Animals ; PrPSc Proteins ; metabolism ; pathogenicity ; Prion Diseases ; transmission ; Prions ; physiology

OBJECTIVE: To describe the global profiles of acetylated proteins in the brains of scrapie agents 139A- and ME7-infected mice collected at mid-early, mid-late, and terminal stages. METHODS: The acetylated proteins from the cortex regions of scrapie agent (139A- and ME7)-infected mice collected at mid-early (80 days postinfection, dpi), mid-late (120 dpi), and terminal (180 dpi) stages were extracted, and the global profiles of brain acetylated proteins were assayed with proteomic mass spectrometry. The proteins in the infected mice showing 1.5-fold higher or lower levels than that of age-matched normal controls were considered as differentially expressed acetylated peptides (DEAPs). RESULTS: A total of 118, 42, and 51 DEAPs were found in the brains of 139A-80, 139A-120, and 139A-180 dpi mice, respectively. Meanwhile, 390, 227, and 75 DEAPs were detected in the brains of ME7-80, ME7-120, and ME7-180 dpi mice, respectively. The overwhelming majority of DEAPs in the mid-early stage were down-regulated, and more portions of DEAPs in the mid-late and late stages were up-regulated. Approximately 22.1% (328/1,485) of acetylated peptides mapped to 74 different proteins were mitochondrial associated. Kyoto Encyclopedia of Genes and Genomes pathway analysis identified 39 (80 dpi), 13 (120 dpi), and 10 (180 dpi) significantly changed pathways in 139A-infected mice. Meanwhile, 55, 25, and 18 significantly changed pathways were observed in the 80, 120, and 180 dpi samples of 139A- and ME7-infected mice ( P < 0.05), respectively. Six pathways were commonly involved in all tested samples. Moreover, many steps in the citrate cycle (tricarboxylic acid cycle) were affected, represented by down-regulated acetylation for relevant enzymes in the mid-early stage and up-regulated acetylation in the mid-late and late stages. CONCLUSION Our data here illustrated the changes in the global profiles for brain acetylated proteins during prion infection, showing remarkably inhibited acetylation in the early stage and relatively enhanced acetylation in the late stage.
Animals ; Brain/metabolism* ; Citrates/metabolism* ; Mice ; Peptides/metabolism* ; PrPSc Proteins ; Proteomics ; Scrapie/metabolism* ; Sheep

In order to establish an amplification system in vitro with which the PrP(Sc) is able to convert PrP(C) into proteinase K-resistant isoform infinitely and whether this system is more efficient than conventional protein misfolding cyclic amplification (PMCA), scrapie strain 263K-infected hamster's brain homogenate and homologous normal brain homogenate were prepared, respectively. A new methodology, namely serial PMCA, was utilized to reveal the continuous propagation ability of PrP(Sc). Totally 8 rounds of serial PMCA were proceeded and each round contained 48 cycles of alternative sonication and incubation. Simultaneously 144 cycles of conventional PMCA was used as a control. The results showed the PrP(Sc) from hamsters' brain tissues of scrapie agent 263K could replicate efficiently and infinitely with serial PMCA compared with finite propagation of PrP(Sc) with conventional PMCA system. The study of PrP(Sc) continuous propagation in brain homogenate with serial PMCA may further provide insight into the unsettled mechanism of prions misfolding and replication and apply to detect trace amount of PrP(Sc).
Animals ; Brain ; metabolism ; Cricetinae ; PrPC Proteins ; chemistry ; PrPSc Proteins ; chemistry ; Protein Folding

BACKGROUNDTo evaluate the influence ultrasonic processing on the aggregation of PrP(Sc) in the brain extracts prepared from the scrapie-infected hamsters, and to seek for the way to prepare lower molecular PrP(Sc) polymer.

METHODSThe extracts of infected brains were prepared with a lysis solution, and treated with ultrasonics at various conditions during the different phases. The distribution and aggregation state of PrP(Sc) were analyzed by proteinase K treated. Western blot, and afterwards, quantitatively calculated with a commercially supplied software Image Totaltech.

RESULTSThe amount of PrP(Sc) in the supernatant of brain homogenates was 1.29-to 1.58-fold increased with appropriate sonication (15 s for 30 times). At the same conditions of ultrasound, the PrP amount in the supernatant prepared from the scrapie-infected hamster brain was significantly increased, whereas that prepared from healthy animal used as normal control showed little change. Comparative analyses of PrP(Sc) pellets prepared by high-speed centrifugation revealed that about 90% PrP(Sc) released into supernatant after ultrasound processing.

CONCLUSIONAppropriate sonication of homogenate of scrapie-infected brain increases the extracted amount of PrP(Sc), being favorable to laboratory diagnosis. Larger molecular PrP(Sc) aggregates can be crashed by ultrasonic processing, engendering lower molecular PrP(Sc) polymers.

Animals ; Blotting, Western ; Brain Chemistry ; Cricetinae ; Image Processing, Computer-Assisted ; PrPSc Proteins ; analysis ; Scrapie ; metabolism ; Sonication

OBJECTIVETo establish a prion disease PrP(Sc) panel from the brain tissues of experimental hamsters and to address the stability of the panel conserved under the specific condition, for evaluating the diagnostic techniques of human and animal's prion diseases.

METHODS30 brain tissues of hamsters infected with scrapie strain 263K intracerebrally and 30 ones of normal hamsters were enrolled in this panel. Each brain sample was prepared to 10%, 1% and 0.5% homogenates and aliquoted into stocks. The presences of PrP(Sc) in each brain sample were evaluated with PrP-specific Western Blots and partially with immunohistochemistry, and the stability of PrP(Sc) signals in each sample were repeatedly assessed half a year later and 3 years later.

RESULTSPrP(Sc) signals were detected in all stocks of 10% brain homogenates from infected hamsters, 26 out of 30 stocks of 1% homogenates and 19 out of 30 stocks of 0.5% homogenates. The assessments of PrP(Sc) signals in all samples half-year and three years later demonstrated almost unchanged. All homogenates of brain tissues of normal hamsters were PrP(Sc) negative.

CONCLUSIONA prion disease PrP(Sc) panel of the brain tissues, which includes 90 PrP(Sc) positive stocks and PrP(Sc) negative ones, was successfully established, with a reliable stability of PrP(Sc) signals.

Animals ; Brain ; metabolism ; Disease Models, Animal ; Humans ; Male ; PrPC Proteins ; pharmacokinetics ; PrPSc Proteins ; Prion Diseases ; metabolism ; Scrapie ; metabolism ; Tissue Distribution

OBJECTIVETo study the possible effect of tetracycline on protease-resistant activity in vitro and infectivity in vivo of a scrapie strain 263K.

METHODSScrapie pathogens were incubated with tetracycline at different concentrations for various periods of time and protease-resistant PrP signals were evaluated with proteinase K-treatment and Western blots. The preparations treated with tetracycline were intracerebrally inoculated into golden hamsters and typical TSE manifestations were noted. PrPSc in brain tissues of the infected animals was detected by PrP specific Western blot assays.

RESULTSProtease-resistant PrP was significantly reduced in or removed from the preparations treated with tetracycline in a dose-dependant manner. Compared with the control group after incubated for 53.75 +/- 0.50 days, the preparations treated with 5 mmol/L and 20 mmol/L tetracycline prolonged the incubation time of 61.5 +/- 1.73 and 59.5 +/- 0.58 days (P < 0.05).

CONCLUSIONTreatment of scrapie pathogen 263K with tetracycline reduces or removes its protease-resistant activity in vitro.

Animals ; Brain ; pathology ; Cricetinae ; Peptide Hydrolases ; metabolism ; PrPSc Proteins ; metabolism ; pathogenicity ; Scrapie ; pathology ; Tetracycline ; pharmacology ; Time Factors

Misfolded isoform of prion protein (PrP), termed scrapie PrP (PrP(Sc)), tends to aggregate into various fibril forms. Previously, we reported various conditions that affect aggregation of recombinant PrP into amyloids. Because amyloidogenesis of PrP is closely associated with transmissible spongiform encephalopathies such as Creutzfeldt-Jakob disease in humans, we investigated infectivity of recombinant PrP amyloids generated in vitro. Using cultured cell lines which overexpress cellular PrP of different species, we measured the level of de novo synthesized PrP(Sc) in cells inoculated with recombinant mouse PrP amyloids. While PrP-overexpressing cells were susceptible to mouse-adapted scrapie prions used as the positive control, demonstrating the species barrier effect, infection with amyloids made of truncated recombinant PrP (PrP[89-230]) failed to form and propagate PrP(Sc) even in the cells that express mouse cellular PrP. This suggests that infectivity of PrP amyloids generated in vitro is different from that of natural prions. Recombinant PrP (89-230) amyloids tested in the current study retain no or a minute level, if any, of prion infectivity.
Animals ; Cell Line ; Kidney/*metabolism/*pathology ; Mice ; PrPSc Proteins/*metabolism ; Prion Diseases/*metabolism/*pathology ; Prions/*metabolism ; Rabbits ; Recombinant Proteins/*metabolism ; Up-Regulation

UNLABELLEDOBJECTIVE To study the potential interaction between PrP protein.

METHODSThe supernatant of health and scrapie-infected hamsters' brain homogenate was prepared, while various recombinant 14-3-3beta or PrP proteins were purified. The possible molecular interaction between 14-3-3beta proteins and PrP was tested by pull-down and immunoprecipitation assays.

RESULTSBoth native PrP(c) and its protease-resistant isoform (PrP(Sc)) formed complexes with 14-3-3beta. The full-length recombinant 14-3-3beta proteins interacted with PrP. The domain responsible for interacting 14-3-3beta was located at N-terminal of 14-3-3beta (residues 1 to 38).

CONCLUSIONThe studies of the association of PrP with 14-3-3beta may further provide insight into a potential role of 14-3-3beta in the biological function of PrP and the pathogenesis of prion disease.

14-3-3 Proteins ; metabolism ; Animals ; Binding Sites ; Brain Chemistry ; Cricetinae ; Endopeptidases ; metabolism ; PrPSc Proteins ; metabolism ; Prion Diseases ; pathology ; Prions ; metabolism ; Scrapie ; physiopathology

In human prion diseases, phosphorylated-tau deposition has been described in a rare genetic form, Gerstmann-Straussler-Scheinker disease, but is not considered part of the neuropathological picture of Creutzfeldt-Jakob disease. To investigate the possible changes of tau and phosphorylated tau (Ser396/Ser404) in transmissible spongiform encephalopathies (TSEs), the expressions and transcriptions of above biological factors in the brain tissues of 263K- and 139A-infected hamsters were evaluated by Western blots and Real Time PCR, respectively, followed by quantitative analyses of immunoblot images and relative transcriptional levels compared with normal animals. The contents of total tau increased, but phosphorylated tau at Ser396 and Ser404 decreased, regardless of the types of scrapie agents and clinical incubations. Transcriptions of two tau isoforms were also markedly increased. These findings suggested that dephosphorylation of tau at Ser396/Ser404 was a illness-correlative phenomenon in TSEs. Alterations of tau and phosphorylated tau (Ser396/Ser404) were either intermediate or consequent events in TSE pathogenesis and proposed the potential linkage of these bioactive proteins with the pathogenesis of prion diseases.
Animals ; Blotting, Western ; Brain ; metabolism ; Cricetinae ; Gene Expression Regulation ; physiology ; Phosphorylation ; Polymerase Chain Reaction ; PrPSc Proteins ; pathogenicity ; Prion Diseases ; metabolism ; tau Proteins ; metabolism

OBJECTIVETo investigate whether gliosis in the brain tissues of the hamsters infected with various amounts of scrapie strain 263K is correlated with the inoculation doses or the incubation times.

METHODSThe total values of glial fibrillary acidic protein (GFAP) in brains were evaluated by Western Blots and the GFAP-stained cells were detected by immunohistochemistry (IHC). The characteristics of GFAP distributions among various groups were defined by quantitive and statistic analyses.

RESULTSCompared with the brain tissues of normal hamsters, remarkably higher total GFAP levels and more GFAP-stained cells were observed in the brain tissues of infected ones, howbeit, no significant difference was addressed among the infected groups.

CONCLUSIONInoculations of various amounts of scrapie strain 263K into experimental hamsters intracerebrally induced the similar patterns of gliosis in the brains at the clinically terminal stage, regardless of infectious doses and incubation times.

Animals ; Brain ; metabolism ; pathology ; Cricetinae ; Gene Expression ; Glial Fibrillary Acidic Protein ; genetics ; metabolism ; Gliosis ; metabolism ; pathology ; Humans ; PrPSc Proteins ; metabolism ; Prion Diseases ; metabolism ; pathology