Events following the infections of enucleate cells with measles virus. (1/180)

The development of measles virus (Edmonston) and SSPE measles virus (Horta-Barbosa) has been examined in enucleate BSC 1 cells. New antigen synthesis in measles virus infected enucleate cells has been demonstrated by fluorescent antibody, by the formation of extensive syncytia from enucleate cells alone and by analysis of polypeptide formation by polyacrylamide gel electrophoresis. All polypeptides formed in nucleate cells were also present in enucleate cells but the amount synthesized was reduced to around 20% of that in nucleate cells. There was also a significant reduction in the amount of antigen detected by fluorescent antibody in enucleate as compared to nucleate preparations. Examination of RNA synthesis in infected enucleate cells revealed only a marginal increase in acid-insoluble material. Titration of the output of infectious virus from enucleate cells infected at both 37 and 31 degrees C indicated a consistent reduction of almost two log units compared to nucleate cells. That the enucleate cells were capable of replicating input genome at these times was demonstrated by the successful growth of respiratory syncytial virus, both at 37 and 31 degrees C. SSPE measles virus grew to higher yield in nucleate BSC 1 than measles virus but there was again a reduction of more than two log units in enucleate cells. All polypeptides synthesized in SSPE infected nucleate cells were apparent in enucleate cells.  (+info)

Cloning the antibody response in humans with inflammatory central nervous system disease: analysis of the expressed IgG repertoire in subacute sclerosing panencephalitis brain reveals disease-relevant antibodies that recognize specific measles virus antigens. (2/180)

The presence of increased IgG in the brains of humans with infectious and inflammatory CNS diseases of unknown etiology such as multiple sclerosis may be a clue to the cause of disease. For example, the intrathecally synthesized oligoclonal bands (OGBs) in diseases such as subacute sclerosing panencephalitis (SSPE) or cryptococcal meningitis have been shown to represent Ab directed against the causative agents, measles virus (MV) or Cryptococcus neoformans, respectively. Using SSPE as a model system, we have developed a PCR-based strategy to analyze the repertoire of IgG V region sequences expressed in SSPE brain. We observed abnormal expression of germline V segments, overrepresentation of particular sequences that correspond to the oligoclonal bands, and substantial somatic mutation of most clones from the germline, which, taken together, constitute features of Ag-driven selection in the IgG response. Using the most abundant or most highly mutated gamma H chain and kappa or lambda L chain sequences in various combinations, we constructed functional Abs in IgG mammalian expression vectors. Three Abs specifically stained MV-infected cells. One Ab also stained cells transfected with the MV nucleoprotein, and a second Ab stained cells transfected with the MV-fusion protein. This technique demonstrates that functional Abs produced from putative disease-relevant IgG sequences can be used to recognize their corresponding Ags.  (+info)

Subacute sclerosing panencephalitis : CT and MR imaging in a rapidly progressive case. (3/180)

We report the findings on CT and MR imaging in a patient with rapidly progressive subacute sclerosing panencephalitis (SSPE), which correlated with the clinical progression of the disease. In view of the rapid neurological deterioration and CSF pleocytosis, a brain biopsy was done and this confirmed the diagnosis.  (+info)

Cloning the antibody response in humans with chronic inflammatory disease: immunopanning of subacute sclerosing panencephalitis (SSPE) brain sections with antibody phage libraries prepared from SSPE brain enriches for antibody recognizing measles virus antigens in situ. (4/180)

In central nervous system (CNS) infectious and inflammatory diseases of known cause, oligoclonal bands represent antibody directed against the causative agent. To determine whether disease-relevant antibodies can be cloned from diseased brain, we prepared an antibody phage display library from the brain of a human with subacute sclerosing panencephalitis (SSPE), a chronic encephalitis caused by measles virus, and selected the library against SSPE brain sections. Antibodies that were retrieved reacted strongly with measles virus cell extracts by enzyme-linked immunosorbent assay and were specific for the measles virus nucleocapsid protein. These antibodies immunostained cells in different SSPE brains but not in control brain. Our data provide the first demonstration that diseased brain can be used to select in situ for antibodies directed against the causative agent of disease and point to the potential usefulness of this approach in identifying relevant antibodies in chronic CNS or systemic inflammatory diseases of unknown cause.  (+info)

Measles virus-specific IgD antibodies in patients with subacute sclerosing panencephalitis. (5/180)

Indirect immunofluorescent analysis revealed that sera from five patients with subacute sclerosing panencephalitis possessed IgD antibodies directed against measles virus components in persistently infected HeLa cells. IgD levels in these sera were within the normal range. Control studies indicated that the reaction was specific for measles virus. The detection of IgD measles antibodies in these patients suggested that IgD may be involved in the pathogenesis of this viral disease.  (+info)

Analysis of measles virus binding sites of the CD46 gene in patients with subacute sclerosing panencephalitis. (6/180)

Measles virus (MV) binding sites of the CD46 gene were sequenced in patients with subacute sclerosing panencephalitis (SSPE) and in controls. There were 3 novel polymorphisms, including C/T at nucleotide position 38 (C/T38), G/A at position 176 (G/A176), and C/T at position 453 (C/T453), at allele frequencies of.97:.03, .99:.01, and.97:.03, respectively. The G/A176 polymorphism causes an Arg/Gln amino acid change within the essential binding sites of MV, whereas the C/A38 polymorphism causes a Ser/Phe change outside the MV binding sites. The C/T453 polymorphism does not produce an amino acid change. Two of the 40 SSPE patients and 2 of the 32 controls had both C/T38 and C/T453 polymorphisms in heterozygous patterns. One control subject, but no SSPE patients, had the G/A176 polymorphism in a heterozygous pattern. Thus, it is not likely that CD46 gene alteration has a role as a host susceptibility factor in the development of SSPE.  (+info)

Subacute sclerosing panencephalitis presenting as optic neuritis. (7/180)

Subacute sclerosing panencephalitis (SSPE) is a rare progressive neurologic disease affecting both grey and white matter of the brain in children and young adults. One such case which involved the visual system is described here.  (+info)

Subacute sclerosing panencephalitis, a measles complication, in an internationally adopted child. (8/180)

A healthy 13-year-old boy who had spent the first 4.5 years of his life in an orphanage in Thailand before adoption by an American couple became ill with subacute sclerosing panencephalitis and died several months later. The boy had most likely contracted wild-type measles in Thailand. Measles complications are a risk in international adoptions.  (+info)