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Apolipoprotein E4 has extensive conformational heterogeneity in lipid-free and lipid-bound forms
Apolipoprotein E4 has extensive conformational heterogeneity in lipid-free and lipid-bound forms
by Mallimadugula, Upasana L. , DeKoster, Gregory T. , Incicco, J. Jeremías , Stuchell-Brereton, Melissa D. , Miller, Justin J. , Soranno, Andrea , Roy, Debjit , Smith, Louis G. , Baban, Berevan , Zimmerman, Maxwell I. , Frieden, Carl , Bowman, Gregory R. , Cubuk, Jasmine
in Alzheimer's disease / Amino acid substitution / Amino acids / Apolipoprotein E2 / Apolipoprotein E3 - chemistry / Apolipoprotein E4 / Apolipoprotein E4 - genetics / Apolipoproteins / Apolipoproteins E / Biochemistry / Biological Sciences / Biophysics and Computational Biology / Domains / Heterogeneity / Isoforms / Lipid rafts / Lipids / Molecular dynamics / Neurodegenerative diseases / Neurofibrillary tangles / Pathogenicity / Pathogens / Physical Sciences / Protein Conformation / Protein Isoforms - metabolism / Risk factors / Spectroscopy
2023
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Apolipoprotein E4 has extensive conformational heterogeneity in lipid-free and lipid-bound forms
by Mallimadugula, Upasana L. , DeKoster, Gregory T. , Incicco, J. Jeremías , Stuchell-Brereton, Melissa D. , Miller, Justin J. , Soranno, Andrea , Roy, Debjit , Smith, Louis G. , Baban, Berevan , Zimmerman, Maxwell I. , Frieden, Carl , Bowman, Gregory R. , Cubuk, Jasmine
in Alzheimer's disease / Amino acid substitution / Amino acids / Apolipoprotein E2 / Apolipoprotein E3 - chemistry / Apolipoprotein E4 / Apolipoprotein E4 - genetics / Apolipoproteins / Apolipoproteins E / Biochemistry / Biological Sciences / Biophysics and Computational Biology / Domains / Heterogeneity / Isoforms / Lipid rafts / Lipids / Molecular dynamics / Neurodegenerative diseases / Neurofibrillary tangles / Pathogenicity / Pathogens / Physical Sciences / Protein Conformation / Protein Isoforms - metabolism / Risk factors / Spectroscopy
2023
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Apolipoprotein E4 has extensive conformational heterogeneity in lipid-free and lipid-bound forms
Apolipoprotein E4 has extensive conformational heterogeneity in lipid-free and lipid-bound forms
by Mallimadugula, Upasana L. , DeKoster, Gregory T. , Incicco, J. Jeremías , Stuchell-Brereton, Melissa D. , Miller, Justin J. , Soranno, Andrea , Roy, Debjit , Smith, Louis G. , Baban, Berevan , Zimmerman, Maxwell I. , Frieden, Carl , Bowman, Gregory R. , Cubuk, Jasmine
in Alzheimer's disease / Amino acid substitution / Amino acids / Apolipoprotein E2 / Apolipoprotein E3 - chemistry / Apolipoprotein E4 / Apolipoprotein E4 - genetics / Apolipoproteins / Apolipoproteins E / Biochemistry / Biological Sciences / Biophysics and Computational Biology / Domains / Heterogeneity / Isoforms / Lipid rafts / Lipids / Molecular dynamics / Neurodegenerative diseases / Neurofibrillary tangles / Pathogenicity / Pathogens / Physical Sciences / Protein Conformation / Protein Isoforms - metabolism / Risk factors / Spectroscopy
2023

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Apolipoprotein E4 has extensive conformational heterogeneity in lipid-free and lipid-bound forms
Apolipoprotein E4 has extensive conformational heterogeneity in lipid-free and lipid-bound forms
Journal Article

Apolipoprotein E4 has extensive conformational heterogeneity in lipid-free and lipid-bound forms

Mallimadugula, Upasana L.,
DeKoster, Gregory T.,
Incicco, J. Jeremías,
Stuchell-Brereton, Melissa D.,
Miller, Justin J.,
Soranno, Andrea,
Roy, Debjit,
Smith, Louis G.,
Baban, Berevan,
Zimmerman, Maxwell I.,
Frieden, Carl,
Bowman, Gregory R.,
Cubuk, Jasmine
2023
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Overview
The ε4-allele variant of apolipoprotein E (ApoE4) is the strongest genetic risk factor for Alzheimer’s disease, although it only differs from its neutral counterpart ApoE3 by a single amino acid substitution. While ApoE4 influences the formation of plaques and neurofibrillary tangles, the structural determinants of pathogenicity remain undetermined due to limited structural information. Previous studies have led to conflicting models of the C-terminal region positioning with respect to the N-terminal domain across isoforms largely because the data are potentially confounded by the presence of heterogeneous oligomers. Here, we apply a combination of single-molecule spectroscopy and molecular dynamics simulations to construct an atomically detailed model of monomeric ApoE4 and probe the effect of lipid association. Importantly, our approach overcomes previous limitations by allowing us to work at picomolar concentrations where only the monomer is present. Our data reveal that ApoE4 is far more disordered and extended than previously thought and retains significant conformational heterogeneity after binding lipids. Comparing the proximity of the N- and C-terminal domains across the three major isoforms (ApoE4, ApoE3, and ApoE2) suggests that all maintain heterogeneous conformations in their monomeric form, with ApoE2 adopting a slightly more compact ensemble. Overall, these data provide a foundation for understanding how ApoE4 differs from nonpathogenic and protective variants of the protein.
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Publisher
National Academy of Sciences
Subject

Alzheimer's disease

/ Amino acid substitution

/ Amino acids

/ Apolipoprotein E2

/ Apolipoprotein E3 - chemistry

/ Apolipoprotein E4

/ Apolipoprotein E4 - genetics

/ Apolipoproteins

/ Apolipoproteins E

/ Biochemistry

/ Biological Sciences

/ Biophysics and Computational Biology

/ Domains

/ Heterogeneity

/ Isoforms

/ Lipid rafts

/ Lipids

/ Molecular dynamics

/ Neurodegenerative diseases

/ Neurofibrillary tangles

/ Pathogenicity

/ Pathogens

/ Physical Sciences

/ Protein Conformation

/ Protein Isoforms - metabolism

/ Risk factors

/ Spectroscopy

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