Competition between inside-out unfolding and pathogenic aggregation in an amyloid-forming β-propeller

Emily G. Saccuzzo; Mubark D. Mebrat; Hailee F. Scelsi; Minjoo Kim; Minh Thu Ma; Xinya Su; Shannon E. Hill; Elisa Rheaume; Renhao Li; Matthew P. Torres; James C. Gumbart; Wade D. Van Horn; Raquel L. Lieberman

doi:10.1038/s41467-023-44479-2

Competition between inside-out unfolding and pathogenic aggregation in an amyloid-forming β-propeller

Emily G. Saccuzzo, Mubark D. Mebrat, Hailee F. Scelsi, Minjoo Kim, Minh Thu Ma, Xinya Su, Shannon E. Hill, Elisa Rheaume, Renhao Li, Matthew P. Torres, James C. Gumbart, Wade D. Van Horn, Raquel L. Lieberman

Molecular Sciences, School of (SMS)

Research output: Contribution to journal › Article › peer-review

Abstract

Studies of folded-to-misfolded transitions using model protein systems reveal a range of unfolding needed for exposure of amyloid-prone regions for subsequent fibrillization. Here, we probe the relationship between unfolding and aggregation for glaucoma-associated myocilin. Mutations within the olfactomedin domain of myocilin (OLF) cause a gain-of-function, namely cytotoxic intracellular aggregation, which hastens disease progression. Aggregation by wild-type OLF (OLF^WT) competes with its chemical unfolding, but only below the threshold where OLF loses tertiary structure. Representative moderate (OLF^D380A) and severe (OLF^I499F) disease variants aggregate differently, with rates comparable to OLF^WT in initial stages of unfolding, and variants adopt distinct partially folded structures seen along the OLF^WT urea-unfolding pathway. Whether initiated with mutation or chemical perturbation, unfolding propagates outward to the propeller surface. In sum, for this large protein prone to amyloid formation, the requirement for a conformational change to promote amyloid fibrillization leads to direct competition between unfolding and aggregation.

Original language	English (US)
Article number	155
Journal	Nature communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-44479-2
State	Published - Dec 2024

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-023-44479-2

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Saccuzzo, E. G., Mebrat, M. D., Scelsi, H. F., Kim, M., Ma, M. T., Su, X., Hill, S. E., Rheaume, E., Li, R., Torres, M. P., Gumbart, J. C., Van Horn, W. D., & Lieberman, R. L. (2024). Competition between inside-out unfolding and pathogenic aggregation in an amyloid-forming β-propeller. Nature communications, 15(1), Article 155. https://doi.org/10.1038/s41467-023-44479-2

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title = "Competition between inside-out unfolding and pathogenic aggregation in an amyloid-forming β-propeller",

abstract = "Studies of folded-to-misfolded transitions using model protein systems reveal a range of unfolding needed for exposure of amyloid-prone regions for subsequent fibrillization. Here, we probe the relationship between unfolding and aggregation for glaucoma-associated myocilin. Mutations within the olfactomedin domain of myocilin (OLF) cause a gain-of-function, namely cytotoxic intracellular aggregation, which hastens disease progression. Aggregation by wild-type OLF (OLFWT) competes with its chemical unfolding, but only below the threshold where OLF loses tertiary structure. Representative moderate (OLFD380A) and severe (OLFI499F) disease variants aggregate differently, with rates comparable to OLFWT in initial stages of unfolding, and variants adopt distinct partially folded structures seen along the OLFWT urea-unfolding pathway. Whether initiated with mutation or chemical perturbation, unfolding propagates outward to the propeller surface. In sum, for this large protein prone to amyloid formation, the requirement for a conformational change to promote amyloid fibrillization leads to direct competition between unfolding and aggregation.",

author = "Saccuzzo, {Emily G.} and Mebrat, {Mubark D.} and Scelsi, {Hailee F.} and Minjoo Kim and Ma, {Minh Thu} and Xinya Su and Hill, {Shannon E.} and Elisa Rheaume and Renhao Li and Torres, {Matthew P.} and Gumbart, {James C.} and {Van Horn}, {Wade D.} and Lieberman, {Raquel L.}",

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doi = "10.1038/s41467-023-44479-2",

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AU - Mebrat, Mubark D.

AU - Scelsi, Hailee F.

AU - Kim, Minjoo

AU - Ma, Minh Thu

AU - Su, Xinya

AU - Hill, Shannon E.

AU - Rheaume, Elisa

AU - Li, Renhao

AU - Torres, Matthew P.

AU - Gumbart, James C.

AU - Van Horn, Wade D.

AU - Lieberman, Raquel L.

PY - 2024/12

Y1 - 2024/12

N2 - Studies of folded-to-misfolded transitions using model protein systems reveal a range of unfolding needed for exposure of amyloid-prone regions for subsequent fibrillization. Here, we probe the relationship between unfolding and aggregation for glaucoma-associated myocilin. Mutations within the olfactomedin domain of myocilin (OLF) cause a gain-of-function, namely cytotoxic intracellular aggregation, which hastens disease progression. Aggregation by wild-type OLF (OLFWT) competes with its chemical unfolding, but only below the threshold where OLF loses tertiary structure. Representative moderate (OLFD380A) and severe (OLFI499F) disease variants aggregate differently, with rates comparable to OLFWT in initial stages of unfolding, and variants adopt distinct partially folded structures seen along the OLFWT urea-unfolding pathway. Whether initiated with mutation or chemical perturbation, unfolding propagates outward to the propeller surface. In sum, for this large protein prone to amyloid formation, the requirement for a conformational change to promote amyloid fibrillization leads to direct competition between unfolding and aggregation.

AB - Studies of folded-to-misfolded transitions using model protein systems reveal a range of unfolding needed for exposure of amyloid-prone regions for subsequent fibrillization. Here, we probe the relationship between unfolding and aggregation for glaucoma-associated myocilin. Mutations within the olfactomedin domain of myocilin (OLF) cause a gain-of-function, namely cytotoxic intracellular aggregation, which hastens disease progression. Aggregation by wild-type OLF (OLFWT) competes with its chemical unfolding, but only below the threshold where OLF loses tertiary structure. Representative moderate (OLFD380A) and severe (OLFI499F) disease variants aggregate differently, with rates comparable to OLFWT in initial stages of unfolding, and variants adopt distinct partially folded structures seen along the OLFWT urea-unfolding pathway. Whether initiated with mutation or chemical perturbation, unfolding propagates outward to the propeller surface. In sum, for this large protein prone to amyloid formation, the requirement for a conformational change to promote amyloid fibrillization leads to direct competition between unfolding and aggregation.

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Competition between inside-out unfolding and pathogenic aggregation in an amyloid-forming β-propeller

Abstract

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