Feline morbillivirus infection associated with fatal encephalitis in a Bengal cat
Abstract
Feline morbillivirus (FeMV) is a recently discovered morbillivirus of the family Paramyxoviridae, which include several highly contagious viruses with zoonotic potential. In this case report we describe the detection of FeMV in archived brain tissue of a 2-month-old Bengal cat with nonsuppurative encephalitis from the year 2011 in Switzerland by high-throughput sequencing (HTS). Our metagenomics approach was able to obtain a full-length sequence covering the entire FeMV genome. Phylogenetic analysis showed that our FeMV strain clustered within FeMV genotype 1. We were able to detect FeMV RNA by in situ hybridization (ISH) in brain sections with inflammatory lesions and demonstrated its potential neurotropism and association with encephalitis. Our results provide further insight into this recently discovered morbillivirus and encourage further investigations into the pathogenesis and epidemiology of associated diseases in cats and potentially other species.
Abbreviations
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- F
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- fusion glycoprotein
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- FeMV
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- feline morbillivirus
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- FFPE
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- formalin-fixed and paraffin embedded
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- HTS
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- high-throughput sequencing
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- ISH
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- in situ hybridization
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- N
-
- nucleoprotein
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- P
-
- phosphoprotein
1 INTRODUCTION
The genus Morbillivirus of the family Paramyxoviridae includes various viruses responsible for highly contagious diseases in humans and animals, such as measles virus, rinderpest virus and canine distemper virus.1 A novel morbillivirus, feline morbillivirus (FeMV), was discovered in stray cats in Hong Kong and mainland China in 2012.2 The FeMV genome is a single-stranded, negative sense RNA with a genome size of approximately 16 kB.2 Since its discovery, it has been reported in domestic cats worldwide, mostly detected in urine samples.3 A causative association between FeMV infection and chronic kidney disease in cats has been proposed but remains uncertain.3 Recently, experimental FeMV infection in cats resulted in an acute morbillivirus-like disease targeting immune cells at early stages and the kidney at later stages.4 Although in other host species several morbilliviruses show a strong neuronal tropism associated with acute and persistent encephalitis, it is unknown whether this tropism also applies to FeMV.5 Here, we report a case of a Bengal cat with fatal encephalitis in association with FeMV brain infection, emphasizing the neurovirulent potential of FeMV.
2 CASE PRESENTATION AND DISCUSSION
In 2011, a 2-month-old female Bengal cat was admitted to a veterinary practice in the Canton of Ticino, Switzerland. The kitten was underweight and received initial medical treatment including an antiparasitic, antibiotics and corticosteroids. In the following days however, the neurological condition of the kitten rapidly deteriorated with apathy, stupor, anisocoria and aggressive behavior. None of the siblings nor the queen was sick. Because of lack of improvement, the kitten was euthanized, and the brain was removed and submitted to the Division of Neurological Sciences of the Vetsuisse Faculty of Bern for further neuropathological investigations. Histopathology identified an unusually mild lymphocytic inflammation of the brain associated with neuronal degeneration and necrosis consistent with an acute viral infection. Lesions were most prominent in the thalamus, basal ganglia, hippocampus, and brainstem. We also observed inclusion bodies in the soma of neurons. We performed further etiologic investigations by immunohistochemistry (rabies virus, canine distemper virus, tick-borne encephalitis virus [in 2011]) as well as reverse transcription PCR (rustrela virus and Borna disease virus 1 [in 2022]) and all were negative (Supplemental Information). We extracted total RNA from formalin-fixed and paraffin embedded (FFPE) brain material, prepared a cDNA library and sequenced it at a read depth of approximately 130 M reads with 100 cycles in single-end mode (Supplemental Information). We analyzed the sequencing data using an in-house virus discovery bioinformatics pipeline (Supplemental Information) and found a viral hit for FeMV. By de novo assembly, we generated a contiguous sequence of 16,050 nucleotides (nt; read depth 347×) corresponding to a full FeMV genome. A nucleotide BLAST search identified the highest similarity with the FeMV strain “SS1” isolated from domestic cats in Japan in 2014, with an overall high nucleotide identity of 97.1%.6 Pairwise identity on amino acid level ranged from 98.2% to 99.4% (Table S2). We designated this strain as FeMV Locarno/CH2011 (GenBank accession no. OR086108). Typical for morbilliviruses, the FeMV Locarno/CH2011 genome fulfills the “rule of 6” (ie, it is a multiple of 6 nt). It is comprised of 6 nonoverlapping genes (3′-N, P/V/C, M, F, H, L-5′) that encode for 6 structural proteins and 2 additional nonstructural proteins overlapping the phosphoprotein (P).1 Phylogenetic analysis showed clustering of FeMV Locarno/CH2011 with FeMV strains of genotype 1 (Figures 1 and S1). In contrast to other morbilliviruses, but in agreement with previously reported FeMV, the fusion (F) glycoprotein lacks a polybasic furin cleavage signal but has a single basic residue at the putative cleavage site within the F protein (Figure 2).4 Instead of furin, cathepsin has been found to cleave the FeMV F protein, a feature that is characteristic of the closely related zoonotic and neuropathogenic henipaviruses.4
We performed in situ hybridization (ISH) using a probe targeting the nucleoprotein (N) gene of FeMV and detected an abundance of FeMV RNA in the soma of neurons and astrocytes (Figure 3). Notably, we observed strong ISH signals despite mild inflammation. The inadequate immune response might have been an effect of the immunosuppressive properties of FeMV and could have been further accentuated by medical treatment with corticosteroids. Although there have been no reports on FeMV associated with encephalitis in cats so far, investigations of the cellular tropism of FeMV indicated its potential to infect primary brain cells of cats in vitro.7 Overall, our data provide plausible evidence for a causative association between FeMV infection and encephalitis in cats.
3 CONCLUSION
Morbilliviruses are a major threat to human and animal health and some have a high potential for cross species transmission.1 Our results contribute to a better awareness of FeMV as a viral and presumptive neurotropic pathogen in cats. It is important to increase our understanding of the associated host and pathogen factors that are involved in FeMV pathogenesis and the epidemiology of associated diseases in cats and potentially other species.
ACKNOWLEDGMENT
No funding was received for this study. The authors thank Elsbeth Keller-Gautschi, Camille Monney, Weda Hoffmann and Ole Pietsch for technical support, and the Next Generation Sequencing Platform of the University of Bern for performing the high-throughput sequencing experiments. The authors thank Philippe Plattet for his expert advice on Morbilliviruses.
CONFLICT OF INTEREST DECLARATION
Authors declare no conflict of interest.
OFF-LABEL ANTIMICROBIAL DECLARATION
Authors declare no off-label use of antimicrobials.
INSTITUTIONAL ANIMAL CARE AND USE COMMITTEE (IACUC) OR OTHER APPROVAL DECLARATION
Authors declare no IACUC approval was needed. Owners of the animals of which tissue samples were used retrospectively in this study provided informed consent for the use of these materials for research purposes.
HUMAN ETHICS APPROVAL DECLARATION
Authors declare human ethics approval was not needed for this study.
