Replication Data for: Cross-seeding controls Abeta Fibril Populations and Resulting Function
Amyloid peptides nucleate from monomers to aggregate into fibrils through primary nucleation. Pre-existing fibrils can then act as seeds for additional monomers to fibrillize through secondary nucleation. Both nucleation processes occur simultaneously, yielding a distribution of fibril polymorphs th...
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2022
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ftdatacite:10.18738/t8/cazaxs 2023-05-15T15:10:58+02:00 Replication Data for: Cross-seeding controls Abeta Fibril Populations and Resulting Function Keitz, Benjamin Pan, Henry Lucas, Michael Verbeke, Eric Partipilo, Gina Helfman, Ethan Kann, Leah Taylor, David Webb, Lauren 2022 https://dx.doi.org/10.18738/t8/cazaxs https://dataverse.tdl.org/citation?persistentId=doi:10.18738/T8/CAZAXS unknown Texas Data Repository Dataset dataset 2022 ftdatacite https://doi.org/10.18738/t8/cazaxs 2022-04-01T13:41:58Z Amyloid peptides nucleate from monomers to aggregate into fibrils through primary nucleation. Pre-existing fibrils can then act as seeds for additional monomers to fibrillize through secondary nucleation. Both nucleation processes occur simultaneously, yielding a distribution of fibril polymorphs that can generate a spectrum of neurodegenerative effects. Understanding the mechanisms driving polymorph structural distribution during both nucleation processes is important for uncovering fibril structure-function relationships, as well creating polymorph distributions in vitro that better match fibril structures found in vivo. Here, we explore how cross-seeding WT Aβ1-40 with Aβ1-40 mutants E22G (Arctic) and E22Δ (Osaka), as well as with WT Aβ1-42 affects the distribution of fibril structural polymorphs, and how changes in structural distribution impact toxicity. Transmission electron microscopy analysis revealed that fibril seeds derived from mutants of Aβ1-40 imparted their structure to WT Aβ1-40 monomer during secondary nucleation, but WT Aβ1-40 fibril seeds do not affect the structure of fibrils assembled from mutant Aβ1-40 monomers, despite kinetics data indicating accelerated aggregation when cross-seeding of any combination of mutants. Additionally, WT Aβ1-40 fibrils seeded with mutant fibrils produced similar structural distributions to the mutant seeds with similar cytotoxicity profiles. This indicates that mutant fibril seeds not only impart their structure to growing WT Aβ1-40 aggregates, but they also impart cytotoxic properties. Our findings establish a relationship between fibril structure and phenotype on a polymorph population level, and that these properties can be passed on through secondary nucleation to succeeding generations of fibrils. Dataset Arctic DataCite Metadata Store (German National Library of Science and Technology) Arctic |
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DataCite Metadata Store (German National Library of Science and Technology) |
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description |
Amyloid peptides nucleate from monomers to aggregate into fibrils through primary nucleation. Pre-existing fibrils can then act as seeds for additional monomers to fibrillize through secondary nucleation. Both nucleation processes occur simultaneously, yielding a distribution of fibril polymorphs that can generate a spectrum of neurodegenerative effects. Understanding the mechanisms driving polymorph structural distribution during both nucleation processes is important for uncovering fibril structure-function relationships, as well creating polymorph distributions in vitro that better match fibril structures found in vivo. Here, we explore how cross-seeding WT Aβ1-40 with Aβ1-40 mutants E22G (Arctic) and E22Δ (Osaka), as well as with WT Aβ1-42 affects the distribution of fibril structural polymorphs, and how changes in structural distribution impact toxicity. Transmission electron microscopy analysis revealed that fibril seeds derived from mutants of Aβ1-40 imparted their structure to WT Aβ1-40 monomer during secondary nucleation, but WT Aβ1-40 fibril seeds do not affect the structure of fibrils assembled from mutant Aβ1-40 monomers, despite kinetics data indicating accelerated aggregation when cross-seeding of any combination of mutants. Additionally, WT Aβ1-40 fibrils seeded with mutant fibrils produced similar structural distributions to the mutant seeds with similar cytotoxicity profiles. This indicates that mutant fibril seeds not only impart their structure to growing WT Aβ1-40 aggregates, but they also impart cytotoxic properties. Our findings establish a relationship between fibril structure and phenotype on a polymorph population level, and that these properties can be passed on through secondary nucleation to succeeding generations of fibrils. |
format |
Dataset |
author |
Keitz, Benjamin Pan, Henry Lucas, Michael Verbeke, Eric Partipilo, Gina Helfman, Ethan Kann, Leah Taylor, David Webb, Lauren |
spellingShingle |
Keitz, Benjamin Pan, Henry Lucas, Michael Verbeke, Eric Partipilo, Gina Helfman, Ethan Kann, Leah Taylor, David Webb, Lauren Replication Data for: Cross-seeding controls Abeta Fibril Populations and Resulting Function |
author_facet |
Keitz, Benjamin Pan, Henry Lucas, Michael Verbeke, Eric Partipilo, Gina Helfman, Ethan Kann, Leah Taylor, David Webb, Lauren |
author_sort |
Keitz, Benjamin |
title |
Replication Data for: Cross-seeding controls Abeta Fibril Populations and Resulting Function |
title_short |
Replication Data for: Cross-seeding controls Abeta Fibril Populations and Resulting Function |
title_full |
Replication Data for: Cross-seeding controls Abeta Fibril Populations and Resulting Function |
title_fullStr |
Replication Data for: Cross-seeding controls Abeta Fibril Populations and Resulting Function |
title_full_unstemmed |
Replication Data for: Cross-seeding controls Abeta Fibril Populations and Resulting Function |
title_sort |
replication data for: cross-seeding controls abeta fibril populations and resulting function |
publisher |
Texas Data Repository |
publishDate |
2022 |
url |
https://dx.doi.org/10.18738/t8/cazaxs https://dataverse.tdl.org/citation?persistentId=doi:10.18738/T8/CAZAXS |
geographic |
Arctic |
geographic_facet |
Arctic |
genre |
Arctic |
genre_facet |
Arctic |
op_doi |
https://doi.org/10.18738/t8/cazaxs |
_version_ |
1766341891181248512 |