Antibodies against Synthetic Fragments of the Prion Protein for Diagnostics of Bovine Spongiform Encephalopathy

Seven peptides matching fragments of the prion protein and containing from 17 to 31 amino acid residues were synthesized to obtain antibodies for diagnostics of bovine spongiform encephalopathy. Rabbits were immunized with either free peptides or peptide–protein conjugates to result in sera with a high level of antipeptide antibodies. Immunohistochemical assay revealed sera against four free peptides and a protein–peptide conjugate, which effectively bind to the pathogenic isoform of the prion protein in brain tissue preparations from cattle afflicted with bovine spongiform encephalopathy and do not interact with normal brain preparations. The resulting antipeptide sera can be used in developing a diagnostic kit for bovine spongiform encephalopathy.     

Induction of immune response by synthetic fragments of the bovine prion protein and their analogues in mice of various lines

The antibodies to the bovine prion protein were produced by immunizing mice of three lines with five synthetic fragments of the protein and their six analogues. The analogues contained the amino acid substitutions that, according to theoretical calculation, should lead to an increase in the immunogenic activity of peptides. All the peptides, except for one, induced the formation of antibodies. All the sera containing the antipeptide antibodies were tested by an immunohistochemical method. The sera that were effectively bound to the brain preparations from the bovine with spongiform encephalopathy were identified; it was shown that they do not interact with the preparations of normal brain. Therefore, it was shown that the immunization of mice with the synthetic fragments of a prion protein helps obtain specific antibodies suitable for the study and diagnostics of prion diseases.     

Induction of Immune Response by Synthetic Fragments of the Bovine Prion Protein and Their Analogues in Mice of Various Lines

Antibodies to the bovine prion protein were produced by immunizing mice of three lines with five synthetic fragments of the protein and six of their analogues. The analogues contained amino acid substitutions that, according to theoretical calculation, should lead to an increase in the immunogenic activity of peptides. All the peptides except for one induced the formation of antibodies. All the sera containing the antipeptide antibodies were tested by an immunohistochemical method. The sera effectively bound to brain preparations from an animal with spongiform encephalopathy were identified; it was shown that they do not interact with preparations of normal brain. Therefore, it was shown that the immunization of mice with synthetic fragments of a prion protein allows one to obtain specific antibodies suitable for the study and diagnostics of prion diseases.     

Establishment of bovine prion peptide-based monoclonal antibodies for identifying bovine prion

To obtain high titer monoclonal antibodies (McAbs) which can react with mammalian prion protein (PrP), Balb/C mice were immunized with bovine (Bo) PrP peptide (BoPrP 209—228 aa) coupled to keyhole limpet hemocyanin (KLH). The hybridoma cell lines secreting monoclonal antibodies against the pep-tide were established by cell fusion and cloning. The obtained McAbs were applied to detect recombi-nant human, bovine and hamster PrP, cellular prion protein (PrP^c) in normal bovine brain and patho-genic scrapie prion protein (PrP^Sc) accumulated in the medulla oblongata of bovine spongiform en-cephalopathy(BSE)specimen with Western blot and immunohistochemical detection, respectively. The current procedure might offer a simple, feasible method to raise high titer antibodies for studying bio-logical features of PrP in mammals, as well as detection of transmissible spongiform encephalopathy (TSE) and diagnosis of BSE, in particular.     

Immunity against prions?

Several recent reports indicate that antibodies directed against the cellular form of the prion protein, PrP^C, might eliminate the transmissible agent of spongiform encephalopathies (the prion) from scrapie-infected cells in vitro, and that a humoral immune response could prevent scrapie pathogenesis in vivo. These findings suggest that immunotherapeutical intervention against prion diseases is not unattainable. Will vaccines and post-exposure strategies based on antibodies ever prove useful against scrapie, bovine spongiform encephalopathy (BSE), or Creutzfeldt–Jakob disease?     

Production of monoclonal antibodies to the prion protein and their characterization

Antibodies to the prion protein (PrP), particularly, monoclonal antibodies, are necessary tools in the diagnostics and study of prion diseases and potential means of their immunotherapy. For the production of monoclonal antibodies, BALB/c mice were immunized by a recombinant bovine PrP. Three stable hybridomas producing antibodies of IgM class were prepared. The antibodies were bound to PrP in a solid-phase enzyme immunoassay and immunoblotting. The epitope mapping accomplished with the use of synthetic peptides showed that an epitope located in region 25–36 of PrP corresponds to one antibody, and epitopes located in region 222–229, to the other two. The antibodies to fragment 222–229 purified by affinity chromatography recognized with a high specificity conglomerates of a pathogenic prion in the brain tissue of cows suffering from spongiform encephalopathy. Thus, in nontransgenic mice, PrP-specific monoclonal antibodies were produced, useful in studies and diagnostics of prion diseases.     

Susceptibility of European Red Deer (Cervus elaphus elaphus) to Alimentary Challenge with Bovine Spongiform Encephalopathy

European red deer (Cervus elaphus elaphus) are susceptible to the agent of bovine spongiform encephalopathy, one of the transmissible spongiform encephalopathies, when challenged intracerebrally but their susceptibility to alimentary challenge, the presumed natural route of transmission, is unknown. To determine this, eighteen deer were challenged via stomach tube with a large dose of the bovine spongiform encephalopathy agent and clinical signs, gross and histological lesions, presence and distribution of abnormal prion protein and the attack rate recorded. Only a single animal developed clinical disease, and this was acute with both neurological and respiratory signs, at 1726 days post challenge although there was significant (27.6%) weight loss in the preceding 141 days. The clinically affected animal had histological lesions of vacuolation in the neuronal perikaryon and neuropil, typical of transmissible spongiform encephalopathies. Abnormal prion protein, the diagnostic marker of transmissible encephalopathies, was primarily restricted to the central and peripheral nervous systems although a very small amount was present in tingible body macrophages in the lymphoid patches of the caecum and colon. Serial protein misfolding cyclical amplification, an in vitro ultra-sensitive diagnostic technique, was positive for neurological tissue from the single clinically diseased deer. All other alimentary challenged deer failed to develop clinical disease and were negative for all other investigations. These findings show that transmission of bovine spongiform encephalopathy to European red deer via the alimentary route is possible but the transmission rate is low. Additionally, when deer carcases are subjected to the same regulations that ruminants in Europe with respect to the removal of specified offal from the human food chain, the zoonotic risk of bovine spongiform encephalopathy, the cause of variant Creutzfeldt-Jakob disease, from consumption of venison is probably very low.     

Antibodies to a Nonconjugated Prion Protein Peptide 95-123 Interfere with PrP<Superscript><Emphasis Type="Bold">Sc</Emphasis></Superscript> Propagation in Prion-Infected Cells

Summary 1. Vaccination-induced anti-prion protein antibodies are presently regarded as a promising approach toward treatment of prion diseases. Here, we investigated the ability of five peptides corresponding to three different regions of the bovine prion protein (PrP) to elicit antibodies interfering with PrP^Sc propagation in prion-infected cells. 2. Rabbits were immunized with free nonconjugated peptides. Obtained immune sera were tested in enzyme-linked immunosorbent assay (ELISA) and immunoblot for their binding to recombinant PrP and cell-derived pathogenic isoform (PrP^Sc) and normal prion protein (PrP^c), respectively. Sera positive in all tests were chosen for PrP^Sc inhibition studies in cell culture. 3. All peptides induced anti-peptide antibodies, most of them reacting with recombinant PrP. Moreover, addition of the serum specific to peptide 95–123 led to a transient reduction of PrP^Sc levels in persistently prion-infected cells. 4. Thus, anti-PrP antibodies interfering with PrP^Sc propagation were induced with a prion protein peptide nonconjugated to a protein carrier. These results point to the potential application of the nonconjugated peptide 95–123 for the treatment of prion diseases.     

Development of recombinant chicken IgY from single chain fragment of variable region for diagnosis of BSE.

We generated two recombinant chicken IgYs, designated Ab3-15 and Ab4-19, against mammalian prion protein (PrP) from the single chain fragment of variable region (scFv) antibodies. These two antibodies recognized PrP(Sc) from bovine spongiform encephalopathy (BSE) in cattle and were more sensitive than the corresponding scFv antibodies. These antibodies also recognized PrP(Sc) from other scrapie-infected mammals. These results indicate that Ab3-15 and Ab4-19 are useful for diagnosis of BSE as well as other prion diseases.     

Comparison of abnormal prion protein glycoform patterns from transmissible spongiform encephalopathy agent-infected deer,elk, sheep,and cattle

Analysis of abnormal prion protein glycoform patterns from chronic wasting disease (CWD)-affected deer and elk, scrapie-affected sheep and cattle, and cattle with bovine spongiform encephalopathy failed to identify patterns capable of reliably distinguishing these transmissible spongiform encephalopathy diseases. However, PrP-res patterns sometimes differed among individual animals, suggesting infection by different or multiple CWD strains in some species.     

Conversion of the BASE prion strain into the BSE strain: the origin of BSE?

Atypical neuropathological and molecular phenotypes of bovine spongiform encephalopathy (BSE) have recently been identified in different countries. One of these phenotypes, named bovine "amyloidotic" spongiform encephalopathy (BASE), differs from classical BSE for the occurrence of a distinct type of the disease-associated prion protein (PrP), termed PrP(Sc), and the presence of PrP amyloid plaques. Here, we show that the agents responsible for BSE and BASE possess different biological properties upon transmission to transgenic mice expressing bovine PrP and inbred lines of nontransgenic mice. Strikingly, serial passages of the BASE strain to nontransgenic mice induced a neuropathological and molecular disease phenotype indistinguishable from that of BSE-infected mice. The existence of more than one agent associated with prion disease in cattle and the ability of the BASE strain to convert into the BSE strain may have important implications with respect to the origin of BSE and spongiform encephalopathies in other species, including humans.     

The Immunodetection of the Abnormal Isoform of Prion Protein

Transmissible spongiform encephalopathies such as scrapie in sheep and goats, Creutzfeldt-Jakob disease in humans and bovine spongiform encephalopathy in cattle, are neurodegenerative disorders. A proposed causative agent for these diseases is an infectious protein, the so called prion. An abnormal isoform of prion protein (PrPSc) can be detected according to the prion propagation method used. As PrPSc appears to constitute the main, if not the only, infectious entity its detection for the diagnosis of prion diseases is important. Immunodetection methods for PrPSc analysis are popular tools for diagnosis and research studies. In this paper, a review of the present knowledge concerning immunodetection is presented and the enhancement of the immunoreactivity of antisera to mouse and hamster prion protein peptides using the techniques of Western blotting and immunohistochemistry is summarized.     

Prion strain discrimination using luminescent conjugated polymers

The occurrence of multiple strains of prions may reflect conformational variability of PrP(Sc), a disease-associated, aggregated variant of the cellular prion protein, PrP(C). Here we used luminescent conjugated polymers (LCPs), which emit conformation-dependent fluorescence spectra, for characterizing prion strains. LCP reactivity and emission spectra of brain sections discriminated among four immunohistochemically indistinguishable, serially mouse-passaged prion strains derived from sheep scrapie, chronic wasting disease (CWD), bovine spongiform encephalopathy (BSE), and mouse-adapted Rocky Mountain Laboratory scrapie prions. Furthermore, using LCPs we differentiated between field isolates of BSE and bovine amyloidotic spongiform encephalopathy, and identified noncongophilic deposits in prion-infected deer and sheep. We found that fibrils with distinct morphologies generated from chemically identical recombinant PrP yielded unique LCP spectra, suggesting that spectral characteristic differences resulted from distinct supramolecular PrP structures. LCPs may help to detect structural differences among discrete protein aggregates and to link protein conformational features with disease phenotypes.     

Evaluation of the human transmission risk of an atypical bovine spongiform encephalopathy prion strain

Bovine spongiform encephalopathy (BSE), the prion disease in cattle, was widely believed to be caused by only one strain, BSE-C. BSE-C causes the fatal prion disease named new variant Creutzfeldt-Jacob disease in humans. Two atypical BSE strains, bovine amyloidotic spongiform encephalopathy (BASE, also named BSE-L) and BSE-H, have been discovered in several countries since 2004; their transmissibility and phenotypes in humans are unknown. We investigated the infectivity and human phenotype of BASE strains by inoculating transgenic (Tg) mice expressing the human prion protein with brain homogenates from two BASE strain-infected cattle. Sixty percent of the inoculated Tg mice became infected after 20 to 22 months of incubation, a transmission rate higher than those reported for BSE-C. A quarter of BASE strain-infected Tg mice, but none of the Tg mice infected with prions causing a sporadic human prion disease, showed the presence of pathogenic prion protein isoforms in the spleen, indicating that the BASE prion is intrinsically lymphotropic. The pathological prion protein isoforms in BASE strain-infected humanized Tg mouse brains are different from those from the original cattle BASE or sporadic human prion disease. Minimal brain spongiosis and long incubation times are observed for the BASE strain-infected Tg mice. These results suggest that in humans, the BASE strain is a more virulent BSE strain and likely lymphotropic.     

Generation of a Persistently Infected MDBK Cell Line with Natural Bovine Spongiform Encephalopathy (BSE)

Bovine spongiform encephalopathy (BSE) is a zoonotic transmissible spongiform encephalopathy (TSE) thought to be caused by the same prion strain as variant Creutzfeldt-Jakob disease (vCJD). Unlike scrapie and chronic wasting disease there is no cell culture model allowing the replication of proteinase K resistant BSE (PrP^BSE) and the further in vitro study of this disease. We have generated a cell line based on the Madin-Darby Bovine Kidney (MDBK) cell line over-expressing the bovine prion protein. After exposure to naturally BSE-infected bovine brain homogenate this cell line has shown to replicate and accumulate PrP^BSE and maintain infection up to passage 83 after initial challenge. Collectively, we demonstrate, for the first time, that the BSE agent can infect cell lines over-expressing the bovine prion protein similar to other prion diseases. These BSE infected cells will provide a useful tool to facilitate the study of potential therapeutic agents and the diagnosis of BSE.     

The mechanism of prion strain propagation

Studies of mammalian prion diseases such as bovine spongiform encephalopathy have suggested that different strains consist of prion proteins with different conformations. Two recent studies of yeast prions have now formally demonstrated that multiple stable protein conformations are the basis of strain variation.     

Microglial cell line established from prion protein-overexpressing mice is susceptible to various murine prion strains

Several lines of evidence suggest that microglia have important roles in the pathogenesis of prion diseases. Here, we establish a novel microglial cell line (MG20) from neonatal tga20 mice that overexpress murine prion protein. After exposure to Chandler scrapie, we observed the replication and accumulation of disease-associated forms of the prion protein in MG20 cells up to the 15th passage. Furthermore, MG20 cells were susceptible to ME7, Obihiro scrapie, and bovine spongiform encephalopathy agents. Thus, MG20 cell lines persistently infected with various murine prion strains provide a useful model for the study of the pathogenesis of prion diseases.     

Production of cattle lacking prion protein

Prion diseases are caused by propagation of misfolded forms of the normal cellular prion protein PrP(C), such as PrP(BSE) in bovine spongiform encephalopathy (BSE) in cattle and PrP(CJD) in Creutzfeldt-Jakob disease (CJD) in humans. Disruption of PrP(C) expression in mice, a species that does not naturally contract prion diseases, results in no apparent developmental abnormalities. However, the impact of ablating PrP(C) function in natural host species of prion diseases is unknown. Here we report the generation and characterization of PrP(C)-deficient cattle produced by a sequential gene-targeting system. At over 20 months of age, the cattle are clinically, physiologically, histopathologically, immunologically and reproductively normal. Brain tissue homogenates are resistant to prion propagation in vitro as assessed by protein misfolding cyclic amplification. PrP(C)-deficient cattle may be a useful model for prion research and could provide industrial bovine products free of prion proteins.     

On-column purification and refolding of recombinant bovine prion protein: using its octarepeat sequences as a natural affinity tag

Prion protein has a key role in the occurrence of transmissible spongiform encephalopathy (TSE) and development of these diseases. Here, we provide a convenient procedure for on-column purification and refolding of the full-length mature bovine prion protein (bPrP) from Escherichia coli using immobilized metal (Ni) affinity chromatography, based on the metal-binding property of its unusual octarepeat sequences containing six tandem copies. Following extensive washing, the bPrP pellet was solubilized by guanidine hydrochloride and subjected to Ni-NTA agarose column. Purification and refolding were achieved by stepwise gradient washing with reduced guanidine hydrochloride concentrations. Triton X-100 and beta-mercaptoethanol were required in this rapid refolding process. The isolated prion protein was identified by monoclonal antibodies and its integrity was monitored by mass spectroscopy. Its correct folding was confirmed from circular dichroism (CD) experiments. Moreover, thioflavin T-binding assay showed that the recombinant bPrP could be transformed into amyloid fiber structures like that of the infectious prion isoform PrP(sc).     

Amplified immunohistochemical detection of PrPsc in animal transmissible spongiform encephalopathies using streptomycin.

Due to its sensitivity, immunohistochemistry (IHC) of abnormal prion protein (PrPsc) is used to study experimental and natural cases of transmissible spongiform encephalopathies (TSEs) such as Creutzfeldt-Jakob disease in humans or scrapie and bovine spongiform encephalopathy (BSE) in animals. The limits of detection are particularly critical when PrPsc IHC is used for diagnostic purposes. In this article, we describe for the first time the use of streptomycin sulfate in IHC, providing a novel original and easy way to amplify specifically PrPsc immunohistochemical detection in natural cases of BSE and scrapie, as well as in experimental TSEs in mice models using two different PrP antibodies.