Literature DB >> 26998642

Structural Changes Associated with Transthyretin Misfolding and Amyloid Formation Revealed by Solution and Solid-State NMR.

Kwang Hun Lim1, Anvesh K R Dasari1, Ivan Hung2, Zhehong Gan2, Jeffery W Kelly3, David E Wemmer4.   

Abstract

Elucidation of structural changes involved in protein misfolding and amyloid formation is crucial for unraveling the molecular basis of amyloid formation. Here we report structural analyses of the amyloidogenic intermediate and amyloid aggregates of transthyretin using solution and solid-state nuclear magnetic resonance (NMR) spectroscopy. Our solution NMR results show that one of the two main β-sheet structures (CBEF β-sheet) is maintained in the aggregation-competent intermediate, while the other DAGH β-sheet is more flexible on millisecond time scales. Magic-angle-spinning solid-state NMR revealed that AB loop regions interacting with strand A in the DAGH β-sheet undergo conformational changes, leading to the destabilized DAGH β-sheet.

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Year:  2016        PMID: 26998642      PMCID: PMC4904294          DOI: 10.1021/acs.biochem.6b00164

Source DB:  PubMed          Journal:  Biochemistry        ISSN: 0006-2960            Impact factor:   3.162


  24 in total

1.  High-resolution molecular structure of a peptide in an amyloid fibril determined by magic angle spinning NMR spectroscopy.

Authors:  Christopher P Jaroniec; Cait E MacPhee; Vikram S Bajaj; Michael T McMahon; Christopher M Dobson; Robert G Griffin
Journal:  Proc Natl Acad Sci U S A       Date:  2004-01-08       Impact factor: 11.205

Review 2.  Advanced solid-state NMR approaches for structure determination of membrane proteins and amyloid fibrils.

Authors:  Ming Tang; Gemma Comellas; Chad M Rienstra
Journal:  Acc Chem Res       Date:  2013-05-10       Impact factor: 22.384

3.  Structure of prealbumin: secondary, tertiary and quaternary interactions determined by Fourier refinement at 1.8 A.

Authors:  C C Blake; M J Geisow; S J Oatley; B Rérat; C Rérat
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4.  A glimpse of a possible amyloidogenic intermediate of transthyretin.

Authors:  K Liu; H S Cho; H A Lashuel; J W Kelly; D E Wemmer
Journal:  Nat Struct Biol       Date:  2000-09

5.  Magic angle spinning NMR analysis of beta2-microglobulin amyloid fibrils in two distinct morphologies.

Authors:  Galia T Debelouchina; Geoffrey W Platt; Marvin J Bayro; Sheena E Radford; Robert G Griffin
Journal:  J Am Chem Soc       Date:  2010-08-04       Impact factor: 15.419

6.  Probing solvent accessibility of transthyretin amyloid by solution NMR spectroscopy.

Authors:  Anders Olofsson; Johannes H Ippel; Sybren S Wijmenga; Erik Lundgren; Anders Ohman
Journal:  J Biol Chem       Date:  2003-11-06       Impact factor: 5.157

7.  Molecular structure of β-amyloid fibrils in Alzheimer's disease brain tissue.

Authors:  Jun-Xia Lu; Wei Qiang; Wai-Ming Yau; Charles D Schwieters; Stephen C Meredith; Robert Tycko
Journal:  Cell       Date:  2013-09-12       Impact factor: 41.582

8.  The acid-mediated denaturation pathway of transthyretin yields a conformational intermediate that can self-assemble into amyloid.

Authors:  Z Lai; W Colón; J W Kelly
Journal:  Biochemistry       Date:  1996-05-21       Impact factor: 3.162

9.  Considerably Unfolded Transthyretin Monomers Preceed and Exchange with Dynamically Structured Amyloid Protofibrils.

Authors:  Minna Groenning; Raul I Campos; Daniel Hirschberg; Per Hammarström; Bente Vestergaard
Journal:  Sci Rep       Date:  2015-06-25       Impact factor: 4.379

10.  Higher order amyloid fibril structure by MAS NMR and DNP spectroscopy.

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Journal:  J Am Chem Soc       Date:  2013-12-13       Impact factor: 15.419
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  19 in total

1.  Mechanistic basis for the recognition of a misfolded protein by the molecular chaperone Hsp90.

Authors:  Javier Oroz; Jin Hae Kim; Bliss J Chang; Markus Zweckstetter
Journal:  Nat Struct Mol Biol       Date:  2017-02-20       Impact factor: 15.369

2.  Solid-State NMR Studies Reveal Native-like β-Sheet Structures in Transthyretin Amyloid.

Authors:  Kwang Hun Lim; Anvesh K R Dasari; Ivan Hung; Zhehong Gan; Jeffery W Kelly; Peter E Wright; David E Wemmer
Journal:  Biochemistry       Date:  2016-09-07       Impact factor: 3.162

3.  Pathogenic Mutations Induce Partial Structural Changes in the Native β-Sheet Structure of Transthyretin and Accelerate Aggregation.

Authors:  Kwang Hun Lim; Anvesh K R Dasari; Renze Ma; Ivan Hung; Zhehong Gan; Jeffery W Kelly; Michael C Fitzgerald
Journal:  Biochemistry       Date:  2017-08-30       Impact factor: 3.162

4.  Protein folding, misfolding and aggregation: The importance of two-electron stabilizing interactions.

Authors:  Andrzej Stanisław Cieplak
Journal:  PLoS One       Date:  2017-09-18       Impact factor: 3.240

5.  FRET studies of various conformational states adopted by transthyretin.

Authors:  Seyyed Abolghasem Ghadami; Francesco Bemporad; Benedetta Maria Sala; Guido Tiana; Stefano Ricagno; Fabrizio Chiti
Journal:  Cell Mol Life Sci       Date:  2017-05-06       Impact factor: 9.261

6.  NMR Measurements Reveal the Structural Basis of Transthyretin Destabilization by Pathogenic Mutations.

Authors:  Benjamin I Leach; Xin Zhang; Jeffery W Kelly; H Jane Dyson; Peter E Wright
Journal:  Biochemistry       Date:  2018-07-18       Impact factor: 3.162

7.  Kinetic analysis of the multistep aggregation pathway of human transthyretin.

Authors:  Xun Sun; H Jane Dyson; Peter E Wright
Journal:  Proc Natl Acad Sci U S A       Date:  2018-06-18       Impact factor: 11.205

8.  Edge Strand Dissociation and Conformational Changes in Transthyretin under Amyloidogenic Conditions.

Authors:  Matthew C Childers; Valerie Daggett
Journal:  Biophys J       Date:  2020-10-20       Impact factor: 4.033

9.  ATTR amyloidosis during the COVID-19 pandemic: insights from a global medical roundtable.

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Journal:  Orphanet J Rare Dis       Date:  2021-05-06       Impact factor: 4.123

10.  Structural Arrangement within a Peptide Fibril Derived from the Glaucoma-Associated Myocilin Olfactomedin Domain.

Authors:  Yuan Gao; Emily G Saccuzzo; Shannon E Hill; Dustin J E Huard; Alicia S Robang; Raquel L Lieberman; Anant K Paravastu
Journal:  J Phys Chem B       Date:  2021-03-08       Impact factor: 2.991
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