EC:3.4.21.64 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.64 (proteinase K)
4,071 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bovine spongiform encephalopathy (BSE) may have transmitted to sheep through feed and pose a risk to human health. Sheep BSE cannot be clinically distinguished from scrapie, and conventional strain typing would be impractical on a significant scale. As human prion strains can be distinguished by differences in prion protein (PrPsc) conformation and glycosylation we have applied PrP(Sc) typing to sheep. We found multiple Western blot patterns of PrP(Sc) in scrapie, consistent with the known scrapie strain diversity in sheep. Sheep passaged BSE showed a PrP(Sc) banding pattern similar to BSE passaged in other species [Collinge, J., Sidle, K.C.L., Meads, J., Ironside, J. and Hill, A.F., Nature, 383 (1996) 685-690], both in terms of fragment size following proteinase K cleavage and abundance of diglycosylated PrP. However, none of the historical or contemporary scrapie cases studied had a PrP(Sc) type identical to sheep BSE. While more extensive studies, including sheep of all PrP genotypes, will be required to fully evaluate these findings, these results suggest that large scale screening of sheep for BSE may be possible.
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PMID:Molecular screening of sheep for bovine spongiform encephalopathy. 983 97

Prion diseases are associated with the accumulation of an abnormal isoform of host-encoded prion protein (PrP(Sc)). A number of prion strains can be distinguished by "glycotyping" analysis of the respective deposited PrP(Sc) compound. In this study, the long-term proteinase K resistance, the molecular mass, and the localization of PrP(Sc) deposits derived from conventional and transgenic mice inoculated with 11 different BSE and scrapie strains or isolates were examined. Differences were found in the long-term proteinase K resistance (50 microg/ml at 37 degrees C) of PrP(Sc). For example, scrapie strain Chandler or PrP(Sc) derived from field BSE isolates were destroyed after 6 hr of exposure, whereas PrP(Sc) of strains 87V and ME7 and of the Hessen1 isolate were extremely resistant to proteolytic cleavage. Nonglycosylated, proteinase K-treated PrP(Sc) of BSE isolates and of scrapie strain 87V exhibited a 1-2 kD lower molecular mass than PrP(Sc) derived from all other scrapie strains and isolates. With the exception of strain 87V, PrP(Sc) was generally deposited in the cerebrum, cerebellum, and brain stem of different mouse lines at comparable levels. Long-term proteinase resistance, molecular mass, and the analysis of PrP(Sc) deposition therefore provide useful criteria in discriminating prion strains and isolates (e.g., BSE and 87V) that are otherwise indistinguishable by the PrP(Sc) "glycotyping" technique.
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PMID:Differences in proteinase K resistance and neuronal deposition of abnormal prion proteins characterize bovine spongiform encephalopathy (BSE) and scrapie strains. 1041 65

Prion diseases such as Creutzfeldt-Jakob disease in humans, scrapie in sheep, and BSE in cattle are transmissible and fatal neurodegenerative diseases. The infectious agent of these diseases has been designated as "prion". It consists mainly and perhaps exclusively of a conformational variant of a physiological glycoprotein, the cellular prion, protein, PrPC, which is a copper-binding protein of the cell surface. In spite of the wealth of biochemical and biophysical information, the conformational transition from PrPC to PrPSc, the infectious isoform of the prion protein, is not well understood. Nerve cell loss in prion diseases may be caused by neurotoxic effects of the prion protein. Certain properties of the prion protein such as the apparent form of its glycosylation and conformational properties reflected by the preferential site of digestion with proteinase K are associated with particular phenotypes of prion disease. The appearance of a new variant of Creutzfeldt-Jakob disease in humans, which is most likely caused by the consumption of BSE-infected food in the UK, is cause for major concern particularly since there is no known effective treatment of prion diseases.
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PMID:Molecular pathogenesis of prion diseases. 1065 1

Following the BSE epidemic in cattle and the emergence of a variant form of Creutzfeldt-Jakob disease in humans, the question was raised whether BSE has been transmitted to small ruminants by the inadvertent feeding of infectious meat and bone meal. Such infections could easily be concealed in countries where scrapie is endemic. To address this issue by immuno-chemically analyzing the PrP(Sc) fragments, we have developed two lines of research. Firstly we have focused on the development of criteria for the differential characterization of experimental BSE and scrapie strains/isolates in rodents. To date, three criteria have been identified: quantification of the relative banding intensities of PrP(Sc) glycotypes using a photoimaging technique; the non-uniform kinetic of proteinase K degradation of PrP(Sc); and differences in the molecular masses of their non-glycosylated PrP(Sc) fragments after PK cleavage in immunoblot. The second line of research focused on the implementation of the criteria described above to representative samples from scrapie diseased Irish sheep. Using these three criteria, no evidence was found for the presence of a BSE infection in these animals. However, the final conclusion must take into account the results of mouse incubation time and mouse lesion profile data which are currently being generated.
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PMID:Characterization of BSE and scrapie strains/isolates. 1121 25

The rabbits were immuned with bovine prion protein (BoPrPC) which was expressed in E. coli and anti-PrPC antibody (T1) was obtained. According to pathological prion protein (PrPSC) was resistant to protease treatment, extracts of brain tissue were digested with proteinase K and detected by western blot with T1 antibody. The results showed that protease-resistant pathological PrPSC was existed in golden hamster brain tissue which was inoculated with scrapie strain 263 K, but no protein existed in normal golden hamster brain homogenates which was detected with T1 antibody. Several bovines and sheep from Beijing were used for diagnosis of Bovine spongiform encephalopathy (BSE) and scrapie, their brain tissue were freshly collected and homogenated. The homogenates were separated on SDS-PAGE and detected by western blot with T1 antibody. The results indicated no protease-resistant protein(PrPSC) existed, this suggested they were not infected by BSE and scrapie. The same results were obtained with 1A8 antibody from England. These results indicated we could detect BSE and scrapie with T1 antibody.
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PMID:[Diagnosis of bovine spongiform encephalopathy and scrapie by western blot]. 1179 7

Here, we report the development and further characterisation of a novel PrP-specific monoclonal antibody: 2A11. By Western blot analysis, 2A11 reacts with PrPC from a variety of species including cow, sheep, pig, hamster, rabbit, cat, dog, deer and mouse but fails to react with human, chicken and turtle PrP. Reactivity to PrPC in Western blot was found to be dependent on the redox state of the protein since binding of mAb 2A11 to its epitope was more effective in reducing conditions. 2A11 binding site was mapped within a region comprised by residues 171-179 (six octarepeats bovine PrP notation; 163-171 for the ovine PrP notation). Interestingly, in immunohistochemistry (IHC) analysis, immunoreactivity was greatly enhanced after proteinase K (PK) sample treatment, while little or no reaction was observed in non-PK-treated BSE samples and samples from healthy animals. Quantitative differences in reactivity to BSE prions after PK treatment were also observed, to a lesser extent, by Western blot analysis. Since definitive diagnosis of prion diseases rely on IHC assays of proteinase K-treated samples, the use of mAb 2A11 might contribute to reduce the occurrence of false positive detection due to incomplete proteinase K digestion.
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PMID:Proteinase K enhanced immunoreactivity of the prion protein-specific monoclonal antibody 2A11. 1468 83

"Transmissible Spongiform Encephalopathies" (TSE) are a group of degenerative progressive fatal disorders of the CNS, affecting both humans and animals. The main pathogenic event is the conversion of cellular prion protein from the normal, enzyme-sensitive (PrPsen), to the insoluble proteinase K-resistant isoform (PrPres). Since the new juvenile variant of Creutzfeldt-Jakob disease (vCJD) is probably due to the transmission of Bovine Spongiform Encephalopathy (BSE) prion protein to man, therapeutic and preventive compounds for animals and humans are urgently needed. Congo Red (benzidine-diazo-bis-1-naphthylamine-4-sulfonic acid sodium salt, CAS 573-58-0, CR), an azoic dye that inhibits amyloid deposition, and some newly synthesized derivatives, more lipophilic and less toxic, were tested for their anti-prionic activity, in different experimental models. Cell-free experiments using the synthetic peptide PrP 106-126, homologous to amino acid residues 106-126 of the human PrP, were run to determine the anti-amyloidogenic properties of some of the molecules. Peptide solutions containing each compound were incubated at 37 degrees C, for increasing times, to analyse the kinetics of aggregation of PrP 106-126 peptide. After incubation, the amount of non-aggregated peptide was measured by RP-HPLC. While CR enhanced the amyloidogenicity of PrP 106-126, derivatives "1a" and "1b" both showed the opposite behaviour, reducing aggregation by 15-20%. In other experiments using electron microscopy PrP 106-126 was assayed with the same molecules to assess the number and size of fibrils formed. CR showed its typical interaction, producing amyloid aggregates, "1a" did not interfere with fibril formation, while "1b" seemed to partially affect the structure of PrP 106-126 fibrils. Using a different cell-free model, it was investigated whether CR derivatives could reverse the protease-resistant PrPres, extracted from Syrian hamster infected brain, into the normal protease sensitive PrPsen. Samples containing fixed amounts of PrPres were incubated at 37 degrees C for 1 h with all the newly synthesized molecules, at concentrations ranging from 50 micrograms/mL to 750 micrograms/mL. After treatment with proteinase K, half of each sample was incubated with 3 mol/L guanidine thiocyanate in order to exclude over-stabilisation of the PrPres aggregates already observed with CR. The remaining amount of PrPres was assessed by Enhanced Chemoluminescence (ECL) Western blotting analysis. None of the compounds induced the reversion of PrPres to PrPsen; nevertheless, 6 of the 8 molecules interacted with PrPres molecules, over-stabilising the PrPres aggregates, from this aspect being similar to CR in activity. Finally, the inhibition of the generation of PrPres in the S12 clone of a mouse neuroblastoma cell line (N2a S12), persistently infected by the mouse adapted Chandler strain of scrapple, was evaluated. Increasing amounts of CR, "1a" and "1b" were added to the culture medium at each cell passage. After various days of treatment, the cells were collected, lysed, and the amount of PrPres was assayed by ECL Western blotting after PK treatment. As expected, there was a decrease in pathological PrP expression starting from the 4th day of treatment, with 5 and 10 micrograms/mL CR; PrPres completely disappeared after respectively 10 and 14 days of treatment. "1a" was strongly effective after 3 days of treatment at 5 and 10 micrograms/mL, but it was also highly toxic; at the concentration of 1 microgram/mL, it had a mild inhibitory effect after 8 days. The reduction of PrPres was also evaluated by intracytoplasmic flow-cytometry immunofluorescence on CR- and "1a"-treated N2a S12 cells. CR induced a dose-related decrease of PrP expression from day 3 to 13 of treatment. At the concentrations of 2 and 1.5 micrograms/mL "1a" also strongly affected the expression of PrP starting from the 3rd day of treatment until the end of the experiment (day 13). These results confirm the importance of using an integrated system, based on different experimental models, to obtain useful information on the mechanism of action of anti-prionic compounds.
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PMID:In vitro evaluation of the anti-prionic activity of newly synthesized congo red derivatives. 1475 Apr 96

The diagnosis of prion diseases, such as scrapie and BSE, has traditionally relied upon the identification of the disease-associated form of the prion protein, PrP(Sc), based on its resistance to digestion by proteinase K (PK). A more recent development is the conformation-dependent immunoassay (CDI), which distinguishes between PrP Sc and normal PrP (PrP C) based on their differing solubility in guanidine hydrochloride rather than resistance or sensitivity to PK. We have developed a CDI-formatted sandwich immunoassay for the measurement of PrP Sc in sheep brain, which discriminates between clinically affected scrapie cases (natural or experimental) and uninfected controls of the same PrP genotype. Using this method, we have shown for the first time that, in sheep, the PrP genotype has a significant influence on the amount of PrP Sc deposited in the brains of animals experimentally infected with scrapie.
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PMID:Use of a new immunoassay to measure PrP Sc levels in scrapie-infected sheep brains reveals PrP genotype-specific differences. 1584 2

Intensive active surveillance has uncovered two atypical German BSE cases in older cattle which resemble the two different atypical BSE phenotypes that have recently been described in France (designated H-type) and Italy (designated L-type or BASE). The H-type is characterized by a significantly higher molecular size, but a conventional glycopattern of the proteinase K treated abnormal prion protein (PrP(Sc)), while the L-type PrP(Sc) has only a slightly lower molecular size and a distinctly different glycopattern. In this paper we describe the successful transmission of both German atypical BSE cases to transgenic mice overexpressing bovine PrP(C). Upon challenge with the L-type, these mice developed BSE after a substantially shorter incubation period than any classical BSE transmission using these mice to date. In contrast, the incubation period was distinctly prolonged when these mice were challenged with the H-type. PrP(Sc) accumulated in the brains of these mice were of the same atypical BSE type that had been used for the transmission. These atypical cases suggest the possible existence of sporadic BSE cases in bovines. It is thus feasible that the BSE epidemic in the UK could have also been initiated by an intraspecies transmission from a sporadic BSE case.
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PMID:Atypical BSE in Germany--proof of transmissibility and biochemical characterization. 1691 88

Prion diseases are characterised by the conversion of a cellular prion protein (PrP(C)) by its misfolded, hence pathogenic, isoform (PrP(Sc)). The efficiency of this transition depends on the molecular similarities between both interaction partners and on the intrinsic convertibility of PrP(C). Transgenic mice expressing chimeric murine/ovine PrP(C) (Tgmushp mice) are susceptible to BSE and/or scrapie prions of bovine or ovine origin while transgenic mice expressing similar murine/bovine PrP(C) chimera (Tgmubo mice) are essentially resistant. We have studied this phenomenon by cell-free conversion on procaryotically expressed chimeric PrP(C). Mouse passaged scrapie or BSE PrP(Sc) was used as a seed and the conversion reaction was carried out under semi-native conditions. The results obtained in this assay were similar to those of our in vivo experiments. Since mubo- and mushp-PrP(C) differ only at four amino acid positions (S96G, N142S, Y154H and Q185E), single or double point mutations of mushp-PrP(C) were examined in the cell-free conversion assay. While the scrapie Me7 prion induced conversion was largely reduced by the N142S and Q185E but not by the S96G and Y154H mutation, the BSE induced conversion was retained in all mutants. Newly formed PrP(res) exhibited strain specific characteristics, such as the localisation of the proteinase K cleavage site, even in the chimeric PrP(C) mutants. We therefore postulate that the efficiency of the conversion of chimeric PrP(C) depends on the amino acid sequence as well as on prion strain specific effects.
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PMID:Amino acid sequence and prion strain specific effects on the in vitro and in vivo convertibility of ovine/murine and bovine/murine prion protein chimeras. 1714 71

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