EMD-17736
ATTRV20I amyloid fibril from hereditary ATTR amloidosis
EMD-17736
Helical reconstruction3.39 Å
Deposition: 26/06/2023Map released: 06/12/2023
Last modified: 06/12/2023
Sample Organism:
Homo sapiens
Sample: ATTRV20I amyloid fibril
Fitted models: 8pke (Avg. Q-score: 0.485)
Raw data: EMPIAR-11700
Deposition Authors: Steinebrei M
,
Schmidt M ,
Faendrich M
Sample: ATTRV20I amyloid fibril
Fitted models: 8pke (Avg. Q-score: 0.485)
Raw data: EMPIAR-11700
Deposition Authors: Steinebrei M
,
Schmidt M ,
Faendrich M
Common transthyretin-derived amyloid fibril structures in patients with hereditary ATTR amyloidosis.
Steinebrei M ,
Baur J,
Pradhan A,
Kupfer N,
Wiese S ,
Hegenbart U ,
Schonland SO ,
Schmidt M ,
Fandrich M
(2023) Nat Commun , 14 , 7623 - 7623
,
Baur J,
Pradhan A,
Kupfer N,
Wiese S ,
Hegenbart U ,
Schonland SO ,
Schmidt M ,
Fandrich M
(2023) Nat Commun , 14 , 7623 - 7623
Abstract:
Systemic ATTR amyloidosis is an increasingly important protein misfolding disease that is provoked by the formation of amyloid fibrils from transthyretin protein. The pathological and clinical disease manifestations and the number of pathogenic mutational changes in transthyretin are highly diverse, raising the question whether the different mutations may lead to different fibril morphologies. Using cryo-electron microscopy, however, we show here that the fibril structure is remarkably similar in patients that are affected by different mutations. Our data suggest that the circumstances under which these fibrils are formed and deposited inside the body - and not only the fibril morphology - are crucial for defining the phenotypic variability in many patients.
Systemic ATTR amyloidosis is an increasingly important protein misfolding disease that is provoked by the formation of amyloid fibrils from transthyretin protein. The pathological and clinical disease manifestations and the number of pathogenic mutational changes in transthyretin are highly diverse, raising the question whether the different mutations may lead to different fibril morphologies. Using cryo-electron microscopy, however, we show here that the fibril structure is remarkably similar in patients that are affected by different mutations. Our data suggest that the circumstances under which these fibrils are formed and deposited inside the body - and not only the fibril morphology - are crucial for defining the phenotypic variability in many patients.