Characterization of prion protein (PrP)-derived peptides that discriminate full-length PrP
            <sup>Sc</sup>
            from PrP
            <sup>C</sup>

Lau, Anthony L.; Yam, Alice; Michelitsch, Melissa M. D.; Wang, Xuemei; Gao, Carol Man; Goodson, Robert J.; Shimizu, Robert W.; Timoteo, Gulliver; Hall, J. L.; Medina-Selby, Angelica; Coit, Doris; McCoin, Colin S.; Phelps, Bruce H.; Wu, Ping; Hu, Celine; Chien, David; Peretz, David

doi:10.1073/pnas.0704260104

Cited by 52 publications

(78 citation statements)

References 28 publications

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“…In this case, it is probable that we observed a non-specific interaction between heterogeneous amyloids, which has previously been described Derkatch et al 30 According to our results, the absence of the PrP 90-109 sequence affects the morphology of the PrP polymers and prevents their interaction with Aβ. Based on this result and previously published data, 12,13,31 we conclude that the PrP 90-109 sequence is required for the interaction of both monomeric and polymeric PrP with Aβ. Additionally, our data show, for the first time, that the PrP 28-89 fragment is important for the molecular association between PrP polymers and the Aβ peptide in vivo.…”

Section: Discussionmentioning

confidence: 70%

Identification of PrP sequences essential for the interaction between the PrP polymers and Aβ peptide in a yeast-based assay

Rubel

Ryzhova

Antonets

et al. 2013

Prion

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Section: Discussionmentioning

confidence: 70%

Identification of PrP sequences essential for the interaction between the PrP polymers and Aβ peptide in a yeast-based assay

Rubel

Ryzhova

Antonets

et al. 2013

Prion

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“…Upon processing and addition of the GPI anchor, RbPrP would lose the Cterminal residues 222 to 230 that typically remain after processing of PrPs from other mammals. The far C terminus of PrP has been implicated in playing a role in the conversion of PrP C to PrP Sc (18,19,24,44), which raises the possibility that RbPrP may lose a critical PrP Sc interaction site, which may prevent its conversion to PrP Sc . Alterations in the C terminus of RbPrP shift the predicted GPI anchor attachment site.…”

Section: Resultsmentioning

confidence: 99%

Residues Surrounding the Glycosylphosphatidylinositol Anchor Attachment Site of PrP Modulate Prion Infection: Insight from the Resistance of Rabbits to Prion Disease

Nisbet

Harrison

Lawson

et al. 2010

J Virol

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Prion diseases are a group of transmissible, invariably fatal neurodegenerative diseases that affect both humans and animals. According to the protein-only hypothesis, the infectious agent is a prion (proteinaceous infectious particle) that is composed primarily of PrP Sc , the disease-associated isoform of the cellular prion protein, PrP. PrP Sc arises from the conformational change of the normal, glycosylphosphatidylinositol (GPI)-anchored protein, PrP C . The mechanism by which this process occurs, however, remains enigmatic. Rabbits are one of a small number of mammalian species reported to be resistant to prion infection. Sequence analysis of rabbit PrP revealed that its C-terminal amino acids differ from those of PrP from other mammals and may affect the anchoring of rabbit PrP through its GPI anchor. Using a cell culture model, this study investigated the effect of the rabbit PrP-specific C-terminal amino acids on the addition of the GPI anchor to PrP C , PrP C localization, and PrP Sc formation. The incorporation of rabbit-specific C-terminal PrP residues into mouse PrP did not affect the addition of a GPI anchor or the localization of PrP. However, these residues did inhibit PrP Sc formation, suggesting that these rabbit-specific residues interfere with a C-terminal PrP Sc interaction site.

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“…Even fewer factors have been found to accelerate pathogenesis after i.c. administration of prions (LaCasse et al, 2008; Spinner (Taraboulos et al, 1992), detection of PrP C and PrP Sc by Western blot (Lau et al, 2007), and quantitation of PrP C by sandwich ELISA were performed as described previously. Immunohistochemistry for SAF84 (1:200), GFAP (1:1,000), and IBA1 (1:1,000) was performed on paraffin sections and detected with diaminobenzidine (Sigma-Aldrich).…”

Section: Discussionmentioning

confidence: 99%

Engulfment of cerebral apoptotic bodies controls the course of prion disease in a mouse strain–dependent manner

Kranich¹,

Kräutler²,

Falsig³

et al. 2010

J Cell Biol

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Progressive accumulation of PrP(Sc), a hallmark of prion diseases, occurs when conversion of PrP(C) into PrP(Sc) is faster than PrP(Sc) clearance. Engulfment of apoptotic bodies by phagocytes is mediated by Mfge8 (milk fat globule epidermal growth factor 8). In this study, we show that brain Mfge8 is primarily produced by astrocytes. Mfge8 ablation induced accelerated prion disease and reduced clearance of cerebellar apoptotic bodies in vivo, as well as excessive PrP(Sc) accumulation and increased prion titers in prion-infected C57BL/6 × 129Sv mice and organotypic cerebellar slices derived therefrom. These phenotypes correlated with the presence of 129Sv genomic markers in hybrid mice and were not observed in inbred C57BL/6 Mfge8(-/-) mice, suggesting the existence of additional strain-specific genetic modifiers. Because Mfge8 receptors are expressed by microglia and depletion of microglia increases PrP(Sc) accumulation in organotypic cerebellar slices, we conclude that engulfment of apoptotic bodies by microglia may be an important pathway of prion clearance controlled by astrocyte-borne Mfge8.

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Characterization of prion protein (PrP)-derived peptides that discriminate full-length PrP ^Sc from PrP ^C

Cited by 52 publications

References 28 publications

Identification of PrP sequences essential for the interaction between the PrP polymers and Aβ peptide in a yeast-based assay

Identification of PrP sequences essential for the interaction between the PrP polymers and Aβ peptide in a yeast-based assay

Residues Surrounding the Glycosylphosphatidylinositol Anchor Attachment Site of PrP Modulate Prion Infection: Insight from the Resistance of Rabbits to Prion Disease

Engulfment of cerebral apoptotic bodies controls the course of prion disease in a mouse strain–dependent manner

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Characterization of prion protein (PrP)-derived peptides that discriminate full-length PrP Sc from PrP C

Cited by 52 publications

References 28 publications

Identification of PrP sequences essential for the interaction between the PrP polymers and Aβ peptide in a yeast-based assay

Identification of PrP sequences essential for the interaction between the PrP polymers and Aβ peptide in a yeast-based assay

Residues Surrounding the Glycosylphosphatidylinositol Anchor Attachment Site of PrP Modulate Prion Infection: Insight from the Resistance of Rabbits to Prion Disease

Engulfment of cerebral apoptotic bodies controls the course of prion disease in a mouse strain–dependent manner

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Characterization of prion protein (PrP)-derived peptides that discriminate full-length PrP ^Sc from PrP ^C