水貂阿留申病毒地方强毒株ADV-LN的分离鉴定

本研究采用对流免疫电泳方法(CIEP)检测辽宁水貂养殖场疑似水貂阿留申病毒(aleutian mink disease virus,ADV)水貂血清抗体,采集抗体阳性水貂的肝脏、脾脏、肾脏和肠系膜淋巴结组织,电镜观察存在细小病毒样颗粒。组织液研磨无菌处理后,接种CRFK细胞,盲传6代,取病毒细胞分离液用PCR方法检测,呈ADV阳性。将病毒分离液纯化后接种健康水貂,隔离观察,接种后3 d即出现食欲减退,贫血,被毛无光泽,后期出现拒食、狂饮、死亡,个别水貂出现神经症状,表现抽搐、痉挛、步态蹒跚、共济失调,证明分离获得的病毒为ADV强毒株,命名为ADV-LN株。     

Characteristics of inapparent Aleutian disease virus infection in mink.

Inapparent of nonprogressive Aleutian disease virus (ADV) infection is a subclinical but persistent virus infection of mink. Mink with the inapparent type of ADV infection when subjected to stress did not develop the progessive form of the disease. However, when challenged with a large dose of the virus, these mink did develop progressive Aleutian disease indicating that they were not highly resistant to the virus. Sera of mink with either the progressive of the inapparent type of ADV infection did not neutralise the virus. The anti-ADV antibody activity in mink with inapparent type of ADV infection was in the IgG fraction of the serum the same as in mink with progressive Aleutian disease. These data indicate that the resistance of the mink with inapparent infection as compared to mink with progressive Aleutian disease was not due to a difference in the class of immunoglobulin response to the virus. However, mink with progressive Aleutian disease showed a greatly increased immunoglobulin response.     

水貂阿留申病毒结构蛋白与非结构蛋白的研究进展

水貂阿留申病毒(Aleutian mink disease virus,ADV)是一种主要侵染水貂的自主复制型细小病毒,是一种在水貂中广泛存在的重要病原体。病毒粒子的蛋白分为结构蛋白(VP1、VP2)和非结构蛋白(NS1、NS2)两类。VP1蛋白对病毒粒子产生感染性有重要作用;VP2蛋白是主要免疫功能区,能刺激机体产生中和抗体;NS1和NS2主要参与病毒的复制和基因的表达调节。文中对近年来国内外学者关于水貂阿留申病毒结构蛋白和非结构蛋白的研究情况进行归纳和总结。     

Detection of inapparent Aleutian disease virus infection in mink.

The normal serum gamma-globulin centration of mink from the Ontario Veterinary College field station was 13.2 +/- 2.6% of total serum proteins. Mink serum gamma-globulin concentrations above 21%, which represented 3 standard deviations above the normal mean, were considered to be hypergammaglobulinemic. About 39% of pastel mink infected naturally with Aleutin disease virus (ADV) exhibited an inapparent or nonprogressive infection. These nonprogressivley infected mink had serum gamma-globulin values below 21% andhad antibody titers less than 256 if tested by the couterimmunoelectrophoresis technique. Mink maintained inapparent infection for at least 10 months after infection with ADV. Neither gross nor histopathologic changes were present in the mink with inapparent ADV infection. The virus persisted in blood, mesenteric lymph nodes, kidney, liver, and spleen of mink with non-progressive infection, although the amount of virus present probably was small.     

Violet mink develop an acute disease after experimental infection with Aleutian disease virus (ADV) isolate ADV SL3

Six-Aleutian (aa)-genotype violet mink were infected intraperitoneally with the Aleutian Disease Virus (ADV) bone marrow derived isolate ADV SL3. All animals developed virus-specific antibodies and hypergammaglobulinaemia. Mortality during the fourteen week duration of the infection was 50%. The virus induced (histo)pathological lesions typical for Aleutian Disease. By immunohistochemical examination using a virus capsid-specific monoclonal antibody viral antigen was detected in lymph nodes, spleen, kidneys and once in hepatic Kupffer cells. By Southern blot and in situ hybridization studies with strand-specific RNA probes able to distinguish viral replicative forms from merely sequestered genomic DNA, ADV replication was detected in mesenteric lymph nodes and spleen. In one mink DNA replicative forms were also found in bone marrow cells or mononuclear cells of the peripheral blood, respectively. Only single-stranded viral DNA was detected in liver, kidney, gut and lung of infected animals. From Southern blot hybridization results a different, possibly organ-specific permissiveness of ADV in vivo is suggested.     

Immune complexes in Aleutian disease: demonstration of antibody on isolated virus

The specific binding of Staphylococcal protein A for mammalian immunoglobulin G was used to demonstrate IgG associated with Aleutian disease virus (ADV) when isolated from infected mink tissues. Protein A specifically bound to mink serum Ig with no reaction with other serum or tissue proteins. Protein A labeled with 131Iodine reacted with crude virus preparations but not with virus that had been purified by freon extraction to the point where it became reactive with antibody by counterimmunoelectrophoresis. Binding to purified ADV was restored when the purified virus was first reacted with antibody. Results of urea treatment indicated this as an alternative method for isolation of ADV free from antibody.     

Mink infected with aleutian disease virus have an elevated level of CD8-positive T-lymphocytes

Lymphocytes, monocytes, granulocytes, B-lymphocytes and CD8-positive T-lymphocytes of non-infected mink and mink infected with Aleutian disease virus (ADV) were measured by flow cytometry. The gammaglobulin levels of the sera were also measured. Besides development of hypergammaglobulinaemia in the infected mink, the most pronounced finding was that the number of CD8-positive lymphocytes doubled on average during development of Aleutian disease, while the number of B-lymphocytes did not change dramatically. The enhanced CD8 frequency was still apparent 6 months after initial ADV infection of the mink. The present experiments contribute to a better understanding of the immune deficiency stage seen in mink infected with ADV.     

水貂阿留申病病毒分子生物学研究进展

水貂阿留申病病毒是一种在水貂中广泛存在的重要病原体.该病毒属阿留申病毒属,主要编码4种蛋白(结构蛋白VP1、VP2和非结构蛋白NS1、NS2).VP1蛋白在协助病毒产生感染性方面起着重要作用;VP2蛋白是该病毒的主要免疫原性抗原,能体外中和病毒;NS1和NS2对病毒在宿主细胞中的复制起重要的调节作用.该病毒的分子生物学诊断技术主要有核酸杂交技术、PCR和基因芯片检测技术.     

水貂犬瘟热病毒LD-1株的分离与鉴定

取山东某貂场疑似犬瘟热病毒（canine distemper virus,CDV）感染的水貂肝脏等组织病料,通过RT-PCR检测呈CDV阳性,且无水貂细小病毒存在,将病料接种原代CEF细胞、传代系Vero细胞和DF1细胞3种细胞进行病毒分离,通过优化细胞培养条件,最终在Vero细胞上传代培养成功,出现露珠状典型细胞病变（CPE）。分离毒应用RT-PCR、PCR产物测序、抗体中和试验（SN）、间接免疫荧光试验（IFA）及病毒包涵体检查等多种方法进行了CDV的鉴定,结果显示CDV阳性,表明分离到的病毒为水貂CDV,并将其命名为CDV LD-1株。     

Effect of a valine residue at codon 352 of the VP2 capsid protein on in vivo replication and pathogenesis of Aleutian disease parvovirus in mink

OBJECTIVE: To determine whether a group of 3 genetic differences in the nonstructural protein (NS1) or 1 genetic difference in the structural protein (VP2) of Aleutian disease parvovirus (ADV) is responsible for an increase in the in vivo replication and pathogenicity of G/U-8, a chimera of ADV-G (nonpathogenic) and ADV-Utah (pathogenic), compared with G/U-10. ANIMALS: 32 eight-month-old female sapphire mink (Mustela vison). PROCEDURE: Chimeric viruses were constructed, propagated in vitro, and used to inoculate mink. Antiviral antibody responses, presence of serum viral nucleic acid, and serum gamma globulin concentrations were monitored for 120 days following inoculation. Histologic examination of the liver, kidneys, spleen, and mesenteric lymph nodes was performed after necropsy. RESULTS: A chimera containing only the 3 amino acid substitutions in NS1 did not elicit measurable responses indicative of replication or pathogenicity in inoculated mink. Serum antiviral antibody responses, frequency of detection of viral nucleic acid in serum, gamma globulin response, and histologic changes in mink inoculated with chimeras containing a valine residue at codon 352 (352V) of VP2 capsid were increased, compared with values from mink inoculated with chimeric viruses that did not contain 352V. CONCLUSIONS AND CLINICAL RELEVANCE: A valine residue at codon 352 in the VP2 capsid protein of ADV affects in vivo viral replication and pathogenicity. This amino acid may be part of an incompletely defined pathogenic determinant of ADV. Further characterization of the pathogenic determinant may allow future development of focused preventive and therapeutic interventions for Aleutian disease of mink.     

Virus-specific B-lymphocytes are probably the primary targets for Aleutian disease virus.

368 1- to 5-year-old mink of wild-type or black genetic background were infected with Aleutian disease virus (ADV) naturally or using virus-containing immune complexes or purified virus. Thirty of the mink were immunized with dinitrophenol-conjugated ovalbumin (DNP-OA) before and during infection. Blood samples were taken at monthly intervals. We found that weak (and transient) monoclonal or oligoclonal immunoglobulin components were present in the plasma or serum approximately 1 month after infection, as judged by zone electrophoresis. In a few cases, we found quite stable myeloma-like hypergammaglobulinemia, which usually occurs much later in the infection. All sera with monoclonal immunoglobulin components and most of the sera with immunoglobulins of restricted heterogeneity were analysed by crossed serum line immunoelectrophoresis. In all cases, the distinct immunoglobulins were found to have antibody activity to ADV proteins. In the few sera from DNP-OA-immunized mink showing restricted immunoglobulin heterogeneity, this was also the case. The findings from the study imply that ADV-specific B lymphocytes are probably the primary targets for ADV. The resulting ADV replication introduces a "pseudo-transformation" stage, so that the infected B lymphocytes proliferate and differentiate to an extreme degree. The mechanism behind this B-cell pseudotransformation ability of ADV is a puzzle. It may, however, be important, that the p75/85 structural polypeptides of ADV contain an amino acid sequence almost identical to the GTP-binding pocket of the Ras oncogene.     

Detection of antibody in Aleutian disease of mink: comparison of enzyme-linked immunosorbent assay and counterimmunoelectrophoresis

Experiments were undertaken to investigate the potential of the enzyme-linked immunosorbent assay (ELISA) as a screening test for the diagnosis of the 2 known naturally occurring forms of Aleutian disease of mink. Anti-Aleutian disease virus (ADV) antibody activity was not detectable in the sera of mink with nonprogressive Aleutian disease despite the demonstration of antibody by counterimmunoelectrophoresis (CIEP) in the same sera. Anti-ADV antibody was detectable in 93% of sera from mink at various stages of experimentally induced progressive Aleutian disease. False-negative reactions occurred in sera which demonstrated high anti-ADV antibody titers by CIEP. As a consequence of the high prevalence of false-negative reactions, the ELISA was not considered to be an effective screening test. However, using CIEP as an indicator of ADV infection, the ELISA may be useful in differentiating mink with nonprogressive Aleutian disease from mink with progressive Aleutian disease.     

The Dynamic of Maternal Antibody Against Enteritis Virus in Newborn Minks and Immune Efficacy of the Subunit Vaccine

The purpose of this study was to investigate the dynamic of mink enteritis virus (MEV) maternal antibody and the immune effects of subunit vaccines.The offspring of immunized female mink were studied,serum of 21,30,45 and 60 days old mink were collected to determine the HI titer of maternal antibody of MEV.25 healthy minks aged 47~52 days were selected to be inoculated with MEV genetic engineering subunit vaccine,and then blood samples were collected 14 d before and after immunization to determine MEV HI titer.The clinical symptoms and the titer of feces HA of mink enteritis virus were observed 14 d after immunization.Dying and surviving minks were euthanized 14 d after challenge,the duodenum,jejunum and ileum were collected for histopathological observation and immunohistochemical detection.The results showed that the MEV HI of the offspring of immunized female mink decreased gradually with the increase of day age,it was higher at 21 d of age,the MEV HI titer of some minks at 45 d was <1:32 and ≤ 1:4 at 60 d.The MEV HI titer of the control mink was not higher than 1:4 on 14 d after the preparation of qualified vaccine,while it was increased to 1:64~1:512 in immune group.Challenge protection tests showed that the immuned minks were 100% resistant to the attack of mink enteritis virus,and there was no abnormality in the mink's mental state,diet and feces,the HA titer of feces matter after challenge was 1:8~1:16.Histopathological and immunohisto-chemical tests showed that MEV genetic engineering subunit vaccine could well prevent the replication of virus in intestinal mucosal epithelial cells and the damage to intestinal epithelial cells.Therefore,the antibody titer was highest at 21 day-old after immunizing female mink,and the prepared vaccine could break through maternal antibody interference and produce high levels of antibodies when it immunized minks at about 50 d of age,and could resist the attack of mink enteritis virus virulent strain.     

新生水貂肠炎病毒母源抗体消长规律及其亚单位疫苗免疫效果研究

本研究旨在探索水貂肠炎病毒（mink enteritis virus,MEV）的母源抗体消长规律及其亚单位疫苗免疫效果。以免疫母貂所生仔貂为研究对象,采集21、30、45、60日龄仔貂血清,测定水貂病毒性肠炎母源抗体HI效价（MEV HI）;选取25只47~52日龄健康水貂接种制备MEV基因工程亚单位疫苗,免疫前后14 d采血测定MEV HI效价;免疫后14 d进行水貂肠炎病毒攻毒临床症状观察,并测定粪便HA效价;攻毒后14 d对濒死和存活水貂安乐死,采集十二指肠、空肠和回肠进行病理组织学观察和免疫组化检测。结果显示,免疫母貂所产仔貂的MEV HI效价随着日龄的增加逐渐降低,在21日龄时较高,45日龄时少部分仔貂MEV HI效价<1：32,60日龄时大部分仔貂HI效价≤ 1：4;使用制备合格疫苗免疫后14 d对照组水貂的MEV HI效价均不高于1：4,免疫组MEV HI效价升高至1：64~1：512;攻毒保护试验表明,免疫组水貂100%抵抗水貂肠炎病毒强毒的攻击,水貂的精神、饮食、粪便等均未见异常,且攻毒后粪便HA效价为1：8~1：16;病理组织学和免疫组化检测结果表明,MEV基因工程亚单位疫苗能够很好地阻止病毒在肠黏膜上皮细胞的复制和对肠黏膜上皮细胞的损伤。因此,免疫母貂所生仔貂21日龄时体内抗体效价最高,制备的疫苗免疫50日龄左右的水貂时能够突破母源抗体干扰并产生高水平的抗体,能够抵抗水貂肠炎病毒强毒株的攻击。     

Horizontal transmission of Aujeszky's disease virus from sheep to pigs

Eight 2-month-old merino lambs were inoculated intranasally with different (10(2.0)-10(5.0)TCID50) amounts of Aujeszky's disease virus (ADV). Electron microscopic studies indicated that ADV replicated in extra-neural sites, in the epithelial cells of the mucosa of the upper and lower respiratory tract. Although the virus was excreted continuously in nasal discharges, horizontal transmission to contact lambs failed. The surviving exposed and contact lambs had no demonstrable antibodies against ADV and they were susceptible when challenged by ADV. However, the virus was transmitted to susceptible pigs in contact with the exposed lambs. One of the five contact pigs showed characteristic clinical signs of Aujeszky's disease, developed a nonsuppurative meningoencephalomyelitis and ADV was recovered from the brain, nasal discharge and other organs. Restriction enzyme analysis of DNA from this virus confirmed the sheep origin of the isolate. The other 4 pigs seroconverted. ADV infection in sheep is therefore a possible source of infection for pigs, but the lack of horizontal transmission in sheep was confirmed.     

Some characteristics of four attenuated vaccine virus strains and a virulent strain of Aujeszky's disease virus

In the present study four attenuated virus strains, used as vaccines, and a virulent strain of Aujeszky's disease virus (ADV) were compared with respect to their virulence in mice, their ability to induce virus-specified thymidine kinase (TK) in infected cells, and their cleavage profiles of viral DNA's after treatment with the restriction endonuclease KpnI. The survival time of mice inoculated with the B-KAL or the virulent NIA-3 strain was comparable, whereas the Bartha and BUK strains required significantly longer periods to kill mice. Mice were resistant to the MK-25 strain of ADV. The strains were assayed for TK phenotype by plaque autoradiography after 3H-thymidine labelling of infected cells. MK-25 proved to be the only strain defective in induction of TK in pig kidney cells. Restriction endonuclease analysis of viral DNA's revealed that each vaccine strain showed a characteristic fragment pattern that could easily be differentiated from that of other vaccine and field strains of ADV. The present results demonstrate that the mouse virulence test and the TK assay detect differences in biological properties of ADV strains, but that restriction endonuclease analysis is required for unambiguous identification of vaccine and field strains of ADV.     

Response of mink, skunk, red fox and raccoon to inoculation with mink virus enteritis, feline panleukopenia and canine parvovirus and prevalence of antibody to parvovirus in wild carnivores in Ontario.

Mink virus enteritis, feline panleukopenia and canine parvovirus-2 were inoculated separately into groups of raccoon, mink, red fox and striped skunk. Raccoons were highly susceptible to mink virus enteritis and feline panleukopenia, with animals developing clinical illness, and several dying within six to ten days of inoculation with lesions typical of parvovirus infection. Both viruses were shed in high titre in the feces of infected raccoons, and high antibody titres were stimulated. Raccoons inoculated with canine parvovirus-2 showed no signs; shedding of virus was sporadic though moderate titres of antibody developed. Mink inoculated with mink virus enteritis and feline panleukopenia developed signs and lesions of early parvovirus infection. No signs or significant lesions followed canine parvovirus-2 inoculation. Shedding of virus was heavy (mink virus enteritis) or sporadic (feline panleukopenia and canine parvovirus-2), though good serological responses were elicited to all three viruses. Red fox showed no signs of infection, shed all three viruses only sporadically, and the serological response was strong only to feline panleukopenia. Skunks developed low antibody titres, but no signs, and did not shed virus. Antibody to parvovirus was found in 79.2% of 144 wild red foxes; 22.3% of 112 wild raccoons; 1.3% of 157 wild skunks and 6/7 coyotes in southern Ontario. The likely significance of these viruses to wild and captive individuals and populations of these carnivores is discussed.     

Nonsuppurative meningoencephalitis associated with Aleutian mink disease parvovirus infection in ranch mink.

Severe nonsuppurative meningoencephalitis associated with Aleutian mink disease parvovirus (ADV) infection was observed in adult ranch mink. Brain lesions included severe, locally extensive to coalescing lymphoplasmacytic meningoencephalitis with accompanying gliosis, satellitosis, and mild extension of inflammation into the leptomeninges. ADV was identified in mesenteric lymph node, spleen, brain, and liver of affected mink by polymerase chain reaction techniques. Sequences of the ADV isolate (TH5) revealed 2 unique residues in the region of the viral genome that determines pathogenicity. These findings suggest that certain strains of ADV may preferentially cause disease in the nervous system. ADV infection should be considered in the differential diagnosis of neurologic disorders in mink.     

Nucleotide sequence and polymerase chain reaction/restriction fragment length polymorphism analyses of Aleutian disease virus in ferrets in Japan.

Two ferrets with spontaneous Aleutian disease (AD) were found in Japan. The diagnosis was verified by polymerase chain reaction (PCR) amplification of part of the capsid gene specific to AD virus (ADV). The nucleotide sequences (365 bp in length) of the amplified fragments from the 2 ferrets differed by a single nucleotide, producing an amino acid alteration. Compared with other types of ADV, these isolates had 96% sequence similarity to a published ferret ADV (FADV) in contrast to <91% homology to various types of mink ADV (MADV). The phylogenetic tree of ADVs indicates that these 2 isolates and the published FADV belong to the same genetic group and definitely are divergent from MADVs. The predicted amino acid sequence of the hypervariable segment in the capsid gene was conserved among the 3 types of FADV. These results indicated that the 2 isolates found in Japan were new DNA types of FADV and could have been derived from FADV(s). A restriction fragment length polymorphism (RFLP) method to distinguish the ferret types of ADV from the mink types of ADV was developed on the basis of differences in their nucleotide sequences. Digestion of the PCR products with Afal or ScaI provided different cleavage patterns for FADV and MADV. This PCR/RFLP analysis of the ADV capsid gene will be a valuable asset for diagnosis of this virus infection in ferrets.