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    PATHOLOGICAL CHANGES AND ETIOLOGICAL DIAGNOSIS IN FARMED ADULT RAINBOW TROUT (ONCORHYNCHUS MYKISS) ASSOCIATED WITH A LOW MORTALITY

    2016-11-24 05:27:04FANWeiDUANYaJiaoHUANGXiaoLiDENGYongQiangDUZongJunGENGYiCHENDeFangandWANGKaiYu
    水生生物學(xué)報 2016年2期

    FAN Wei, DUAN Ya-Jiao, HUANG Xiao-Li, DENG Yong-Qiang, DU Zong-Jun, GENG Yi, CHEN De-Fangand WANG Kai-Yu

    (1. Department of Aquaculture, Sichuan Agricultural University, Chengdu 611130, China; 2. Sichuan Provincial Center for Animal Disease, Prevention and Control, Chengdu 611130, China; 3. College of Animal Science and Veterinary Medicine,Sichuan Agricultural University, Chengdu 611130, China)

    PATHOLOGICAL CHANGES AND ETIOLOGICAL DIAGNOSIS IN FARMED ADULT RAINBOW TROUT (ONCORHYNCHUS MYKISS) ASSOCIATED WITH A LOW MORTALITY

    FAN Wei1, DUAN Ya-Jiao1, HUANG Xiao-Li1, DENG Yong-Qiang2, DU Zong-Jun1, GENG Yi3, CHEN De-Fang1and WANG Kai-Yu3

    (1. Department of Aquaculture, Sichuan Agricultural University, Chengdu 611130, China; 2. Sichuan Provincial Center for Animal Disease, Prevention and Control, Chengdu 611130, China; 3. College of Animal Science and Veterinary Medicine,Sichuan Agricultural University, Chengdu 611130, China)

    Infectious haematopoietic necrosis (IHN) is a severe infectious disease in a variety of salmonids such as sockeye salmon (Oncorhynchus nerka) and rainbow trout (Oncorhynchus mykiss), and leads to necrosis in the haematopoietic organs and tissues including kidney and spleen and causes up to 100% mortality in larvae salmons. However, it can also infect adult trout and cause lower mortality. In September 2014, an outbreak emerged in a trout farm in Chongzhou, Sichuan Province, with about 30% cumulative mortality in 2-years rainbow trout (Oncorhynchus mykiss). Gross findings included dark skin color, hemorrhagic spots in muscle and abdominal wall. Histopathology showed severe necrosis in the hematopoietic tissues including spleen and interstitial kidney. A multiplex RT-PCR method was conducted to detect IHNV, VHSV and IPNV of fish tissues and cell culture. Only a 371 bp segment was amplified which was confirmed as an IHNV gene through sequencing and phylogenetic tree. Furthermore, the obvious cytopathic effect (CPE) was observed in epithelioma papulosum cyprini (EPC) cells inoculated with tissue filtrates. And 20 rainbow trouts (1.5 kg mean weight)4TCID50per mL, and the cumulative mortality reached 35% within 10 days. No bacteria and parasites were detected in the case. All the results demonstrated that it was due to IHNV infection in spite of the low mortality.

    a 0.5 mL i.p. injection of the tissue filtrate of 10

    Rainbow trout; Adult fish; IHNV; Dagnosis; Low mortality; Pathological change

    Infectious haematopoietic necrosis (IHN) is a disease in fish that leads to necrosis in the haematopoietic organs and tissues including kidney and spleen, which was first reported and named by Amend[1]. It usually isolated from a variety of salmon such as sockeye salmon (Oncorhynchus nerka)and rainbow trout (Oncorhynchus mykiss), which is the most susceptible species to the virus[2-4].

    The first outbreak of IHN was reported in the United States at Washington and Oregon fish hatcheriesin 1953[5]. Probably due to the commercial sale of eggs and fish which are infected, the virus was spread to Japan from Alaska in 1960s[6]. Subsequently, it was reported in France and Italy in 1987[7,8]. The infection of IHNV in China is due to the importing eggs from Japan and spreading to the northeast of China as early as 1985. It’s until 1990 that the virus was first isolated in Benxi, Liaoning Province[9]. IHNV was found in farmed halibut, rainbow trout and the imported paddlefish eggs in 2006[10]. Furthermore, it was also found by other researchers in China after 2010[11-13]. So far, 25-28 million eggs and 16000 tons of marketable fish which were 0.77% of the whole world production were produced by the main representative breeding area including Beijing,Jiangsu, Qinghai and Yunnan[14,15], but China has to import more than 10000 tons Atlantic salmon to meet the needs of the market every year[16]. And now, thefarming industry of Salmonidae is one of main cold water fish industry in China, the IHN pose a significant threat to the farming industry of salmonids in China.

    Brief introduction of author: Fan Wei (1990—), E-mail: 379690242@qq.com

    In this case report, we described the diagnostic evaluation of IHNV in adult rainbow trout that were submitted from a rainbow trout farm in Chongzhou,Sichuan Province in September 2014, with cumulative mortality about 30%. Analysis and diagnosis were performed following by necropsy, pathology,bacteriology and virology. Diagnostic investigation revealed that the rainbow trout were suffering from a systemic viral infection caused by IHNV. This suggested that IHN is an emmerging epizootic in farmed adult salmonids in China and our findings would provide a full consideration for the prevention of the disease in China.

    1 Methods

    1.1 Necropsy

    Five adult rainbow trout, 4 live and 1 freshly died, from a Salmonid farm in Chongzhou, Sichuan Province in September, were submitted to our laboratory in SCAU for necropsy. The weight of the five fish was between 1.5 to 2 kilograms with a length of 50 to 60cm in size. The live fish were euthanized by using an overdose of MS-222. Firstly, all fish were examined the parasites of the gill and skin, subsequently, the examinations include gross external, internal lesions and content of the alimentary tract.

    1.2 Histopathology

    All the tissues for histopathology were collected and fixed immediately in 10% Neutral Buffered Formalin (1∶10 ratio of tissue to fixative): The tissues include gill, brain, eye, kidney, spleen, heart, liver, nares, gonad, esophagus, stomach, intestine, pyloric caeca, pancreas and body wall. Decalcified the bone and the cartilage (cranium, eye, body wall, and gill) by immersion for 24 hours in a commercially avai- lable decalcification fluid.

    After the decalcification, these tissues were trimmed into cassettes, dehydrated in graded ethanol solutions, cleared in xylene, and embedded in paraffin wax. Tissues were cut to 5 μm and stained with hematoxylin and eosin (HE).

    1.3 Bacteriology and Virology

    A sterile swab of the kidney was provided at necropsy for routine bacteriology from each fish. Growing on blood agar at both 15℃ and 22℃. For virological examination, samples of these fish including heart, liver, spleen, kidney, pyloric caeca, intestine, gill and muscle were collected and stored at -80℃ immediately. Tissues including kidney and spleen were homogenized in a Stomacher with Hanks’ balanced salt solution (HBSS), and centrifuged at 3000 g for 20min. The supernatant was filtered through a 220 nm membrane filter, and 100 μL of the filtrate was used to inoculate to epithelioma papulosum cyprini (EPC) cells at 15℃. The cytopathic effects (CPE) was checked under microscopy daily.

    Tissues were also tested for infectious pancreatic necrosis virus (IPNV), viral haemorrhagic septicaemia virus (VHSV) and IHNV by a multiplex reverse transcription-PCR (RT-PCR) method. The specific primers of these 3 virus had been developed previously[17]. Primers IHN-F and IHN-R recognize a 371 bp cDNA fragment within the N gene of IHNV. Primers VHSV-F and VHSV-R amplify a 625 bp cDNA fragment within the G gene of VHSV, Primers of IPNV recognize a 206 bp cDNA fragment within the VP2 gene of aquatic birnaviruses[18]. All these primers are put in table 1.

    1.4 RNA extraction

    Total RNA was extracted from tissues and infected cell culture by using the RNAiso Plus (TaKaRa,Dalian, China) according to the manufacturer’s protocols. Pulverizing the Mixing frozen tissues including kidney, head kidney, pyloric caeca, spleen, liver,heart, gill and muscle with liquid nitrogen, Samples were stored at -80℃ for RNA extraction subsequently.

    1.5 RT-PCR amplification

    Approximately 2 μg of total RNA was used for cDNA synthesis using the PrimerScript RT reagent Kit (TaKaRa, Dalian, China) with the manufacturer’s standard protocol. It performed with 10 μL of reverse transcribed cDNA in a 50 μL reaction mixture which consists of 25 μL of 10×PCR buffer (TaKaRa, Dalian,China), 3 μL ddH2O and 2 μL each primer, followed by cooling to 37℃ for 15min, 85℃ 15s. A multiplex RT-PCR assay was performed for detection of IPNV,VHSV and IHNV. The PCR protocol: initial denaturation at 94℃ for 4min, denaturation at 94℃ for 30s,annealing at 60℃ for 30s, extension at 72℃ for 90s,and final extension at 72℃ for 10min. The PCR products were confirmed by 1% Agarose gels, which contains 8 μL of ethidium bromide per 100 mL in 1× TAE electrophoresis buffer (40 mmol/L Tris, 20 mmol/L acetate, 2 mmol/L EDTA).

    Tab. 1 Primers of IHNV, VHSV and IPNVs[19]

    1.6 DNA Sequencing and Phylogenetic Analysis

    The PCR amplifications were sent to a commercial sequencing facility (TaKaRa, Dalian, China). The generated sequences were compared with other IHNV sequences from NCBI’s GenBank sequence database using a Blast search algorithm. Genetic distances between each pair of sequences were calculated by Molecular Evolutionary Genetics Analysis ver. 5 (MEGA5), including all current available IHNV sequences of the N gene. Phylogenetic analysis was conducted using the neighbor-joining program with 1000 boot-strapped replicates. And the sequences were submitted to GenBank.

    1.7 Animal infection assay

    40 rainbow trout (1.5 kg mean weight) without IHNV were maintained in 2 tanks that received single-pass water at a temperature about 15℃. Fish were fed twice daily with a commercial rainbow trout diet. All fish were divided in two groups (group A and B) of 20 fishes each. Group A received 0.5 mL of saline (0.85%) intraperitoneal (i.p.) injection. Group B received a 0.5 mL i.p. injection of the tissue filtrate of 104TCID50per mL. Tissues (liver, kidney and spleen) from the dead fish were collected for virus isolation and RT-PCR detection.

    2 Result

    2.1 Necropsy Findings

    Gross pathological changes of all five fish showed obvious black skin color. Wet mount evaluations of the gills from the four live fish were found to be negative for parasites. All five fish showed apparent internal changes as specified below. Three fish presented on slight muscle spotted hemorrhage and severe on abdominal wall. Two fish showed splenomegaly and unsmooth surface of spleen. What is more, it was filled with bile-stained mucus with no food in the intestinal tract. Only one fish showed obvious nephrorrhagia.

    2.2 Histopathology Findings

    All the five fish showed multi-tissues and systematic marked lesion especially in spleen and kidney and also some mild changes in liver and intestines. All the tissue sections of trunk kidney showed interstitial hemopoietic cells decreased with marked,focal or fusion necrosis (Fig. 1D). Tissue sections of spleen also showed marked necrosis, focal or bridging with infiltrated inflammatory cells (Fig. 1C). However, liver sections from fish showed mild necrosis with white blood cells around or in blood vessels (Fig. 1A and B). Mild inflammatory cells infiltrated in intestinal submucosa. No significant morphological changes were found in brain and heart. No obvious organisms were seen in any of tissues.

    2.3 Examination of bacteriology and virology

    Fig. 1 Pathological lesions in infected rainbow trout tissues

    No parasites were found in the wet mounts and no colony was seen in any of these BA plates. All thefish were found to be free of significant bacterial and parasitic agents. However, tissue filtrates from kidney and spleen produced CPE in epithelioma papulosum cyprini (EPC) cells at 15℃. This demonstrated virus was considered to be the pathogen of the case(Fig. 2).

    Fig. 2 Cytopathic effects (CPE) produced by inoculation of epithelioma papulosum cyprini (EPC) cells with tissue filtrate from diseased rainbow trout

    2.4 Multiplex RT-PCR

    Two 371 bp target brands were amplified from fish tissues and cell culture (Fig. 3). No specific brands of 206 bp or 625 bp for IPNV or VSHV were amplified. It referred to IHN once more according to the RT-PCR result.

    Fig. 3 Typical agarose gels showing simultaneous RT-PCR identification of IHNV, VHSV and IPNV

    2.5 DNA Sequencing and Phylogenetic Analysis

    The RT-PCR product was sequenced and submitted to NCBI (accession number: KP117310). A GenBank BLAST search using the sequenced PCR products revealed a 93.8%—98.1% sequence identity to IHNV (Fig. 4). Phylogenetic tree showed KP117310 had the highest homology with the other two strains isolated from China earlier.

    2.6 Animal infection assay

    Clinical symptoms could be seen fish in group B in the second day, and the highest mortality occurred in the fourth day. The cumulative mortality of group B reached 35% within 10 days, while no mortality could be found in group A. Internal organs and muscle tissue from dead fish were collected for RTPCR detection. The results showed that 371 bp for IHNV purpose segment from individual dead fish of group B were amplified while samples from group A were negative. The results unequivocally demonstrated that the adult rainbow trout with low mobility were caused by IHNV.

    3 Discussion

    Infectious hematopoietic necrosis virus (IHNV)is a serious pathogen easily locating in cultured, wild,juvenile salmonids and producing an acute systemic disease. The main spread route of IHNV is water. IHNV could spreads between fry and juvenile.

    It was hypothesized that the disease was most likely IHN through necropsy and pathology findings. For gross pathology found dotted hemorrhage in muscle, obvious splenomegaly and histopathology found marked necrosis in hematopoietic tissues including spleen and interstitial kidney, all those symptoms were the mainly characteristics of IHN. A multiplex RT-PCR assay was conducted to detect IHHV. The amplified fraction was demonstrated to be a IHNV gene through sequencing and analyzing through the phylogenetic tree. In addition, inoculation with tissue filtrates confirmed CPE which suggested a viral infection. No parasites or bacteria were found in all the five fish. Based on the results of cellulated detection, RT-PCR and pathology, it was fully supported the conclusion that the infection is caused by IHNV.

    IHNV often cause up to 100% mortality in salmonid larve, fry and juveiles[19]. The fries of rainbow trout cause a mortality about 90% at a rainbow trout farm in Jilin Province[13]. However, some reports also demonstrated it could infect adult trout leading to lower mortality[20]. In this case, adult rainbow trout was infected and had a cumulative mortality about 30% at 15℃ which was the best temperature for IH-NV living, which confirmed that IHNV could infect 2-year rainbow trout in low mortality with no doubt.

    Fig. 4 Phylogenetic relationship of the partial nucleoprotein (N) sequences of 15 IHNV strains with KP117310

    It’s known that IHNV may vary with the age or weitht of rainbow trout, and IHNV caused mortality in fish independent of their weight or age[21]. The smaller fish were more susceptible to IHNV[22]. Furthermore, the water temperature is one of the important factors that affect the morbidity and mortality of IHNV[23], the clinical symptoms were appeared obviously for 3 to 4 days following exposure to virus at water temperature of 8-15℃. In addition, IHNV is a RNA virus which is easy mutation, even though a mutational single gene in the genome can lead to a change of the virulence[24]. Comparative three strains of infectious hematopoietic necrosis virus in fry rainbow trout, the Idaho strain of IHNV was the most virulent and induced a 62% mortality over a 10 day period at water temperatures of 10℃. In contrast,strains of IHNV from Oregon and California caused only 4% and 6% mortality under the same conditions[25]. It was supposed that these were some relationship among water temperature, genotype and weight which we will focus next. Strikingly, the mortality of rainbow trout infected with IHNV was not always related to the weight.

    IHNV has a serious impact on the Salmonidae industry, therefore, the detection and prevention of IHNV would be more and more important. The ef-

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    [ 2 ]Bootland L M, Leong J A C, Woo P T K, et al. Infectious haematopoietic necrosis virus [J]. Fish Diseases & Disorders, 2011, 3: 66—109 fective way of prevention IHN is to establish a good prevention system including strictly controlling diseases spread in the transportation process of commercial fish and fry, and selecting broodstock without carrying IHNV, and using vaccine to prevent. In 1996, the first report of genetic immunization of fish showed an IHNV DNA vaccine which provided a strong protective immunity to juvenile rainbow trout[26]. And then, several researchers also focused on vaccination study[27—32]. Although very effective in protecting fish against IHNV, only one DNA vaccine has been approved to date for use in Canada[33]. In Europe and in US, its commercialization is restricted due to safety concerns[34].

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    10.7541/2016.39

    一例虹鱒低死亡率疾病的病原學(xué)及病理學(xué)研究

    樊 威1段亞佼1黃小麗1鄧永強(qiáng)2杜宗君1耿 毅3陳德芳1汪開毓3

    (1. 四川農(nóng)業(yè)大學(xué)水產(chǎn)系, 成都 611130; 2. 四川省動物疫病預(yù)防控制中心, 成都 611130; 3. 四川農(nóng)業(yè)大學(xué)動物醫(yī)學(xué)院, 動物疫病與人類健康四川省重點實驗室, 成都 611130)

    為確定病原類型和造成虹鱒低死亡率的原因, 研究對患病虹鱒進(jìn)行了病理學(xué)觀察、病毒的分離和鑒定以及動物感染實驗。臨床檢查發(fā)現(xiàn)發(fā)病虹鱒體色變黑, 肌肉和腹壁點狀出血。病理學(xué)觀察發(fā)現(xiàn)虹鱒造血器官脾和腎間組織嚴(yán)重壞死。通過反轉(zhuǎn)錄PCR法檢測壞死組織和病變細(xì)胞中傳染性造血器官壞死病毒、出血性敗血病毒和傳染性胰腺壞死病毒, 并對得到的371 bp大小片段進(jìn)行測序和構(gòu)建進(jìn)化樹分析, 發(fā)現(xiàn)感染病原為傳染性造血器官壞死病毒。同時, 給體重為1.5 kg健康虹鱒腹腔注射104TCID50的組織濾液, 累計死亡率達(dá)到35%。除此之外, 將組織濾液接種到鯉魚上皮瘤細(xì)胞系后出現(xiàn)了特征性病變。在實驗過程中未發(fā)現(xiàn)細(xì)菌或寄生蟲感染。結(jié)果證實引起虹鱒低死亡率的病原為傳染性造血器官壞死病毒。

    虹鱒; 成魚; 傳染性造血器官壞死病毒; 診斷; 低死亡率; 病理變化

    S941.41 Document code: A Article ID: 1000-3207(2016)02-0287-07

    date: 2015-09-15; Accepted date: 2015-12-07

    Supported by the Sichuan Science and Technology Program (2014NZ0003)

    Huang Xiao-Li (1979—), E-mail: hxldyq@126.com

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