A traceback phenomenon can reveal the origin of prion infection

The transmission of prions to animals with incongruent prion protein (PrP) gene (referred to as cross‐sequence transmission) results in a relatively long incubation period and can generate a new prion strain with unique transmissibility designated as a traceback phenomenon. For example, cross‐sequence transmission of bovine spongiform encephalopathy (BSE) prions to human generated variant Creutzfeldt‐Jakob disease (vCJD) prions which retained the transmissibility to mice expressing bovine PrP. This finding suggests that traceback studies could enable us to identify the origin of prions. There are two distinct phenotypes in dura mater graft‐associated Creutzfeldt‐Jakob disease (dCJD), with the majority represented by a non‐plaque‐type of dCJD (np‐dCJD) and the minority by a plaque‐type of dCJD (p‐dCJD). To identify the origin of p‐dCJD, we performed a traceback study using mice expressing human PrP with methionine homozygosity (129M/M) or valine homozygosity (129V/V) at polymorphic codon 129. The characteristics of p‐dCJD such as the accumulation of abnormal isoform of PrP (PrP^Sc) intermediate in size between type 1 and type 2, and plaque‐type PrP deposition in the brain were maintained after transmission to the 129M/M mice. Furthermore, the 129V/V mice were more susceptible to p‐dCJD prions than the 129M/M mice and produced type 2 PrP^Sc that were identical in size to those from the 129V/V mice inoculated with sporadic CJD prions from a patient with 129V/V and type 2 PrP^Sc (sCJD‐VV2). In addition, we performed intracerebral transmission of sCJD‐VV2 prions to the 129M/M mice as an experimental model for p‐dCJD. These 129M/M mice showed the accumulation of the intermediate type PrP^Sc and plaque‐type PrP deposition in the brain. These results suggest that p‐dCJD could be caused by cross‐sequence transmission of sCJD‐VV2 prions to individuals with the 129M/M genotype.     

Accumulation of prion protein in the vagus nerve in creutzfeldt–jakob disease

Disease‐associated proteins are thought to propagate along neuronal processes in neurodegenerative diseases. To detect disease‐associated prion protein (PrP^Sc) in the vagus nerve in different forms and molecular subtypes of Creutzfeldt–Jakob disease (CJD), we applied 3 different anti‐PrP antibodies. We screened the vagus nerve in 162 sporadic and 30 genetic CJD cases. Four of 31 VV‐2 type sporadic CJD and 7 of 30 genetic CJD cases showed vagal PrP^Sc immunodeposits with distinct morphology. Thus, PrP^Sc in CJD affects the vagus nerve analogously to α‐synuclein in Parkinson disease. The morphologically diverse deposition of PrP^Sc in genetic and sporadic CJD argues against uniform mechanisms of propagation of PrP^Sc. Ann Neurol 2019;85:782–787     

Neuropathological and biochemical criteria to identify acquired Creutzfeldt‐Jakob disease among presumed sporadic cases

As an experimental model of acquired Creutzfeldt‐Jakob disease (CJD), we performed transmission studies of sporadic CJD using knock‐in mice expressing human prion protein (PrP). In this model, the inoculation of the sporadic CJD strain V2 into animals homozygous for methionine at polymorphic codon 129 (129 M/M) of the PRNP gene produced quite distinctive neuropathological and biochemical features, that is, widespread kuru plaques and intermediate type abnormal PrP (PrP^Sc). Interestingly, this distinctive combination of molecular and pathological features has been, to date, observed in acquired CJD but not in sporadic CJD. Assuming that these distinctive phenotypic traits are specific for acquired CJD, we revisited the literature and found two cases showing widespread kuru plaques despite the 129 M/M genotype, in a neurosurgeon and in a patient with a medical history of neurosurgery without dura mater grafting. By Western blot analysis of brain homogenates, we revealed the intermediate type of PrP^Sc in both cases. Furthermore, transmission properties of brain extracts from these two cases were indistinguishable from those of a subgroup of dura mater graft‐associated iatrogenic CJD caused by infection with the sporadic CJD strain V2. These data strongly suggest that the two atypical CJD cases, previously thought to represent sporadic CJD, very likely acquired the disease through exposure to prion‐contaminated brain tissues. Thus, we propose that the distinctive combination of 129 M/M genotype, kuru plaques, and intermediate type PrP^Sc, represents a reliable criterion for the identification of acquired CJD cases among presumed sporadic cases.     

Prion protein oligomers in Creutzfeldt‐Jakob disease detected by gel‐filtration centrifuge columns

Prion diseases are diagnosed by the detection of accumulation of abnormal prion protein (PrP) using immunohistochemistry or the detection of protease‐resistant abnormal PrP (PrP^res). Although the abnormal PrP is neurotoxic by forming aggregates, recent studies suggest that the most infectious units are smaller than the amyloid fibrils. In the present study, we developed a simplified method by applying size‐exclusion gel‐filtration chromatography to examine PrP oligomers without proteinase K digestion in Creutzfeldt‐Jakob disease (CJD) samples, and evaluated the correlation between disease severity and the polymerization degree of PrP. Brain homogenates of human CJD and non‐CJD cases were applied to the gel‐filtration spin columns, and fractionated PrP molecules in each fraction were detected by western blot. We observed that PrP oligomers could be detected by the simple gel‐filtration method and distinctly separated from monomeric cellular PrP (PrP^c). PrP oligomers were increased according to the disease severity, accompanied by the depletion of PrP^c. The separated PrP oligomers were already protease‐resistant in the case with short disease duration. In the cases with quite severe pathology the oligomeric PrP reached a plateau, which may indicate that PrP molecules could mostly develop into amyloid fibrils in the advanced stages. The increase of PrP oligomers correlated with the degree of histopathological changes such as spongiosis and gliosis. The decrease of monomeric PrP^c was unexpectedly obvious in the diseased cases. Dynamic changes of both oligomerization of the human PrP and depletion of normal PrP^c require further elucidation to develop a greater understanding of the pathogenesis of human prion diseases.     

Incidence and spectrum of sporadic Creutzfeldt–Jakob disease variants with mixed phenotype and co-occurrence of PrPSc types: an updated classification

Six subtypes of sporadic Creutzfeldt–Jakob disease with distinctive clinico-pathological features have been identified largely based on two types of the abnormal prion protein, PrP^Sc, and the methionine (M)/valine (V) polymorphic codon 129 of the prion protein. The existence of affected subjects showing mixed phenotypic features and concurrent PrP^Sc types has been reported but with inconsistencies among studies in both results and their interpretation. The issue currently complicates diagnosis and classification of cases and also has implications for disease pathogenesis. To explore the issue in depth, we carried out a systematic regional study in a large series of 225 cases. PrP^Sc types 1 and 2 concurrence was detected in 35% of cases and was higher in MM than in MV or VV subjects. The deposition of either type 1 or 2, when concurrent, was not random and always characterized by the coexistence of phenotypic features previously described in the pure subtypes. PrP^Sc type 1 accumulation and related pathology predominated in MM and MV cases, while the type 2 phenotype prevailed in VVs. Neuropathological examination best identified the mixed types 1 and 2 features in MMs and most MVs, and also uniquely revealed the co-occurrence of pathological variants sharing PrP^Sc type 2. In contrast, molecular typing best detected the concurrent PrP^Sc types in VV subjects and MV cases with kuru plaques. The present data provide an updated disease classification and are of importance for future epidemiologic and transmission studies aimed to identify etiology and extent of strain variation in sporadic Creutzfeldt–Jakob disease.     

Sporadic Creutzfeldt–Jakob disease with glial PrPRes nuclear and perinuclear immunoreactivity

Proteinase K‐resistant prion protein (PrP^Res) nuclear and perinuclear immunoreactivity in oligodendrocytes of the frontal cortex is found in one case of otherwise typical sporadic Creutzfeldt‐Jakob disease (sCJD) type VV2a. The PrP nature of the inclusions is validated with several anti‐PrP antibodies directed to amino acids 130–160 (12F10), 109–112 (3F4), 97–102 (8G8) and the octarepeat region (amino acids 59–89: SAF32). Cellular identification and subcellular localization were evaluated with double‐ and triple‐labeling immunofluorescence and confocal microscopy using antibodies against PrP, glial markers, and histone H3. Based on review of the literature and our own experience, this is a very odd situation that deserves further validation in other cases.     

Protease‐resistant PrP and PrP oligomers in the brain in human prion diseases after intraventricular pentosan polysulfate infusion

Intraventricular infusion of pentosan polysulfate (PPS) as a treatment for various human prion diseases has been applied in Japan. To evaluate the influence of PPS treatment we performed pathological examination and biochemical analyses of PrP molecules in autopsied brains treated with PPS (one case of sporadic Creutzfeldt‐Jakob disease (sCJD, case 1), two cases of dura mater graft‐associated CJD (dCJD, cases 2 and 4), and one case of Gerstmann‐Sträussler‐Scheinker disease (GSS, case 3). Six cases of sCJD without PPS treatment were examined for comparison. Protease‐resistant PrP (PrP^res) in the frontal lobe was evaluated by Western blotting after proteinase K digestion. Further, the degree of polymerization of PrP molecules was examined by the size‐exclusion gel chromatography assay. PPS infusions were started 3–10 months after disease onset, but the treatment did not achieve any clinical improvements. Postmortem examinations of the treated cases revealed symmetrical brain lesions, including neuronal loss, spongiform change and gliosis. Noteworthy was GFAP in the cortical astrocytes reduced in all treated cases despite astrogliosis. Immunohistochemistry for PrP revealed abnormal synaptic deposits in all treated cases and further plaque‐type PrP deposition in case 3 of GSS and case 4 of dCJD. Western blotting showed relatively low ratios of PrP^res in case 2 of dCJD and case 3 of GSS, while in the treated sCJD (case 1), the ratio of PrP^res was comparable with untreated cases. The indices of oligomeric PrP were reduced in one sCJD (case 1) and one dCJD (case 2). Although intraventricular PPS infusion might modify the accumulation of PrP oligomers in the brains of patients with prion diseases, the therapeutic effects are still uncertain.     

Molecular basis of phenotypic variability in sporadc creudeldt-jakob disease

We sequenced the prion protein gene and studied the biochemical characteristics and the intracerebral distribution of protease-resistant prion protein with Western blot and immunohistochemistry in 19 cases of sporadic Creutzfeldt-Jakob disease. We identified four groups of subjects defined by the genotype at codon 129 of the prion protein gene, the site of a common methioninelvaline polymorphism, and two types of protease-resistant prion proteins that differed in size and glycosylation. The four Creutzfeldt-Jakob disease groups showed distinct clinicopathological features that corresponded to previously described variants. The typical Creutzfeldt Jakob disease phenotype or myoclonic variant and the Heidenhain variant were linked to methionine homozygosity at codon 129 and to “type 1” protease-resistant prion protein. The atypical and rarer variants such as that with dementia of long duration, the ataxic variant, and the variant with kuru plaques were linked to different genotypes at codon 129 and shared the “type 2” protease-resistant prion protein. Our data indicate that the sporadic form of Creutzfeldt-Jakob disease comprises a limited number of variants. The methionine/valine polymorphism at codon 129 of the prion protein gene and two types of protease-resistant prion proteins are the major determinants of these variants. These findings suggest the existence of prion strains in humans and provide the molecular basis for a novel classification of sporadic Creutzfeldt-Jakob disease.     

Involvement of Dab1 in APP processing and β-amyloid deposition in sporadic Creutzfeldt–Jakob patients

Alzheimer's disease and prion pathologies (e.g., Creutzfeldt–Jakob disease (CJD)) display profound neural lesions associated with aberrant protein processing and extracellular amyloid deposits. Dab1 has been implicated in the regulation of amyloid precursor protein (APP), but a direct link between human prion diseases and Dab1/APP interactions has not been published. Here we examined this putative relationship in 17 cases of sporadic CJD (sCJD) post-mortem. Biochemical analyses of brain tissue revealed two groups, which also correlated with PrP^sc types 1 and 2. One group with PrP^sc type 1 showed increased Dab1 phosphorylation and lower βCTF production with an absence of Aβ deposition. The second sCJD group, which carried PrP^sc type 2, showed lower levels of Dab1 phosphorylation and βCTF production, and Aβ deposition. Thus, the present observations suggest a correlation between Dab1 phosphorylation, Aβ deposition and PrP^sc type in sCJD.     

Molecular biology and pathology of prion strains in sporadic human prion diseases

Prion diseases are believed to propagate by the mechanism involving self-perpetuating conformational conversion of the normal form of the prion protein, PrP^C, to the misfolded, pathogenic state, PrP^Sc. One of the most intriguing aspects of these disorders is the phenomenon of prion strains. It is believed that strain properties are fully encoded in distinct conformations of PrP^Sc. Strains are of practical relevance to human prion diseases as their diversity may explain the unusual heterogeneity of these disorders. The first insight into the molecular mechanisms underlying heterogeneity of human prion diseases was provided by the observation that two distinct disease phenotypes and their associated PrP^Sc conformers co-distribute with distinct PrP genotypes as determined by the methionine/valine polymorphism at codon 129 of the PrP gene. Subsequent studies identified six possible combinations of the three genotypes (determined by the polymorphic codon 129) and two common PrP^Sc conformers (named types 1 and 2) as the major determinants of the phenotype in sporadic human prion diseases. This scenario implies that each 129 genotype–PrP^Sc type combination would be associated with a distinct disease phenotype and prion strain. However, notable exceptions have been found. For example, two genotype–PrP^Sc type combinations are linked to the same phenotype, and conversely, the same combination was found to be associated with two distinct phenotypes. Furthermore, in some cases, PrP^Sc conformers naturally associated with distinct phenotypes appear, upon transmission, to lose their phenotype-determining strain characteristics. Currently it seems safe to assume that typical sporadic prion diseases are associated with at least six distinct prion strains. However, the intrinsic characteristics that distinguish at least four of these strains remain to be identified.     

Autopsy case of MV2K‐type sporadic Creutzfeldt‐Jakob disease with spongiform changes of the cerebral cortex

Comprehensive analysis is required for the accurate diagnosis of MV2‐type sporadic Creutzfeldt–Jakob disease (sCJD) because it shows a wide clinicopathological spectrum. Here, we describe the clinical findings and neuropathologic observations of an autopsy‐confirmed MV2K‐type sCJD case with extensive spongiform changes of the cerebral cortex. In the early disease stages, the patient exhibited gait disturbance with ataxia and gradually showed cognitive dysfunction. Diffusion‐weighted magnetic resonance images revealed hyperintense regions in the cerebral cortex, basal ganglia, and particularly in the thalamus. Prion protein (PrP) gene analysis revealed no mutations, and polymorphic codon 129 exhibited methionine and valine heterozygosity. During the course of the disease, a startle reaction was observed, whereas myoclonus was not observed. Electroencephalography showed no periodic sharp wave complexes. The patient died at age 61 years with 13 months total disease duration and did not reach the akinetic mutism state. Pathologic investigation revealed extensive fine vacuole‐type spongiform change in the cerebral cortex, and the appearance of vacuolation tended to be more pronounced in the deeper layers. Numerous kuru plaques were observed in the cerebellum. PrP immunostaining revealed extensive diffuse synaptic‐type PrP deposition in the cerebral cortex, and the finding was prominent in the deeper layer with perineuronal‐type PrP deposition. In the limbic system, basal ganglia, and thalamus, mixed small plaque‐type PrP with synaptic‐type PrP deposition was observed. In the cerebellar cortex, diffuse synaptic‐type PrP depositions were observed with numerous strongly immunopositive plaques. Western blot analysis of examined brain samples revealed mixed type 2 PrP^Sc (scrapie type) and intermediate‐type PrP^Sc.     

Dura mater graft‐associated Creutzfeldt‐Jakob disease in Japan: Clinicopathological and molecular characterization of the two distinct subtypes

Up to February 2008, a total of 132 patients with dura mater graft‐associated Creutzfeldt‐Jakob disease (dCJD) have been identified in Japan, accounting for a majority of the world's patients with dCJD. The patients received dura mater grafts from 1978 to 1993. Lyodura^® (B. Braun, Melsungen, Germany) was used for all the patients in whom the brand name of the dura mater could be identified. After the incubation period of 1 to 25 years (mean, 11.8 years), CJD appeared from 1985 through to 2006. We analyzed clinical, pathological, and molecular features in 74 patients with dCJD who had been prospectively registered by the CJD Surveillance Committee. The cases of dCJD could be classified into two distinct clinicopathological phenotypes: a non‐plaque type, showing typical features identical with those of classic CJD, and a plaque type, characterized by atypical features, including slow progression, lack of or late occurrence of periodic sharp wave complexes on EEG, and plaque formation in the brain. The plaque type accounted for one‐third of the pathologically confirmed or clinically diagnosed cases of dCJD. The non‐plaque type was associated with methionine homozygosity at codon 129 (129M/M) of the PrP gene in all patients, except for in one patient with the 129M/valine (V) genotype and type 1 protease‐resistant PrP (PrP^res), whereas the plaque type was always associated with the 129M/M genotype and the intermediate type between types 1 and 2 of PrP^res in all cases. Thus, the clinicopathological and molecular features of the plaque type are distinct from those of the non‐plaque type, suggesting contamination of the dura mater grafts with different prion strains.     

Quantification of surviving cerebellar granule neurones and abnormal prion protein (PrPSc) deposition in sporadic Creutzfeldt-Jakob disease supports a pathogenic role for small PrPSc deposits common to the various molecular subtypes

B. A. Faucheux, E. Morain, V. Diouron, J.‐P. Brandel, D. Salomon, V. Sazdovitch, N. Privat, J.‐L. Laplanche, J.‐J. Hauw and S. Haïk (2011) Neuropathology and Applied Neurobiology 37, 500–512 Quantification of surviving cerebellar granule neurones and abnormal prion protein (PrP^Sc) deposition in sporadic Creutzfeldt–Jakob disease supports a pathogenic role for small PrP^Sc deposits common to the various molecular subtypes Aims: Neuronal death is a major neuropathological hallmark in prion diseases. The association between the accumulation of the disease‐related prion protein (PrP^Sc) and neuronal loss varies within the wide spectrum of prion diseases and their experimental models. In this study, we investigated the relationships between neuronal loss and PrP^Sc deposition in the cerebellum from cases of the six subtypes of sporadic Creutzfeldt–Jakob disease (sCJD; n = 100) that can be determined according to the M129V polymorphism of the human prion protein gene (PRNP) and PrP^Sc molecular types. Methods: The numerical density of neurones was estimated with a computer‐assisted image analysis system and the accumulation of PrP^Sc deposits was scored. Results: The scores of PrP^Sc immunoreactive deposits of the punctate type (synaptic type) were correlated with neurone counts – the higher the score the higher the neuronal loss – in all sCJD subtypes. Large 5‐ to 50‐µm‐wide deposits (focal type) were found in sCJD‐MV2 and sCJD‐VV2 subtypes, and occasionally in a few cases of the other studied groups. By contrast, the highest scores for 5‐ to 50‐µm‐wide deposits observed in sCJD‐MV2 subtype were not associated with higher neuronal loss. In addition, these scores were inversely correlated with neuronal counts in the sCJD‐VV2 subtype. Conclusions: These results support a putative pathogenic role for small PrP^Sc deposits common to the various sCJD subtypes. Furthermore, the observation of a lower loss of neurones associated with PrP^Sc type‐2 large deposits is consistent with a possible ‘protective’ role of aggregated deposits in both sCJD‐MV2 and sCJD‐VV2 subtypes.     

Phenotypic variability of sporadic human prion disease and its molecular basis: past,present, and future

Human prion diseases are rare neurodegenerative disorders related to prion protein misfolding that can occur as sporadic, familial or acquired forms. In comparison to other more common neurodegenerative disorders, prion diseases show a wider range of phenotypic variation and largely transmit to experimental animals, a feature that led to the isolation and characterization of different strains of the transmissible agent or prion with distinct biological properties. Biochemically distinct PrP^Sc types have been demonstrated which differ in their size after proteinase cleavage, glycosylation pattern, and possibly other features related to their conformation. These PrP^Sc types, possibly enciphering the prion strains, together with the naturally occurring polymorphism at codon 129 in the prion protein gene have a major influence on the disease phenotype. In the sporadic form, the most common but perhaps least understood form of human prion disease, there are at least six major combinations of codon 129 genotype and prion protein isotype, which are significantly related to distinctive clinical–pathological subgroups of the disease. In this review, we provide an update on the current knowledge and classification of the disease subtypes of the sporadic human prion diseases as defined by molecular features and pathological changes. Furthermore, we discuss the molecular basis of phenotypic variability taking into account the results of recent transmission studies that shed light on the extent of prion strain variation in humans.     

Autopsied case of sporadic Creutzfeldt–Jakob disease classified as MM1+2C‐type

We encountered an autopsy case of sporadic Creutzfeldt‐Jakob disease (CJD) pathologically classified as MM1+2C‐type, where Western blot analysis of prion protein (PrP) mainly showed type‐1 scrapie PrP (PrP^Sc) but also, partially, mixed type‐2 PrP^Sc. A Japanese woman complained of visual disorder at the age of 86 years and then showed disorientation and memory disturbances. Magnetic resonance imaging (MRI) showed cerebral cortical hyperintensity on diffusion‐weighted images. The patient died 2 months after the onset of symptoms; her condition did not reach the akinetic mutism state and periodic sharp‐wave complexes on electroencephalography and myoclonus were not recognized. The brain weighed 1100 g and neuropathological examination showed extensive fine vacuole‐type spongiform changes in the cerebral cortex. In some cortical regions, large confluent vacuole‐type spongiform changes were also present. Gliosis and hypertrophic astrocytosis were generally mild, and tissue rarefaction of the neuropil and neuronal loss were not apparent. PrP immunostaining showed diffuse synaptic‐type PrP deposition in the cerebral gray matter, but some regions with large confluent vacuoles showed perivacuolar‐type deposition. We speculated, based on the clinicopathological findings and previous reports, that most MM1‐type sporadic CJD cases may be associated with type‐2 PrP^Sc, at least partially, within certain regions of the cerebrum.     

Less protease‐resistant PrP in a patient with sporadic CJD treated with intraventricular pentosan polysulphate

Terada T, Tsuboi Y, Obi T, Doh‐ura K, Murayama S, Kitamoto T, Yamada T, Mizoguchi K. Less protease‐resistant PrP in a patient with sporadic CJD treated with intraventricular pentosan polysulphate.
Acta Neurol Scand: 2010: 121: 127–130.
© 2009 The Authors Journal compilation © 2009 Blackwell Munksgaard. Treatment with intraventricular pentosan polysulphate (PPS) might be beneficial in patients with Creutzfeldt–Jakob disease. We report a 68‐year‐old woman with sporadic Creutzfeldt–Jakob disease who received continuous intraventricular PPS infusion (1–120 μg/kg/day) for 17 months starting 10 months after the onset of clinical symptoms. Treatment with PPS was well tolerated but was associated with a minor, transient intraventricular hemorrhage and a non‐progressive collection of subdural fluid. The patient’s overall survival time was well above the mean time expected for the illness but still within the normal range. Post‐mortem examination revealed that the level of abnormal protease‐resistant prion protein in the brain was markedly decreased compared with levels in brains without PPS treatment. These findings suggest that intraventricular PPS infusion might modify the accumulation of abnormal prion proteins in the brains of patients with sporadic Creutzfeldt–Jakob disease.     

A case of sporadic Creutzfeldt‐Jakob disease with both plaque and synaptic‐type deposition of prion protein

We report a Japanese case of sporadic Creutzfeldt‐Jakob disease (CJD) with particular clinical course and neuropathological findings. A 74‐year‐old female exhibited parkinsonism and later, dementia, myoclonus as well as visual hallucinations, lacking periodic synchronous discharges in the electroencephalogram. The duration of her illness was 2 years, longer than typical CJD cases which average 8 months’ duration. Gray matter was severely affected, the Ammon’s horn and subicular cortex were well preserved and many kuru plaques were observed in the cerebellum using routine histological stainings. Immunohistochemistry for prion protein (PrP) using both formic acid and hydrolytic autoclaving pretreatment revealed numerous prion plaques throughout the brain together with intense synaptic‐type deposition of PrP^CJD (abnormal isoform of PrP) in all gray matter examined, particularly in the Ammon’s horn and subicular cortex. The definite combination of these two types of stain has never been reported previously in Japan other than in Gerstmann‐Sträussler– Scheinker syndrome. Relative resistance of the Ammon’s horn and subicular cortex to the PrP^CJD deposition is also discussed.     

Mutant prion protein D202N associated with familial prion disease is retained in the endoplasmic reticulum and forms ‘curly’ intracellular aggregates

Transmissible Spongiform Encephalopathies are fatal neurodegenerative disorders of humans and animals that are familial, sporadic, and infectious in nature. Familial disorders of humans include Gerstmann–Straussler–Scheinker disease (GSS), familial Creutzfeldt–Jakob disease (CJD), and fatal familial insomnia, and result from point mutations in the prion protein gene. Although neurotoxicity in familial cases is believed to result from a spontaneous change in conformation of mutant prion protein (PrP) to the pathogenic PrP-scrapie (PrP^Sc) form, emerging evidence indicates otherwise. We have investigated the processing and metabolism of mutant PrP D202N (PrP^202N) in cell models to elucidate possible mechanisms of cytotoxicity. In this report, we demonstrate that PrP^202N expressed in human neuroblastoma cells fails to achieve a mature conformation following synthesis and accumulates in the endoplasmic reticulum as ‘curly’ aggregates. In addition, PrP^202N cells show increased sensitivity to free radicals, indicating that neuronal susceptibility to oxidative damage may account for the neurotoxicity observed in cases of GSS resulting from PrP D202N mutation. Yaping Gu and Susamma Verghese contributed equally.     

An autopsied case of MM1 + MM2‐cortical with thalamic‐type sporadic Creutzfeldt‐Jakob disease presenting with hyperintensities on diffusion‐weighted MRI before clinical onset

A 78‐year‐old Japanese man presented with rapidly progressive dementia and gait disturbances. Eight months before the onset of clinical symptoms, diffusion‐weighted magnetic resonance imaging (DWI) demonstrated hyperintensities in the right temporal, right parietal and left medial occipital cortices. Two weeks after symptom onset, DWI showed extensive hyperintensity in the bilateral cerebral cortex, with regions of higher brightness that existed prior to symptom onset still present. Four weeks after clinical onset, periodic sharp wave complexes were identified on an electroencephalogram. Myoclonus was observed 8 weeks after clinical onset. The patient reached an akinetic mutism state and died 5 months after onset. Neuropathological examination showed widespread cerebral neocortical involvement of fine vacuole‐type spongiform changes with large confluent vacuole‐type spongiform changes. Spongiform degeneration with neuron loss and hypertrophic astrocytosis was also observed in the striatum and medial thalamus. The inferior olivary nucleus showed severe neuron loss with hypertrophic astrocytosis. Prion protein (PrP) immunostaining showed widespread synaptic‐type PrP deposition with perivacuolar‐type PrP deposition in the cerebral neocortex. Mild to moderate PrP deposition was also observed extensively in the basal ganglia, thalamus, cerebellum and brainstem, but it was not apparent in the inferior olivary nucleus. PrP gene analysis showed no mutations, and polymorphic codon 129 showed methionine homozygosity. Western blot analysis of protease‐resistant PrP showed both type 1 scrapie type PrP (PrP^Sc) and type 2 PrP^Sc. Based on the relationship between the neuroimaging and pathological findings, we speculated that cerebral cortical lesions with large confluent vacuoles and type 2 PrP^Sc would show higher brightness and continuous hyperintensity on DWI than those with fine vacuoles and type 1 PrP^Sc. We believe the present patient had a combined form of MM1 + MM2‐cortical with thalamic‐type sporadic Creutzfeldt‐Jakob disease (sCJD), which suggests a broader spectrum of sCJD clinicopathological findings.