Theiler's murine encephalomyelitis virus induces rapid necrosis and delayed apoptosis in myelinated mouse cerebellar explant cultures.

Infection with the Daniel strain of Theiler's murine encephalomyelitis (TMEV-DA) virus induces persistent demyelinating lesions in mice and serves as a model for multiple sclerosis. During the acute phase of the disease, however, viral infection leads to cell death in vivo. Viral-induced death may result directly from viral infection of neural cells, or indirectly, by activation of the immune system. To examine the direct effects of TMEV infection on neural cells, myelinated explant cultures of the murine cerebellum were infected with 10(5) pfu of TMEV-DA for periods ranging from 1 to 72 h. Our results indicate that TMEV-DA replicates in cultured neural tissue. Initially, viral antigen is localized to a few isolated neural cells. However, within 72 h antigen was observed in multiple foci that included damaged cells and extracellular debris. Viral infection led to a rapid and cyclical induction of necrosis with a time period that was consistent with the lytic phase of the viral life-cycle. Simultaneously, we observed an increase in apoptosis 48 h post-infection. Electron micrographic analysis indicated that viral-infected cultures contained cells with fragmented nuclei and condensed cytoplasm, characteristic of apoptosis. The localization of apoptosis to the cerebellar granule cell layer, identified these cells as presumptive granule neurons. Viral infection, however, did not lead to myelin damage, though damaged axons were visible in TMEV-infected cultures. These results suggest that during the acute phase of infection, TMEV targets neural cells for apoptosis without directly disrupting myelin. Myelin damage may therefore result from the activation of the immune system.

Early diagnosis of familial nephropathy in English cocker spaniels.

Two litters of English cocker spaniels (ECSs) produced by familial nephropathy (FN) carriers were evaluated to characterize the early features of this disease. Three puppies developed FN. Proteinuria, which began when these puppies were five-to-eight months old, was the first abnormality detected. Proteinuria persisted while each puppy's growth rate slowed, and renal function gradually deteriorated. The interval from onset of proteinuria to development of azotemia was two-to-nine months. Characteristic glomerular capillary basement membrane (GCBM) lesions were seen with transmission electron microscopy (TEM) of renal biopsy specimens obtained during this interval. Ultrastructural GCBM lesions progressed substantially during the interval from biopsy to necropsy. However, routine light microscopic findings did not allow definitive diagnosis of FN in either biopsy or necropsy specimens. Detection of FN can be accomplished by screening at-risk ECSs for proteinuria. Renal biopsies are required to confirm the diagnosis in dogs for which proteinuria cannot be explained otherwise. Percutaneous needle biopsy specimens sufficient for TEM must be used to examine the GCBM to make a definitive diagnosis.

Glomerular ultrastructural findings similar to hereditary nephritis in 4 English cocker spaniels.

Renal disease affecting 3 male and 1 female English Cocker Spaniels was studied. Clinical features of the disease included proteinuria and progressive deterioration of renal function. Dogs were 11 to 27 months old when euthanized because of severe chronic renal failure. Grossly, the renal cortices were thin. Light microscopic evaluation revealed diffuse glomerular disease characterized by mesangial thickening, glomerular fibrosis, periglomerular fibrosis, and glomerular obsolescence. Based on these clinical and pathologic features, familial nephropathy of English Cocker Spaniels was suspected despite the fact that the individual dogs were not closely related. On transmission electron microscopy, a distinctive ultrastructural lesion was observed in the glomerular basement membranes (GBM) of all dogs. The GBM exhibited extensive thickening, multilaminar splitting, and fragmentation. Electron dense deposits, suggestive of immunocomplex glomerular disease, were notably absent. A similar ultrastructural GBM lesion is found in human beings and Samoyeds with hereditary nephritis, diseases caused by mutations in the type IV collagen genes. Familial nephropathy in English Cocker Spaniels may be a form of hereditary nephritis caused by a mutation in one of the collagen IV genes.

Disseminated sarcocystosis in a cat with lymphosarcoma.

Cysts of the protozoan Sarcocystis sp were found in skeletal and cardiac musculature in a 1.5-year-old cat with lymphosarcoma. The cat was FeLV-positive and had grossly visible neoplastic involvement of the spinal cord, mediastinum, bone marrow, and kidneys. Ultrastructural examination of the parasitic cyst wall suggested that the species in this case was different from that described in the only other reported case. It was hypothesized that immunosuppression from FeLV infection permitted an aberrant life cycle with encystment of Sarcocystis sp in this cat.

Detection of rotavirus in horses with and without diarrhea by electron microscopy and Rotazyme test.

A total of 142 equine fecal samples (93 field fecal and 49 experimental fecal specimens) were examined for rotavirus using direct electron microscopy (EM) and the Rotazyme test. Eighty-six stool specimens were diarrhea samples. The Rotazyme test sensitivity and accuracy as compared to EM was determined by the visual (color reaction) and spectrophotometric methods. The overall agreement was 94.8% and 92.3% between EM and Rotazyme visual and spectrophotometric methods, respectively when suspect reactions (1 + color reaction or net absorbance between 0.05 and 0.1) were not included. The Rotazyme test is a quick, simple, and accurate diagnostic test for detection of rotavirus in equine fecal samples. It could be used by the equine practitioner with a minimum of laboratory facilities and by diagnostic and research laboratories.