Susanne Liemann scite author profile

Cell entry by nonenveloped animal viruses requires membrane penetration without membrane fusion. The reovirus penetration agent is the outer-capsid protein, Mu1. The structure of Mu1, complexed with its "protector" protein, Sigma3, and the fit of this Mu1(3)Sigma3(3) heterohexameric complex into the cryoEM image of an intact virion, reveal molecular events essential for viral penetration. Autolytic cleavage divides Mu1 into myristoylated Mu1N and Mu1C. A long hydrophobic pocket can receive the myristoyl group. Dissociation of Mu1N, linked to a major conformational change of the entire Mu1 trimer, must precede myristoyl-group insertion into the cellular membrane. A myristoyl switch, coupling exposure of the fatty acid chain, autolytic cleavage of Mu1N, and long-range molecular rearrangement of Mu1C, thus appears to be part of the penetration mechanism.

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Influence of Amino Acid Substitutions Related to Inherited Human Prion Diseases on the Thermodynamic Stability of the Cellular Prion Protein

Liemann¹,

Glockshuber²

1999

Biochemistry

309

253

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Transmissible spongiform encephalopathies (TSEs) are caused by a unique infectious agent which appears to be identical with PrPSc, an oligomeric, misfolded isoform of the cellular prion protein, PrPC. All inherited forms of human TSEs, i.e., familial Creutzfeldt-Jakob disease, Gerstmann-Sträussler-Scheinker syndrome, and fatal familial insomnia, segregate with specific point mutations or insertions in the gene coding for human PrP. Here we have tested the hypothesis that these mutations destabilize PrPC and thus facilitate its conversion into PrPSc. Eight of the disease-specific amino acid replacements are located in the C-terminal domain of PrPC, PrP(121-231), which constitutes the only part of PrPC with a defined tertiary structure. Introduction of all these replacements into PrP(121-231) yielded variants with the same spectroscopic characteristics as wild-type PrP(121-231) and similar to full-length PrP(23-231), which excludes the possibility that the exchanges a priori induce a PrPSc-like conformation. The thermodynamic stabilities of the variants do not correlate with specific disease phenotypes. Five of the amino acid replacements destabilize PrP(121-231), but the other variants have the same stability as the wild-type protein. These data suggest that destabilization of PrPC is neither a general mechanism underlying the formation of PrPSc nor the basis of disease phenotypes in inherited human TSEs.

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Prion Protein Binds Copper within the Physiological Concentration Range

Kramer

Kratzin

Schmidt

et al. 2001

Journal of Biological Chemistry

241

228

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The prion protein is known to be a copper-binding protein, but affinity and stoichiometry data for the fulllength protein at a physiological pH of 7 were lacking. Furthermore, it was unknown whether only the highly flexible N-terminal segment with its octarepeat region is involved in copper binding or whether the structured C-terminal domain is also involved. Therefore we systematically investigated the stoichiometry and affinity of copper binding to full-length prion protein PrP 23-231 and to different N-and C-terminal fragments using electrospray ionization mass spectrometry and fluorescence spectroscopy. Our data indicate that the unstructured N-terminal segment is the cooperative copper-binding domain of the prion protein. The prion protein binds up to five copper(II) ions with half-maximal binding at ϳ2 M. This argues strongly for a direct role of the prion protein in copper metabolism, since it is almost saturated at about 5 M, and the exchangeable copper pool concentration in blood is about 8 M.

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Prion protein expression in different species: Analysis with a panel of new mAbs

Zanusso

Liu

Ferrari

et al. 1998

Proc. Natl. Acad. Sci. U.S.A.

192

179

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A BSTR ACTBy immunizing prion knockout mice (Prnp؊/؊) with recombinant murine prion protein (PrP c ), we obtained a panel of mAbs specific for murine PrP c . These mAbs can be applied to immunoblotting, cell surface immunof luorescent staining, and immunohistochemistry at light and electron microscopy. These mAbs recognize both the normal (PrP c ) and protease-resistant (PrP res ) isoforms of PrP. Some mAbs are species restricted, while others react with PrP from a broad range of mammals including mice, humans, monkeys, cows, sheep, squirrels, and hamsters. Moreover, some of the mAbs selectively recognize different PrP glycoforms as well as the metabolic fragments of PrP c . These newly generated PrP c antibodies will help to explore the biology of PrP c and to establish the diagnosis of prion diseases in both humans and animals.

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Susanne Liemann

Structure of the Reovirus Membrane-Penetration Protein, μ1, in a Complex with Its Protector Protein, σ3

Influence of Amino Acid Substitutions Related to Inherited Human Prion Diseases on the Thermodynamic Stability of the Cellular Prion Protein

Prion Protein Binds Copper within the Physiological Concentration Range

Prion protein expression in different species: Analysis with a panel of new mAbs

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