Feline bocaviruses (FBoVs) have been recognized as novel feline pathogens associated with gastrointestinal diseases. Although bocavirus infections in humans and animals present a broad range of clinical symptoms including neurologic diseases, the neuropathology caused by FBoV infection in cats is unknown. This study aims to investigate the presence of bocavirus in the brain samples of 78 cats showing neurologic deficits and 41 healthy cats using polymerase chain reaction (PCR) and to present the pathological findings of FBoV infection in brain tissues. Only five (6.41%, five out of 78) cats with neurological deficit were FBoV positive on PCR screening and were characterized as FBoV-1 (four out of five) and FBoV-3 (one out of five) by sequencing. Among FBoV-positive cases, viral DNA were detected by PCR in the cerebrum and brain stem of all FBoV-positive cases and rarely detected in the cerebellum of some cases. Histologically, all FBoV-positive cases revealed a variety of inflammatory responses. Among these, 80% (four out of five cases) showed multifocal neuronal vacuolation, mainly found in the cerebrum and brain stem. Eosinophilic inclusion-like materials were found within the nuclei of glial cells in the FBoV-3-positive case. In situ hybridization revealed FBoV DNA in oligodendroglia and vacuolated neurons detected using dual labelling with Olig-2 and NeuN immunohistochemistry, respectively. Transmission electron microscopy confirmed the presence of FBoV-3 virions in the nuclei of glial cells. Apart from localization in brain tissues, the FBoV DNA were also detected in multiple lymph nodes (five out of five) and some intestines (two out of five) of such positive cases, suggesting both parenteral and enteral infections. Complete genome sequence analysis revealed genetic diversity of detected FBoV-1, which were closely related to the strains found in China and Hong Kong, while the detected FBoV-3 presented distant monophyletic clade to previously detected FBoV-3 sequences. The FBoVs, together, should be considered a neurotropic virus and a possible cause for neuronal vacuolation in cats with neurologic deficits.
Keywords: carnivore bocaparvovirus; cat; central nervous system; feline bocavirus; in situ hybridization; transmission electron microscopy.
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