteins for the core residues, whereas M35 exhibits a larger degree of variability. M35 site is also shown to undergo a solvent-dependent dynamical transition in which slower amplitude motions of methyl axes are activated at high temperature. The motions, modeled as a diffusion of methyl axis, have activation energy by a factor of 2.7 larger in the twofold compared with the threefold polymorph, whereas D23N protofibrils display a value similar to the threefold polymorph. This suggests enhanced flexibility of the hydrophobic interface in the threefold polymorph. This difference is only observed in the hydrated state and is absent in the dry fibrils, highlighting the role of solvent at the cavity. In contrast, the dynamic behavior of the core is hydration-independent. |
Author | Falconer, Isaac B. Qiang, Wei Hoatson, Gina L. Vugmeyster, Liliya Clark, Matthew A. Ostrovsky, Dmitry |
AuthorAffiliation | 1 Department of Chemistry, University of Colorado at Denver, Denver, Colorado 3 Department of Chemistry, University of Alaska Anchorage, Anchorage, Alaska 4 Department of Physics, College of William and Mary, Williamsburg, Virginia 2 Department of Mathematics, University of Colorado at Denver, Denver, Colorado 5 Department of Chemistry, Binghamton University, Binghamton, New York |
AuthorAffiliation_xml | – name: 1 Department of Chemistry, University of Colorado at Denver, Denver, Colorado – name: 4 Department of Physics, College of William and Mary, Williamsburg, Virginia – name: 3 Department of Chemistry, University of Alaska Anchorage, Anchorage, Alaska – name: 5 Department of Chemistry, Binghamton University, Binghamton, New York – name: 2 Department of Mathematics, University of Colorado at Denver, Denver, Colorado |
Author_xml | – sequence: 1 givenname: Liliya surname: Vugmeyster fullname: Vugmeyster, Liliya email: liliya.vugmeyster@ucdenver.edu organization: Department of Chemistry, University of Colorado at Denver, Denver, Colorado – sequence: 2 givenname: Dmitry surname: Ostrovsky fullname: Ostrovsky, Dmitry organization: Department of Mathematics, University of Colorado at Denver, Denver, Colorado – sequence: 3 givenname: Matthew A. surname: Clark fullname: Clark, Matthew A. organization: Department of Chemistry, University of Alaska Anchorage, Anchorage, Alaska – sequence: 4 givenname: Isaac B. surname: Falconer fullname: Falconer, Isaac B. organization: Department of Chemistry, University of Colorado at Denver, Denver, Colorado – sequence: 5 givenname: Gina L. surname: Hoatson fullname: Hoatson, Gina L. organization: Department of Physics, College of William and Mary, Williamsburg, Virginia – sequence: 6 givenname: Wei surname: Qiang fullname: Qiang, Wei organization: Department of Chemistry, Binghamton University, Binghamton, New York |
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Snippet | Amyloid-β (Aβ) peptide is the major component of plaques found in Alzheimer’s disease patients. Using solid-state 2H NMR relaxation performed on selectively... Amyloid-β (Aβ) peptide is the major component of plaques found in Alzheimer's disease patients. Using solid-state H NMR relaxation performed on selectively... Amyloid-β (Aβ) peptide is the major component of plaques found in Alzheimer's disease patients. Using solid-state 2H NMR relaxation performed on selectively... Amyloid- β (A β ) peptide is the major component of plaques found in Alzheimer’s disease patients. Using solid-state 2 H NMR relaxation performed on... |
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SubjectTerms | Amino Acid Sequence Amyloid beta-Peptides - chemistry Amyloid beta-Peptides - genetics Amyloid beta-Peptides - metabolism Hydrophobic and Hydrophilic Interactions Kinetics Movement Mutation Peptide Fragments - chemistry Peptide Fragments - genetics Peptide Fragments - metabolism Protein Multimerization Protein Structure, Secondary Proteins |
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Title | Fast Motions of Key Methyl Groups in Amyloid-β Fibrils |
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