Demyelination precedes oligodendrocyte loss in canine distemper virus-induced encephalitis

Canine distemper virus (CDV), a negative-stranded RNA morbillivirus, causes a persistent infection within the central nervous system resulting in a progressive, multifocal demyelinating disease. Demyelination is thought to be caused by a selective alteration of the myelin-producing oligodendrocytes. Metabolic impairment and morphological changes of the oligodendrocytes after CDV infection have previously been observed in vitro as well as in vivo. Until now it has been suggested that the oligodendrocytes completely disappear from CDV-induced demyelinating lesions. However, ultrastructural analysis in brain tissue sections and immunohistochemical examination of oligodendrocytes in dog brain cell cultures contradicted these observations. In this study oligodendrocytes from different categories of CDV-induced lesions were examined by in situ hybridization for proteolipid protein mRNA and--as a new tool employed on canine brain tissue sections--by immunohistochemistry using a monoclonal antibody against 2',3'-cyclic nucleotide 3'-phosphodiesterase, a myelin-specific enzyme. A down-regulation in the myelin gene transcription was detected already before demyelination occurred. However, a decrease in the number of oligodendrocytes was not observed until demyelination became evident. Although there was further depletion of oligodendrocytes in plaques with progressive demyelination, we demonstrated for the first time that these cells were still present in a significant amount even in chronic, completely demyelinated distemper lesions.

DNA vaccine encoding nucleocapsid and surface proteins of wild type canine distemper virus protects its natural host against distemper

Canine distemper virus (CDV), a member of the genus Morbillivirus induces a highly infectious, frequently lethal disease in dogs and other carnivores. Current vaccines against canine distemper consisting of attenuated viruses have been in use for many years and have greatly reduced the incidence of distemper in the dog population. However, certain strains may not guarantee adequate protection and others can induce post vaccinal encephalitis. We tested a DNA vaccine for its ability to protect dogs, the natural host of CDV, against distemper. We constructed plasmids containing the nucleocapsid, the fusion, and the attachment protein genes of a virulent canine distemper virus strain. Mice inoculated with these plasmids developed humoral and cellular immune responses against CDV antigens. Dogs immunized with the expression plasmids developed virus-neutralizing antibodies. Significantly, vaccinated dogs were protected against challenge with virulent CDV, whereas unvaccinated animals succumbed to distemper.

Nuclear DNA fragmentation and immune reactivity in bovine spongiform encephalopathy

To investigate whether apoptosis contributes to neuronal degeneration in bovine spongiform encephalopathy (BSE), morphological changes consistent with apoptosis were sought and in-situ end labelling (ISEL) was applied, in a series of 20 BSE cases and 10 age-matched normal control cattle. Apoptotic changes were not found in neurons but were occasionally seen in glial cells. Relatively few ISEL-positive neurons were found, but many labelled nuclei were seen in glial cells in certain areas. None of the labelled cells showed morphological features of apoptosis. ISEL(+)cells occurred in areas of spongiform change and other areas of grey matter lacking spongiform change. Some association was found between degree of cellular DNA fragmentation and accumulation of abnormal prion protein (PrP(Sc)). Interestingly, small or moderate numbers of T lymphocytes, not present in the normal central nervous system (CNS), were detected in the CNS parenchyma in most BSE cases. There was a pronounced astrogliosis, but markers of macrophage or microglial activation were only slightly increased. The results indicate that nuclear DNA vulnerability is enhanced in certain neuroanatomical areas in BSE, but evidence that apoptosis plays a role in neuronal loss in BSE was very limited. 1999 Harcourt Publishers Ltd.

Oligodendroglial degeneration in distemper: apoptosis or necrosis?

Canine distemper virus (CDV) causes a multifocal demyelinating disease in dogs. It was previously shown that the initial demyelinating lesions are directly virus induced since a correlation between the occurrence of demyelination and CDV replication in white matter cells was observed. During the course of infection oligodendrocytes undergo distinct morphological alterations, partly due to a restricted CDV infection of these cells, and eventually disappear from the lesions. This phenomenon has been described in vivo as well as in vitro. However, the reason for the morphological alterations and the following oligodendroglial depletion remained unclear. Since virus infection can induce cell death, it was investigated whether apoptosis or necrosis plays a role in the pathogenesis of demyelination in canine distemper. In brain tissue sections from dogs with acute distemper apoptotic cells were not detected within the demyelinating lesions using morphological and biochemical cell death criteria. In chronic distemper, apoptotic cells - presumably inflammatory cells - were seen within the perivascular cuffs. These in vivo findings were correlated to the in vitro situation using CDV-infected primary dog brain cell cultures as well as Vero cells. Infection with culture-adapted CDV lead to massive necrosis but not to apoptosis. After infection with virulent CDV neither apoptosis nor necrosis was a predominant feature in either culture system. These findings suggest that virus-induced demyelination in canine distemper is not the direct consequence of apoptosis or necrosis. It is speculated that another mechanism must be responsible for the observed morphological alterations of oligodendrocytes, ultimately leading to demyelination.