[Development of animal model for understanding of pathogenesis of subacute sclerosing panencephalitis using non-human primates].

Many animal models using experimental small animals for subacute sclerosing panencephalitis (SSPE) had been reported. But these models were not enough for understanding of pathogenesis of SSPE. After pathogenic measles virus was isolated with highly susceptible B95a cells, mimic infection of measles in human beings became easily produced in non-human primates. In this article, our attempt to develop SSPE model using cynomolgus monkeys will be introduced.

Measles viral load may reflect SSPE disease progression.

Subacute sclerosing panencephalitis (SSPE) is a rare, slowly progressive neurological disorder caused by the persistent infection with measles virus (MV). Despite much research into SSPE, its pathology remains obscure. We examined autopsy tissues of eight SSPE patients by real time quantitative PCR, immunohistochemistry and immunoblotting to determine viral load. MV N, M and H gene RNA could be detected in the central nervous system (CNS) of all patients and in two non-CNS tissues of one patient. The viral burden between patients differed up to four-fold by quantitative PCR and corresponded with detection of MV protein. The level of both viral RNA and antigen in the brain may correlate with disease progression.

Antibodies to borna disease virus in subacute sclerosing panencephalitis.

Mechanisms causing persistence and reactivation of measles virus in subacute sclerosing panencephalitis (SSPE) are unknown. Borna disease virus (BDV) frequently causes latent or persistent infection in the nervous system. We investigated a possible association of these viruses in SSPE. Although BDV seropositivity was similar in SSPE and control groups, SSPE patients with high antibodies to BDV had earlier and more rapid disease. The findings suggest that BDV might be involved in the course, but not in the etiopathogenesis, of SSPE.

Subacute sclerosing panencephalitis with remission in a Bosnian refugee child.

Subacute sclerosing panencephalitis (SSPE) virtually disappeared from the US after mass measles immunization programs dating from the 1960s. However, SSPE has reappeared in internationally adopted children and in refugee children emigrating from developing or war torn countries lacking effective measles immunization programs. SSPE usually occurs 6 to 8 years after a bout of measles in early childhood; death typically follows within 1 to 3 years. What is often not reported in textbooks is that spontaneous remission occurs in a small subset of children with documented SSPE.

Fulminating adult-onset subacute sclerosing panencephalitis in a 49-year-old man.

CONTEXT: Subacute sclerosing panencephalitis (SSPE) is a rare, slow viral infection caused by a defective measles virus. It is characterized by progressive mental deterioration associated with motor impairment and prominent myoclonus. In about 10% of all cases, the disease can progress rapidly and lead to death within a few months. The oldest previously reported fulminating case was in a 25-year-old man. OBJECTIVE: To emphasize the relationship between retinal involvement and acute SSPE by reporting the case of a 49-year-old man with clinical, laboratory, and pathological evidence of acute SSPE. SETTING: Hôpital de l'Enfant-Jésus, Quebec, Quebec. REPORT OF A CASE: This man was referred to the Department of Neurological Sciences on March 21, 2001, because of recent behavioral changes and progressive cognitive impairment over the past few months. Medical history was unremarkable except for an episode of measles in his childhood. Neurological examination showed bilateral myoclonic jerks. Ophthalmic examination revealed bilateral macular swelling and papilledema. Electroencephalography showed periodic sharp and slow-wave discharges. Magnetic resonance imaging showed bilateral diffuse T2-signal hyperintensities in both periventricular and subcortical white matter. Cerebrospinal fluid antimeasles antibody titers were highly positive. An Omaya reservoir was inserted and therapy using a combination of high-dose intrathecal interferon alfa and oral isoprinosine were administered for 6 weeks. Despite transient subjective improvement in the patient's condition, it continued to deteriorate, he became bedridden, and he died on June 26, 2001. CONCLUSION: To our knowledge, this patient is the oldest case of SSPE reported in the literature. This patient and other patients with acute SSPE associated with bilateral macular swelling described in the literature raised the possibility of measles virus-acquired virulent neurotropism in the retina before invading the central nervous system.

Comparison of the neuropathogenicity of two SSPE sibling viruses of the Osaka-2 strain isolated with Vero and B95a cells.

Two sibling viruses, Fr/V and Fr/B, of the subacute sclerosing panencephalitis (SSPE) virus Osaka-2 strain were isolated from a small biopsy specimen of the brain of an SSPE patient by cocultivation with two different cell lines, Vero and B95a cells, respectively. These two sibling viruses differ from each other in their molecular mechanisms of defective M protein expression. In this study, we found that the Fr/B virus could scarcely form syncytium foci on Vero cells, although the Fr/V virus could do so on both Vero and B95a cells, showing a similar relation of cell tropism between recent field isolates and laboratory strains of the measles virus. Severe neurovirulence of both Fr/V and Fr/B viruses was observed in hamsters inoculated intracerebrally with less than 100 PFU, in contrast to the negative neurological and pathological findings in hamsters inoculated even with more than 10(5) PFU of their possible progenitor measles virus. Comparative sequence analysis of inoculated viruses and reisolated viruses from diseased hamster brains showed few variations at a region containing the P-M gene junction, indicating that the inoculated viruses propagated in the brains and induced neurovirulence. All these results suggest that SSPE virus isolated with a lymphoid cell line is similar in neuropathogenicity to that isolated with a nonlymphoid cell lines, irrespective of differences in the molecular mechanism of M protein defectiveness.

Different transcriptional expression of the matrix gene of the two sibling viruses of the subacute sclerosing panencephalitis virus (Osaka-2 strain) isolated from a biopsy specimen of patient brain.

Two sibling viruses of the subacute sclerosing panencephalitis (SSPE) virus Osaka-2 strain were isolated from a small biopsy specimen of the brain of an SSPE patient just before intraventricular interferon treatment by cocultivation with two different cell lines, Vero cells or B95a cells (Ogura et al, 1997). Both the virus-infected cells were found to be indistinguishable from each other in defective production of cell-free virus and in defective expression of the matrix (M) protein. The sequence analysis of the M genes predicted that they were translatable due to a lack of alteration of the translational start and stop codons for the proteins. A different pattern of the M monocistronic transcripts, however, was observed in a Northern blot analysis of the infected cells. This different pattern was confirmed further by a primer extension analysis. The undetectable expressions of the M proteins in the sibling virus-infected cells are most probably different in their molecular mechanisms. All these results indicate the possibility that the two different, replicable variants existed at Jabbour stage III of the disease's progression in a very small portion of the brain, where no lesion had yet been recognized by a magnetic resonance imaging.

Nucleotide sequences of the matrix protein gene of subacute sclerosing panencephalitis viruses compared with local contemporary isolates from patients with acute measles.

Measles viruses isolated from brain cells of patients with subacute sclerosing panencephalitis (SSPE) have numerous mutations, especially in the matrix protein (M) gene. To find whether the M genes of these SSPE viruses were mutated randomly or in a pattern, we sequenced this gene from three strains of defective measles virus isolated in Osaka, Japan. We could deduce the sequence of the possible progenitor measles virus for each patient by comparison of the isolate with measles viruses prevailing at roughly the same time and place as the primary infection. Biased hypermutation affected the M genes of all three SSPE viruses, although the molecular mechanisms for the mutations might be various. Replacements of U with C in the plus strand accounted for 76% of all mutations in two of the strains, but in the other strain, replacements of A with G accounted for 52% of the mutations, and the U residues were unchanged.

Efficient isolation of subacute sclerosing panencephalitis virus from patient brains by reference to magnetic resonance and computed tomographic images.

Subacute sclerosing panencephalitis virus has been isolated with difficulty from brains of infected patients. More strains are needed for the study of the pathogenesis of this virus. To make the isolation more efficient, we selected portions to be examined from the brains of three patients with reference to findings of repeated magnetic resonance and computed tomographic imaging. Three cell lines susceptible to measles virus field strains were used. In all three cases viruses were isolated most effectively from recent lesions and with Vero cells. Our results suggested that these imaging methods and Vero cells could be used for improvement in the efficiency of isolation of this virus from patient brains.

Functional and nonfunctional measles virus matrix genes from lethal human brain infections.

Subacute sclerosing panencephalitis (SSPE) is a lethal disease induced by the persistence of measles virus in the human brain. In many SSPE cases, the viral matrix (M) protein cannot be detected; in others, M proteins of the expected size are found and sequence analysis of M cDNAs has confirmed that the reading frames are intact, showing only several missense mutations. To determine whether these alterations result in nonfunctional proteins, we have replaced the M gene of an infectious full-length genomic cDNA (from vaccine strain Edmonston) with different M genes derived from four patients with SSPE. One of the SSPE M genes tested proved to be functionally competent, giving rise to a virus yielding titers similar to those of viruses containing the M gene from control lytic strains. The other three SSPE M genes were not functionally competent in the same test. In all three cases, the inactivating changes resided in the carboxyl-terminal half of the M protein, as shown by the exchange of either of the two genes halves. In summary, mutational M gene alterations, which either prevent synthesis of M protein altogether or only allow synthesis of nonfunctional M protein, have been detected by us and by others in 9 of 10 SSPE cases. The one functional M gene appears to be an exception to the rule, indicating that M gene alteration might not be an absolute requirement for disease development.

Ultrastructural and immunohistochemical evidence of measles virus in active otosclerosis.

Because of the similarity between otosclerosis and Paget's disease of bone, and the mounting evidence of a viral cause in Paget's disease, we have investigated a possible viral cause for otosclerosis. Transmission electron microscopy of stapes footplate fragments with active otosclerosis has revealed structures morphologically identical with measles virus nucleocapsid in osteoblasts and preosteoblasts. Immunofluorescence and immunoperoxidase studies have confirmed the presence of measles nucleocapsid antigen in active lesions. Application of sera from patients with subacute sclerosing panencephalitis, a defective measles virus infection of the central nervous system, resulted in positive immunoreaction in areas of active otosclerosis.

Identification of a nonproductive, cell-associated form of measles virus by its resistance to inhibition by recombinant human interferon.

Subacute sclerosing panencephalitis (SSPE) is a fatal disease in children and young adults that is caused by persistent infection of the central nervous system (CNS) by a nonproductive, cell-associated form of measles virus. Using an experimental model for SSPE (LEC viral strain in newborn hamsters), we have shown previously that establishment of such CNS infections involves selective elimination from the CNS of productively infected cells by host defensive mechanisms, coupled with the selective sparing of cells carrying nonproductive viral forms. That interferon (IFN) may play a role in this process was suggested by the disappearance of productively infected cells from the CNS tissues prior to the appearance of antiviral antibodies and by the demonstration of cell-associated, IFN-resistant viral variants in the virus stocks that were used. Results of this study support these conclusions by showing that similar IFN-resistant viral variants are present in the HBS strain of SSPE-derived measles virus and that these variants, in the presence of IFN, have properties that are similar to those of naturally occurring cell-associated strains of SSPE viruses, e.g., DR, IP3, and Biken. These IFN-resistant forms of HBS virus were isolated and were shown to maintain their resistance to inhibition by IFN after cloning. However, on removal of IFN, they reverted to productive forms similar to the parental HBS virus. The potential role of such viral forms in the pathogenesis of SSPE is discussed.

Adult-onset subacute sclerosing panencephalitis: immunocytochemical and electron microscopic demonstration of the viral antigen.

We report a case of subacute sclerosing panencephalitis (SSPE) in a 52 year-old man, who developed rapidly progressive mental deterioration, myoclonic seizures, quadriplegia, and remained incapacitated until his death 4 years after the onset of symptoms. Immunocytochemical and electron microscopic studies are reported. Titers of measles virus antibodies were consistently high in both serum and cerebrospinal fluid, and periodic synchronous discharges were recorded on EEG. Suppressed cellular immunity was noted in skin test with phytohemagglutinin. The brain was extensively destroyed by inflammatory processes. There were either laminar or widespread areas of cortical necrosis associated with neuronophagia, neuronal loss, glial proliferation, and perivascular lymphocytic cuffing. Numerous intranuclear inclusions, in the neurons and glial cells, stained with immunoperoxidase using antiserum to SSPE virus; ultrastructurally, these inclusions were made of tubular nucleocapsids of paramyxovirus. Neurofibrillary changes were occasionally encountered in the pigmented neurons. The white matter showed extensive loss of myelinated fibers and increased numbers of astrocytes with bizarre nuclei. This well-documented case of SSPE in an adult might be related to a condition of impaired cellular immunity.

Round cell variant of measles virus: neurovirulence and pathogenesis of acute encephalitis in newborn hamsters.

A subacute sclerosing panencephalitis (SSPE) strain of measles virus has been previously shown to be composed of two interrelated but separable viral variants. One of these, the syncytiagenic or S variant, resembles defective, cell-associated strains of measles virus; while the other, the round cell inducing or RC variant, induces a highly productive infection in cell culture. It is now reported that the S variant is more neurovirulent in newborn hamsters than the RC variant and that viral replication in infected CNS tissues occurs in two phases. Early in the infection cell-free virus, composed primarily of the RC variant, is produced. Later, coincident with the appearance of antiviral antibody, cell-free virus rapidly disappears, leaving behind only cell-associated virus which resembles the S variant. Quantification of viral antigen expression in the infected tissues suggests that this change in the state of infection is not associated with antigenic modulation, but rather is the result of preferential elimination of RC variant infected cells.

Measles virus encephalitis in ferrets as a model for subacute sclerosing panencephalitis.

Young adult ferrets were used as experimental animals to study subacute sclerosing panencephalitis (SSPE). When cells infected with cell-associated measles virus strains isolated from SSPE patients were inoculated intracerebrally (i.c.) into ferrets, they developed an acute encephalitis and died within 1 to 3 weeks without detectable antibody formation. Immunization with live measles vaccine 5 weeks before i.c. inoculation changed the course of the infection in about 50% of the ferrets. These animals developed a subacute encephalitis within weeks or months after inoculation. Cell-associated measles virus was isolated from their brains and high measles antibody titers were found in their sera, comparable to those in sera of SSPE patients. Measles virus specific immunoglobulins (IgG) were present in their brains and determination of IgG/albumin ratios indicated that antibodies were synthesized in the brain in response to the persistent measles virus infection. Measles specific oligoclonal IgG bands were found in the sera and spinal fluids of these animals. Therefore, subacute ferret encephalitis has virological and immunological characteristics in common with SSPE, indicating that it may serve as a model for the human disease. Other animal models of SSPE are described briefly.

Induction of acute myoclonic encephalopathy in hamsters by subacute sclerosing panencephalitis virus.

Myoclonus is a characteristic neurological sign of subacute sclerosing panencephalitis (SSPE). Attempts were made to induce myoclonus in a large proportion of hamsters with a cell-associated strain of SSPE virus (the Biken strain) and thereby to establish an experimental model for study of the mechanism of development of this condition. When injected intracerebrally, Biken virus induced myoclonus within two to 14 days in 84% of the three- to nine-week-old hamsters tested. Electroencephalographic traces showed a periodic and synchronous discharge consisting of high-voltage slow waves and spikes that appeared coincidentally with myoclonus. Neurons in the cortex and thalamus of the affected animals had severely degenerated cytoplasm. Inflammatory changes, such as perivascular cuffing or infiltration of mononuclear cells, were not detected. Staining with immunoperoxidase revealed measles viral antigens in the cytoplasm and dendrites of the affected neurons. SSPE virus with the same properties as the parent virus was recovered from brain cells of sick animals by cocultivation with Vero cells.

Characterization of the Hallé SSPE measles virus isolate.

The Hallé subacute sclerosing panencephalitis (SSPE) measles virus isolate and its plaque-purified progeny were investigated to determine whether any unusual properties could be associated with its ability to cause persistent infection. Three types of plaque-purified progeny were isolated. One population appeared to be similar in biological and biochemical properties to laboratory-adapted measles virus and had the ability to induce syncytia (syn+). A second population (syn-) plaqued more efficiently at 39 degrees C than at 33 degrees C, did not cause normal cell fusion at either temperature, and produced particles that interfered with the replication of other measles virus isolates in vivo and in vitro. This syn- virus was further plaque-purified to eliminate the interfering particles, producing the syn- P2 virus. This virus also plaqued more efficiently at 39 degrees C than at 33 degrees C, but caused cell fusion only at 39 degrees C. Both syn- viruses and the parental virus were significantly less virulent in vivo than the syn+ virus and caused a more prolonged infection. Biochemical analysis showed that the syn- P2 population produced particles that banded at two different densities in potassium tartrate gradients; both densities were less than those of the standard laboratory measles virus and the syn+ virus. Although the syn- P2 virus did not cause cell fusion at 33 degrees C, [35S]methionine labelling demonstrated that the haemolysin/cell fusion protein was present in syn- P2 virions. The production of interfering particles, the inability to cause cell fusion at 33 degrees C, and the cold-sensitive nature of the syn- population appear to play a role in the ability of the Hallé SSPE virus to establish persistent infection.