The first evidence of shaking mink syndrome-astrovirus associated encephalitis in farmed minks, China.

A novel neurological disorder, shaking mink syndrome (SMS), emerged in Denmark and Sweden in 2000. SMS has seldom been reported in China, but the causative agent has not been detected in the country. SMS outbreaks occurred in multiple provinces in 2020. A total of 44 brain samples from minks associated with SMS were collected from Heilongjiang, Liaoning and Shandong provinces of which 28 samples (63.3%) were SMS-astrovirus (SMS-AstV)-positive by reverse transcription PCR. Histopathological examination revealed non-suppurative encephalitis in three minks. Moreover, the complete coding region sequences (CDSs, 6559 bp) of a sample collected from a 2-month-old mink (termed SMS-AstV-H1, GSA accession No. SAMC816786) were amplified by PCR and Sanger sequencing. The complete CDS and open reading frame 2 sequences of SMS-AstV-H1 were 94.3% and 96.4% identical to an SMS-AstV strain (GenBank accession number: GU985458). Phylogenetically, SMS-AstV-H1 was closely related to an SMS-AstV strain (GU985458). Based on the above results, we describe SMS-AstV-associated encephalitis in farmed minks in China. Future studies need to focus on epidemiology, virus isolation and potential interspecies transmission of SMS-AstV.

Highly Pathogenic Swine Getah Virus in Blue Foxes, Eastern China, 2017.

We isolated Getah virus from infected foxes in Shandong Province, eastern China. We sequenced the complete Getah virus genome, and phylogenetic analysis revealed a close relationship with a highly pathogenic swine epidemic strain in China. Epidemiologic investigation showed that pigs might play a pivotal role in disease transmission to foxes.

Rapid Visual Detection of Getah Virus Using a Loop-Mediated Isothermal Amplification Method.

Getah virus (GETV) is a mosquito-borne alphavirus that is considered to be an emerging pathogen. To date, reverse transcription loop-mediated isothermal amplification (RT-LAMP) has not been used to detect GETV. Therefore, we describe a novel, fast, and sensitive LAMP method to detect GETV. Amplification of GETV RNA can be obtained within 50 min at 65°C. This RT-LAMP method was verified to be highly specific for GETV, with no cross detection of other viruses. The assay was 103 and 101 times more sensitive than RT-PCR and RT-qPCR, respectively, for the detection of GETV RNA. This novel RT-LAMP method provides a practical and economical alternative for detecting GETV in mosquitoes and serum samples that can be used even in the field.

Development of a TaqMan probe-based quantitative reverse transcription PCR assay for detection of Getah virus RNA.

Getah virus (GETV), a mosquito-borne virus that mainly infects horses and pigs, has emerged and spread in China. We developed a highly specific and reproducible TaqMan probe-based quantitative reverse transcription PCR (RT-qPCR) assay targeting the non-structural protein 1 of GETV, whose detection limit is 25.5 copies/µL, which is 100-fold higher than that of conventional RT-PCR. RT-qPCR was used to detect GETV RNA in mosquito and animal clinical samples, showing that the accuracy of RT-qPCR was higher than that of conventional RT-PCR. The newly developed RT-qPCR assay may be a useful alternative tool for rapid, simple and specific diagnosis of GETV infection.

Outbreak of severe pseudorabies virus infection in pig-offal-fed farmed mink in Liaoning Province, China.

An outbreak of severe pseudorabies virus (PRV) infection in farmed mink occurred in northern China in late 2014, causing significant economic losses in the local fur industry. Here, we report the first case of a PRV outbreak in mink in northeastern China, caused by feeding farmed mink with raw pork or organs contaminated by PRV. Mink infected with virulent PRV exhibited diarrhea, neurologic signs, and higher mortality, which can be misdiagnosed as highly pathogenic mink enteritis virus (MEV), canine distemper virus (CDV), and food poisoning. However, these were excluded as causative agents by PCR or bacteria isolation. The duration of disease was 3-7 days, and the mortality rate was 80-90%. PRV was characterized using indirect immunofluorescence assays (IFA) and electron microscopy (EM). Phylogenetic analysis based on full-length genome sequences and those of individual genes of this novel virus strain showed that it clustered in an independent branch with several other PRV isolates from China.

Development of Reverse Transcription Loop-Mediated Isothermal Amplification for Rapid Detection of Batai Virus in Cattle and Mosquitoes.

Batai virus (BATV) is an arthropod-borne single-stranded RNA virus belonging to the genus Orthobunyavirus of the family Bunyaviridae that is primarily transmitted by mosquitoes. Methods for detecting BATV are currently limited to serological surveillance, virus isolation, and conventional reverse transcription-polymerase chain reaction (RT-PCR) assay. In this study, we sought to develop a BATV detection assay that needs no specialized equipment and is highly specific, sensitive, and simple. We first developed and optimized a reverse transcription loop-mediated isothermal amplification (RT-LAMP) for rapid detection of BATV that uses two pairs of primers to amplify a conserved region of the BATV M gene. The optimal reaction conditions for this RT-LAMP BATV detection assay were 40 min at 65°C. The amplification products could be visualized directly for color changes. This RT-LAMP method has a detection limit of 2.86 copies/µL and a sensitivity that was approximately 10- and 100-fold greater than real-time and conventional RT-PCR, respectively. RT-LAMP for BATV detection showed no cross-reactivity with other viruses and its sensitivity was validated with cattle blood and mosquito specimens. Our results suggest that this RT-LAMP method was simpler and faster than conventional RT-PCR or real-time RT-PCR. Moreover, RT-LAMP represents a potential tool to test for BATV in clinical and mosquito samples, especially in rural areas of China. This method also shows promise as a diagnostic tool due to its rapid and sensitive detection without the need for sophisticated equipment or complicated protocols.