Michele Halimi scite author profile

PrPSc is the only known component of the scrapie prion. The difference between PrPSc and its normal isoform PrPc is probably conformational, since no difference has been found in the amino acid sequence or postranslational modifications between both proteins. Heparan sulfate (HS) has been shown to be a component of amyloid plaques in a number of diseases including the prion diseases. We now present evidence that PrP can specifically bind to heparin-like compounds and that this interaction might have a physiological significance. HS can increase the concentration of PrP in normal neuroblastoma cells, whereas low molecular weight heparin (LMWH) does not. In contrast, LMWH and other heparin-like molecules, excluding HS, can inhibit the synthesis of PrPSc in scrapie infected cells and reverse their phenotype back to normal as judged by measurement of PrPSc by immunoblotting and by infectivity experiments. Whether an interaction between PrP and glycosaminoglycans plays a direct role in the conversion of PrPc into PrPSc remains to be established.

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A Protease-resistant Prion Protein Isoform Is Present in Urine of Animals and Humans Affected with Prion Diseases

Shaked

Kariv-Inbal

et al. 2001

Journal of Biological Chemistry

174

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Prion protein (PrP)Sc , the only known component of the prion, is present mostly in the brains of animals and humans affected with prion diseases. We now show that a protease-resistant PrP isoform can also be detected in the urine of hamsters, cattle, and humans suffering from transmissible spongiform encephalopathies. Most important, this PrP isoform (UPrP Sc ) was also found in the urine of hamsters inoculated with prions long before the appearance of clinical signs. Interestingly, intracerebrally inoculation of hamsters with UPrP Sc did not cause clinical signs of prion disease even after 270 days, suggesting it differs in its pathogenic properties from brain PrP Sc . We propose that the detection of UPrP Sc can be used to diagnose humans and animals incubating prion diseases, as well as to increase our understanding on the metabolism of PrP Sc in vivo.

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The Anti-prion Activity of Congo Red

Caspi

Halimi

Yanai

et al. 1998

Journal of Biological Chemistry

119

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Insoluble wild–type and protease–resistant mutant prion protein in brains of patients with inherited prion disease

Gabizon

Telling

Meiner

et al. 1996

Nat Med

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We studied prion proteins (PrP) in skin and brains of Libyan Jews carrying the E200K mutation who died of familial Creutzfeldt-Jakob disease (CJD). Unexpectedly, studies with brain showed that PrP molecules encoded both by the wild-type (wt) and mutant alleles exhibit altered properties characteristic of the prion protein associated with prion diseases (PrPSc). Using monospecific antisera, we found that wtPrP was insoluble in the brains of three patients who were heterozygous for the E200K mutation, whereas mutant PrP was both insoluble and protease-resistant. Our results argue that both wild-type and mutant PrP undergo conformational changes and are particularly intriguing, because the normal isoform PrPc is soluble in nondenaturing detergents and is readily digested by proteases, whereas PrPSc is insoluble and resistant to proteolytic digestion. Our findings indicate that insoluble wtPrP represents a conformational intermediate, the first to be identified, within a pathway in which PrPc is converted to PrPSc.

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Effect of Scrapie Infection on the Activity of Neuronal Nitric-oxide Synthase in Brain and Neuroblastoma Cells

Ovadia

Rosenmann

Shezen

et al. 1996

Journal of Biological Chemistry

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Michele Halimi

Heparin‐like molecules bind differentially to prion‐proteins and change their intracellular metabolic fate

A Protease-resistant Prion Protein Isoform Is Present in Urine of Animals and Humans Affected with Prion Diseases

The Anti-prion Activity of Congo Red

Insoluble wild–type and protease–resistant mutant prion protein in brains of patients with inherited prion disease

Effect of Scrapie Infection on the Activity of Neuronal Nitric-oxide Synthase in Brain and Neuroblastoma Cells

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