Background
Kadipiro virus (KDV) is a species of the new 12-segmented RNA virus genus
Seadornavirus, which was assigned to the Reoviridae family in the eighth and ninth report of the International Committee on the Taxonomy of Viruses [
1,
2]. The
Seadornavirus genus includes three species, Banna virus (BAV), Kadipiro virus (KDV) and Liao ning virus (LNV). New species have been isolated in recent years, including the Balaton [
3] and Mangshi viruses [
4].
BAV is the prototype species of the genus
Seadornavirus and was first isolated in 1987 from patients with encephalitis in Xishuangbanna prefecture, Yunnan province, China [
5]. To date, BAV has been isolated from mosquito species, humans with encephalitis, pigs, cattle and ticks in Southeast Asia, particularly China and Indonesia [
6,
7]. BAV is an emerging pathogen that causes human viral encephalitis, exhibits rich genetic diversity and great differentiation potential, and does not exhibit a species barrier [
8]. The discovery of LNV, a new virus strain obtained from mosquitoes in China, enriched the variety of the
Seadornavirus genus. LNV was able to replicate not only in mosquito cell lines, but also in mammalian cell lines, and thus may be able to infect mammals [
9]. Phylogenetic analysis show LNV might be an emerging virus that evolved rapidly and is widely distributed in the northern part of China [
10,
11].
KDV was first isolated from
Culex fuscocephalus in Java, Indonesia in 1981 by replication in the C6/36 cell line, grouped into the genus
Coltivirus within the family Reoviridae as the enough genetic information could not be obtained to permit exact classification [
7,
12]. Since then, KDV has also been isolated from
Culex tritaeniorhynchus,
Anopheles sinensis and
Armigeres subalbatus in northwestern Yunnan province, China [
13]. To date, only two full genome KDV sequences have been recorded in GenBank [
14,
15]. Recently, a viral metagenomics study showed that a plasma sample of a febrile adult, who enrolled in a study of acute human immunodeficiency virus type 1 (HIV-1) infection in coastal Kenya, exhibited translated protein matches to KDV virus. This discovery indicated that the tropism of KDV includes humans [
16].
Here, we have isolated a strain of KDV from Anopheles sinensis mosquitoes in Kenli county, Shandong province, China. We describe the isolation and characterization, as well as genomic analyses, of this virus and its phylogenetic relationship with members of Seadornavirus, which will further enrich our understanding of the molecular biological characteristics of KDV and seadornaviruses.
Methods
Mosquito collection
Mosquito samples were collected on September 7, 2016 in residential regions of the village of Dongsui (river estuary town) (37°38′31.94”N, 118°51′41.69”E; altitude, 2 m) in Kenli county, Dongying, in northeast Shandong province, China.
Mosquitoes were collected from a pigsty at night using ultraviolet light traps (12 V; 300 mA; Wuhan Lucky Star Environmental Protection Tech Co., Ltd., Hubei, China). Traps were set from 7:00 pm to 7:00 am, which spanned the period from sunset to sunrise. The captured mosquitoes were frozen at − 20 °C for at least 40 min and identified based on morphology. The adult mosquitoes captured were identified according to morphological keys in Lu Baolin et al. [
17,
18]. The mosquito species were selected on a chilled plate and only female mosquitoes were collected. Approximately 50–100 mosquitoes of the same species were pooled in cryogenic vials and stored in liquid nitrogen until further use [
19].
Virus isolation
Mosquitoes were removed from the liquid nitrogen and immediately homogenized and centrifuged as previously reported [
20]. The supernatants were inoculated in a monolayer of C6/36 or BHK-21 cells in 24-well plates and incubated at 28 °C and 37 °C, respectively. Cells were observed for cytopathic effects (CPEs) every 8 h for 6–7 days after incubation for 24 h. A specimen was regarded as a positive isolate if it caused CPEs in three successive cell passages. Infected cell supernatants were stored at − 80 °C for further analysis.
Virus electron microscopy
For negative staining, cell culture supernatants were absorbed on Formvar and carbon-coated grids for 1 min and stained with 1% (w/v) phosphotungstic acid (pH 6.8) for 1 min. Grids were air dried and observed under a Tecnai 12 transmission electron microscope (FEI, Eindhoven, Netherlands).
For ultrathin sections, cell pellets were fixed in a solution of 2% formaldehyde and 2.5% glutaraldehyde, post-fixed in 1% osmium tetroxide, dehydrated in an ethanol gradient, embedded in epoxy resin, and polymerized at 60 °C for 24 h. Ultrathin sections (80 nm) were obtained from the resin blocks, mounted on copper grids, and stained with uranyl acetate and lead citrate. Finally, the ultrathin sections were observed using transmission electron microscopy.
Polyacrylamide gel electrophoresis (PAGE)
RNA was subject to PAGE on a discontinuous system with 5% acrylamide (acrylamide/bisacrylamide 29:1; Bio-Rad Laboratories, Hercules, CA, USA) stacking gel (with Tris-HCl buffer, pH 6.8) and 8% acrylamide resolving gel (with Tris-HCl buffer, pH 8.8). Following electrophoresis, the gel was stained with a Protein Silver Stain Kit (Leagene, Beijing, China) according to the manufacturer’s instructions and observed under white light. The KDV YN0557 was selected as positive control [
13].
Viral RNA was extracted from specimens with positive CPEs using the QIAamp Viral RNA Mini Kit (Qiagen, Valencia, CA, USA). Complementary DNA (cDNA) synthesis was performed using Ready-to-Go RT-PCR Beads (Amersham Biosciences Co., Piscataway, NJ, USA). Viral cDNA was subjected to PCR amplification with primers targeting the 12th segment of KDV [
13] (KDV-12-F: 5’-GACGCTTTGAGATTATCTCGAC-3′, KDV-12-R: 5’-GCTCAATCGCATTCTCACC-3′) and GoTaqGreen Master Mix. PCR products were sequenced using BigDye Terminator chemistry (Applied Biosystems, Foster City, CA, USA).
Deep sequencing
The library was prepared using NEBNext Ultra RNA Library Prep Kit for Illumina (New England Biolabs, Hitchin, UK). The library was quantified on Qubit 3.0 fluorometer and Agilent Bioanalyzer 2100. Paired-end sequencing (2 × 250 base pairs) was performed on an Illumina MiSeq v2 platform. For analysis, reads were filtered based on their length and mean quality values (Q30). KDV sequence reads were mapped against the published sequence. Mapping was performed using the Burrows-Wheeler aligner-MEM program [
21]. The complete nucleotide sequences of the viruses reported in this study have been submitted to the GenBank database under accession numbers MG590140-MG590151.
Phylogenetic analysis
Phylogenetic analysis was conducted based on the protein sequence deduced from the conserved RNA-dependent RNA polymerase gene of selected BAV, LNV and KDV. A multiple sequence alignment matrix was created using ClustalW software (
http://clustalw.ddbj.nig.ac.jp/) with default settings. The aligned matrix data were confirmed manually, and the amino acid sequences were analyzed using the maximum-likelihood method. The statistical significance of the resulting tree was evaluated using a bootstrap test with 1000 replicates.
Discussion
KDV is a member of the genus
Seadornavirus, family Reoviridae. There are three species of viruses in this genus: BAV, KDV and LNV. Each of these viruses has been isolated from
Aedes,
Anopheles and
Culex mosquito populations, but only BAV has been shown to cause infection in humans [
9,
23]. KDV has been isolated from
Culex,
Anopheles,
Armigeres and
Aedes mosquitoes in Indonesia, and from
Culex,
Anopheles and
Armigeres mosquitoes in China [
13]. This range includes the tropics and subtropics. Here, we isolated the SDKL1625 from
Anopheles sinensis mosquitoes in Shandong province in eastern China. This is the first time KDV has been isolated from the northern temperate zone.
The genome of SDKL1625 shows variation compared with the previously discovered KDV isolates QTM27331 and JKT-7075. Phylogenetic analysis showed that SDKL1625 was more closely related to QTM27331 (Odonata, China, 2013) than to JKT-7075 (
Culex fuscocephalus, Indonesia, 1981). SDKL1625 was isolated from
Anopheles sinensis mosquitoes in China, which have similar origin but a greater genetic distance from JKT-7075. Indeed, SDKL1625 and QTM27331 collected in China have high degrees of sequence identity. Although QTM27331 was isolated from Odonata, we don’t consider Odonata as the natural host of KDV just because mosquitoes belong to the diet of the Odonata. Previous KDV isolates from Yunnan province were cultured with cell lines and characterized morphologically, however, the full genome was not sequenced [
13]. The sequence data in this study represent the first complete genome sequence of KDV isolated in China. A recent study of a plasma sample from a febrile adult indicates that the tropism of KDV includes humans [
16]. Thus, it will be important to conduct further investigation of KDV, and in particular, the association between KDV and human diseases.
Mosquito-borne viruses, such as BAV and LNV, were originally discovered in one location, but later, more extensive surveys provided a more accurate representation of the distributions of these viruses. BAV was first isolated in Yunnan province in 1987 [
5], and isolates including three genera and 10 species have now been obtained from mosquitoes in various provinces of China (Gansu, Shanxi, Liaoning, Yunnan and Beijing) [
8]. LNV was first isolated in Jilin province but additional isolates were later obtained from several regions in northern China [
10]. KDV has now been isolated in both northern and southwestern China, suggesting that the distribution of KDV in China was originally underestimated.
This study described the isolation and characterization, as well as genomic analyses, of KDV SDKL1625 and its phylogenetic relationship with members of the genus Seadornavirus. These discoveries have enriched our knowledge of the distribution of KDV in China, and prompted further arbovirus investigation. Serologic screening should be conducted to determine the presence, prevalence and distribution of KDV.
Conclusions
We describe the isolation, genome sequencing and characterization of the Kadipiro virus during arbovirus investigation in Shandong province. The genome of SDKL1625 revealed that the isolated virus was genetically close to strain isolated from Odonata in China. The sequence data in this study represent the first complete genome sequence of KDV isolated in China, which will further enrich our understanding of the molecular biological characteristics of KDV and seadornaviruses as well as the distribution of KDV in China.
Acknowledgments
We thank Han Yujie from Kenli County Center for Disease Control and Prevention for assistance with the mosquito collection.
Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (
http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (
http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.