Amyloid Nucleation and Hierarchical Assembly of Ure2p Fibrils

Jiang, Yi; Li, Hui; Zhu, Li; Zhou, Jingbo; Perrett, Sarah

doi:10.1074/jbc.m310494200

Cited by 56 publications

(61 citation statements)

References 53 publications

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“…Hsp82p, Ssa1p, Ydj1p, and Sis1p inhibited assembly in a concentration-dependent manner, whereas Hsp104p stimulated the formation of large unstructured Ure2p aggregates that bind the dye thioflavin T. Globular high molecular weight particles were observed at equimolar Ure2p:Hsp82p, Ure2p: Ssa1p, Ure2p:Ydj1p, and Ure2p:Sis1p ratios, whereas a mixture of globular particles, amorphous aggregates, and fibrils was observed at submolar Ure2p-molecular chaperone ratios. We and others (4,16,33) previously reported the existence of a globular species at the early stages of Ure2p assembly into protein fibrils. The presence of these particles at high molecular chaperone concentrations together with the inability of Ure2p to polymerize suggests that Hsp82p, Ssa1p, Ydj1p, and Sis1p interact with these potential precursors of Ure2p fibrils and inhibit assembly into fibrils through this interaction.…”

Section: Discussionmentioning

confidence: 67%

“…The asparagine-, glutamine-, serine-, and threonine-rich N-terminal domain of Ure2p (62% of amino acid residues) is crucial for prion propagation and flexible (4, 5, 6), whereas its C-terminal domain is compactly folded and mainly ␣-helical (7, 8). The latter domain binds glutathione (9), has glutathione peroxidase activity (10), and is sufficient to regulate nitrogen metabolism in bakers' yeast cells (11)(12)(13)(14).In vitro, at neutral pH, soluble Ure2p spontaneously forms long, twisted fibrils (4,(15)(16)(17). It is widely believed that similar fibrils form in vivo and are at the origin of the [URE3] trait (18).…”

mentioning

confidence: 99%

“…In vitro, at neutral pH, soluble Ure2p spontaneously forms long, twisted fibrils (4,(15)(16)(17). It is widely believed that similar fibrils form in vivo and are at the origin of the [URE3] trait (18).…”

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confidence: 99%

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Molecular Chaperones and the Assembly of the Prion Ure2p in Vitro

Savistchenko

Krzewska²,

Fay

et al. 2008

Journal of Biological Chemistry

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The protein Ure2 from Saccharomyces cerevisiae possesses prion properties at the origin of the [URE3] trait. In vivo, a high molecular weight form of inactive Ure2p is associated to [URE3]. The faithful and continued propagation of [URE3] is dependent on the expression levels of molecular chaperones from the Hsp100, -70, and -40 families; however, so far, their role is not fully documented. Here we investigate the effects of molecular chaperones from the Hsp40, Hsp70, Hsp90, and Hsp100 families and the chaperonin CCT/Tric on the assembly of full-length Ure2p. We show that Hsp104p greatly stimulates Ure2p aggregation, whereas Ssa1p, Ydj1p, Sis1p, and Hsp82p inhibit aggregation to different extents. The nature of the high molecular weight Ure2p species that forms in the presence of the different molecular chaperones and their nucleotide dependence is described. We show that Hsp104p favors the aggregation of Ure2p into non-fibrillar high molecular weight particles, whereas Ssa1p, Ydj1p, Sis1p, and Hsp82p sequester Ure2p in spherical oligomers. Using fluorescently labeled fulllength Ure2p and Ure2p-(94 -354) and fluorescence polarization, we show that Ssa1p binding to Ure2p is ATP-dependent, whereas that of Hsp104p is not. We also show that Ssa1p preferentially interacts with the N-terminal domain of Ure2p that is critical for prion propagation, whereas Ydj1p preferentially interacts with the C-terminal domain of the protein, and we discuss the significance of this observation. Finally, the affinities of Ssa1p, Ydj1p, and Hsp104p for Ure2p are determined. Our in vitro observations bring new insight into the mechanism by which molecular chaperones influence the propagation of [URE3].The [URE3] trait, discovered in the early 70s (1), is an inheritable prion factor in the yeast Saccharomyces cerevisiae (2). In a manner similar to what is observed for the vertebrate prion PrP, the [URE3] prion state is associated with a change in the solubility of the protein Ure2 (3).Similarly to other proteins with prion properties from S. cerevisiae, Ure2p is a two-domain protein. The physical boundary between the two domains of this 354-amino acid polypeptide is amino acid residue 94 (4). The asparagine-, glutamine-, serine-, and threonine-rich N-terminal domain of Ure2p (62% of amino acid residues) is crucial for prion propagation and flexible (4, 5, 6), whereas its C-terminal domain is compactly folded and mainly ␣-helical (7, 8). The latter domain binds glutathione (9), has glutathione peroxidase activity (10), and is sufficient to regulate nitrogen metabolism in bakers' yeast cells (11)(12)(13)(14).In vitro, at neutral pH, soluble Ure2p spontaneously forms long, twisted fibrils (4,(15)(16)(17). It is widely believed that similar fibrils form in vivo and are at the origin of the [URE3] trait (18).In vivo, the continued propagation of yeast prions is highly dependent on the expression levels of a number of molecular chaperones. Indeed, members of the Hsp100, Hsp70, and (20). It is worth noting that in vivo, the effect of a molecu...

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Section: Discussionmentioning

confidence: 67%

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confidence: 99%

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Molecular Chaperones and the Assembly of the Prion Ure2p in Vitro

Savistchenko

Krzewska²,

Fay

et al. 2008

Journal of Biological Chemistry

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“…The reaction mixture contained 30 M full-length Ure2 in 50 mM sodium phosphate buffer, pH 7.5, containing 0.2 M NaCl. The samples were incubated in parallel at a constant temperature of 37°C with shaking as described previously (35,36). Under these conditions, the increase in fluorescence due to ThT binding correlates directly with the appearance of fibrillar aggregates of Ure2 (36).…”

Section: Methodsmentioning

confidence: 99%

“…The samples were incubated in parallel at a constant temperature of 37°C with shaking as described previously (35,36). Under these conditions, the increase in fluorescence due to ThT binding correlates directly with the appearance of fibrillar aggregates of Ure2 (36). At each time point, one of the samples was placed on ice.…”

Section: Methodsmentioning

confidence: 99%

The Yeast Prion Protein Ure2 Shows Glutathione Peroxidase Activity in Both Native and Fibrillar Forms

Bai

Zhou

Perrett

2004

Journal of Biological Chemistry

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116

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Ure2p is the precursor protein of the Saccharomyces cerevisiae prion [URE3]. Ure2p shows homology to glutathione transferases but lacks typical glutathione transferase activity. A recent study found that deletion of the Ure2 gene causes increased sensitivity to heavy metal ions and oxidants, whereas prion strains show normal sensitivity. To demonstrate that protection against oxidant toxicity is an inherent property of native and prion Ure2p requires biochemical characterization of the purified protein. Here we use steady-state kinetic methods to characterize the multisubstrate peroxidase activity of Ure2p using GSH with cumene hydroperoxide, hydrogen peroxide, or tert-butyl hydroperoxide as substrates. Glutathione-dependent peroxidase activity was proportional to the Ure2p concentration and showed optima at pH 8 and 40°C. Michaelis-Menten behavior with convergent straight lines in double reciprocal plots was observed. This excludes a ping-pong mechanism and implies either a rapid-equilibrium random or a steady-state ordered sequential mechanism for Ure2p, consistent with its classification as a glutathione transferase. The mutant 90Ure2, which lacks the unstructured N-terminal prion domain, showed kinetic parameters identical to wild type. Fibrillar aggregates showed the same level of activity as native protein. Demonstration of peroxidase activity for Ure2 represents important progress in elucidation of its role in vivo. Further, establishment of an in vitro activity assay provides a valuable tool for the study of structure-function relationships of the Ure2 protein as both a prion and an enzyme.

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Insights into the Nature of Yeast Prions

Osherovich¹,

Weissman²

2005

Protein Folding Handbook

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Amyloid Nucleation and Hierarchical Assembly of Ure2p Fibrils

Cited by 56 publications

References 53 publications

Molecular Chaperones and the Assembly of the Prion Ure2p in Vitro

Molecular Chaperones and the Assembly of the Prion Ure2p in Vitro

The Yeast Prion Protein Ure2 Shows Glutathione Peroxidase Activity in Both Native and Fibrillar Forms

Insights into the Nature of Yeast Prions

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