Morikazu Imamura

PrPSc distribution of a natural case of bovine spongiform encephalopathy

Bovine spongiform encephalopathy (BSE) is a disease of cattle that causes progressive neurodegeneration of the central nervous system. Infectivity of BSE agent is accompanied with an abnormal isoform of prion protein (PrPSc).

Self-propagating, protease-resistant, recombinant prion protein conformers with or without in vivo pathogenicity

Prions, characterized by self-propagating protease-resistant prion protein (PrP) conformations, are agents causing prion disease. Recent studies generated several such self-propagating protease-resistant recombinant PrP (rPrP-res) conformers. While some cause prion disease, others fail to induce any pathology. Here we showed that although distinctly different, the pathogenic and non-pathogenic rPrP-res conformers were similarly recognized by a group of conformational antibodies against prions and shared a similar guanidine hydrochloride denaturation profile, suggesting a similar overall architecture. Interestingly, two independently generated non-pathogenic rPrP-res were almost identical, indicating that the particular rPrP-res resulted from cofactor-guided PrP misfolding, rather than stochastic PrP aggregation. Consistent with the notion that cofactors influence rPrP-res conformation, the propagation of all rPrP-res formed with phosphatidylglycerol/RNA was cofactor-dependent, which is different from rPrP-res generated with a single cofactor, phosphatidylethanolamine. Unexpectedly, despite the dramatic difference in disease-causing capability, RT-QuIC assays detected large increases in seeding activity in both pathogenic and non-pathogenic rPrP-res inoculated mice, indicating that the non-pathogenic rPrP-res is not completely inert in vivo. Together, our study supported a role of cofactors in guiding PrP misfolding, indicated that relatively small structural features determine rPrP-res’ pathogenicity, and revealed that the in vivo seeding ability of rPrP-res does not necessarily result in pathogenicity.

Heparan Sulfate and Heparin Promote Faithful Prion Replication in Vitro by Binding to Normal and Abnormal Prion Proteins in Protein Misfolding Cyclic Amplification

The precise mechanism underlying the conversion of normal prion protein (PrPC) into abnormal prion protein (PrPSc) remains unclear. Protein misfolding cyclic amplification (PMCA), an in vitro technique used for amplifying PrPSc, results in PrPSc replication that preserves the strain-specific characteristics of the input PrPSc; thus, PMCA mimics the process of in vivo PrPSc replication. Previous work has demonstrated that in PMCA, nucleic acids are critical for PrPSc amplification, but little information has been reported on glycosaminoglycan (GAG) participation in PrPSc replication in vitro. Here, we investigated whether GAGs play a role in the faithful replication of PrPSc by using a modified PMCA performed with baculovirus-derived recombinant PrP (Bac-PrP) as a substrate. The addition of heparan sulfate (HS) or its analog heparin (HP) restored the conversion efficiency in PMCA that was inhibited through nucleic acid depletion. Moreover, the PMCA products obtained under these conditions were infectious and preserved the properties of the input PrPSc. These data suggest that HS and HP play the same role as nucleic acids in facilitating faithful replication of prions in PMCA. Furthermore, we showed that HP binds to both Bac-PrP and Bac-PrPSc through the sulfated groups present on HP and that the N-terminal domain of Bac-PrPSc might potentially not be involved in the binding to HP. These results suggest that the interaction of GAGs such as HS and HP with PrPC and/or PrPSc through their sulfate groups is critical for the faithful replication of prions.

The Presence of Disease-Associated Prion Protein in Skeletal Muscle of Cattle Infected with Classical Bovine Spongiform Encephalopathy

ABSTRACT The aim of this study was to investigate the presence of disease-associated prion protein (PrPSc) in the skeletal muscle of cattle infected with classical bovine spongiform encephalopathy (C-BSE). The study was carried out systematically in 12 different muscle samples from 43 (3 field and 40 experimental) cases of C-BSE; however, muscle spindles were not available in many of these cases. Therefore, analysis became restricted to a total of 31 muscles in 23 cattle. Even after this restriction, low levels of PrPSc were detected in the muscle spindles of the masseter, intercostal, triceps brachii, psoas major, quadriceps femoris and semitendinosus muscles from 3 field and 6 experimental clinical-stage cases. The present data indicate that small amounts of PrPSc are detectable by immunohistochemistry in the skeletal muscles of animals terminally affected with C-BSE.

Transmission of atypical scrapie to homozygous ARQ sheep.

Two Cheviot ewes homozygous for the A136L141R154Q171 (AL141RQ) prion protein (PrP) genotype were exposed intracerebrally to brain pools prepared using four field cases of atypical scrapie from the United Kingdom. Animals were clinically normal until the end of the experiment, when they were culled 7 years post-inoculation. Limited accumulation of disease-associated PrP (PrPSc) was observed in the cerebellar molecular layer by immunohistochemistry, but not by western blot or enzyme-linked immunosorbent assay. In addition, PrPSc was partially localized in astrocytes and microglia, suggesting that these cells have a role in PrPSc processing, degradation or both. Our results indicate that atypical scrapie is transmissible to AL141RQ sheep, but these animals act as clinically silent carriers with long incubation times.

Identification of the first case of atypical scrapie in Japan

A Corriedale ewe was confirmed as the first atypical scrapie case during an active surveillance program for transmissible spongiform encephalopathies in small ruminants in Japan. The animal was homozygous for the AF141RQ haplotype of PRNP. The animal showed clinical neurological signs possibly due to listeriosis before culling. Western blot analysis showed an unusual multiple banded pattern with a low-molecular fragment at ~7 kDa. Histopathology revealed suppurative meningoencephalitis caused by listeriosis in the brainstem. Fine granular to globular immunostaining of disease-associated prion proteins was mainly detected in the neuropil of the spinal tract of the trigeminal nerve and in the white matter of the spinocerebellar tract. Based on these results, this case was conclusively diagnosed as atypical scrapie with encephalitic listeriosis.

Surveillance of chronic wasting disease (CWD) in Japan

Chronic wasting disease (CWD) in cervids including elk, mule deer, and white-tailed deer, is a member of the transmissible spongiform encephalopathies (TSEs). CWD is a serious problem in North America. The detection of abnormal isoforms of prion protein (PrPSc) is a key factor for the diagnosis of CWD, similar to other TSEs. The surveillance program for TSEs in animals is conducted by the Ministry of Agriculture, Forestry, and Fishery (MAFF) and is targeted to sheep, goats, and deer. In Japan, several different anti-prion protein (PrP) monoclonal antibodies (mAbs) are utilized for bovine spongiform encephalopathy (BSE) confirmation. Since CWD does not occur naturally in Japan, the immunoreactivity of the antibodies against PrPSc found in deer was not known. In this study, we examined the immunoreactivities of these antibodies against PrPSc found in CWD. The protocols that are used in Japan for confirmation of BSE cases are Western blot (WB) and immunohistochemistry (IHC). We used these same protocols to examine CWD positive brain samples which were provided by Dr. A. Davis of the National Veterinary Service Laboratory, USA. Mabs. T1, T2, 44B1, and 72-5, were used successfully to detect PrPSc in CWD affected mule deer brains by WB. In IHC, PrPSc was detected with mAbs T2, 44B1, and polyclonal antibody B103. These results determined that the antibodies used for BSE confirmation are also applicable to CWD, as for scrapie. These same antibodies could detect PrPC from Japanese deer by WB without proteinase digestion. The amino acid sequence of PrP of Japanese deer was found to be the same as sequence as the one reported for mule deer. These antibodies were then used for CWD surveillance in Japan. When 127 of hunter-killed deer from Hokkaido were examined, PrPSc was not detected in any of the animals.