痘苗病毒毒力测定及其免疫血清的制备

目的测试痘苗病毒毒力,制备痘苗病毒免疫血清,为药物评价和病毒检测奠定基础。方法鸡胚绒毛尿囊膜培养痘苗病毒,测定病毒的TCID50和小鼠毒力。将痘苗病毒悬液稀释成100TCID550,0．2％福尔马林灭活,分别在0、7、14d以腹腔注射的方式免疫BALB／c小鼠,用IFA、IEA、ELISA方法评价血清的敏感性和特异性。结果痘苗病毒TCID50／0．05mL=1．8×10^4,小鼠LD50／0．2mL=10^6.8;制备的免疫血清经IFA法测定效价为1：320,IEA法测血清效价为1：160,ELISA测血清效价1：6400。结论确定的细胞和小鼠毒力将为药物测定提供基础比对数据;制备的痘苗病毒免疫血清具有高度的敏感性和特异性,可作为测试对照血清使用。     

Rubella Virus: Continuous and Concurrent Production of Complement-fixing Antigen and Infectious Virus in Suspension Cultures

Rubella complement-fixing (CF) antigen and infectious virus were produced continuously and concurrently for as long as 63 days in suspension cultures of BHK-21 cells prepared from uncloned monolayer stock cultures. CF titers ranged from 1:4 to 1:32, and the peak infectivity titer was greater than 8.0 (TCID(50) log(10)) per ml. Suspension cultures could be recultivated after prolonged storage in liquid nitrogen. The resulting monolayer or suspension cultures also produced CF antigen. Suspension cultures provide an effective system for the long-term continuous and concurrent production of rubella virus diagnostic reagents.     

Enzyme-linked immunosorbent assay-format tissue culture infectious dose-50 test for titrating dengue virus

A dengue nonstructural protein 1 (NS1) antigen capture enzyme-linked immunosorbent assay (ELISA)-based tissue culture infectious dose-50 (TCID(50)) test (TCID(50)-ELISA) was developed as an alternative to the standard plaque assay for titrating dengue virus. Virus titers obtained by TCID(50)-ELISA were comparable to those obtained by the plaque assay and by the traditional TCID(50)-cytopathic effect (CPE) test (TCID(50)-CPE), with a better reproducibility and a lower coefficient of variation. Quantitative comparison of TCID(50)-ELISA and TCID(50)-CPE resulted in a correlation coefficient of 0.976. Moreover, this new method showed a wider application to C6/36, Vero E6, BHK-21, and Vero cells compared with other titration methods. In summary, the novel TCID(50)-ELISA method described here provides a more reliable and more accurate alternative compared to the plaque assay and TCID(50)-CPE for titration of dengue virus.     

Determination of the oral susceptibility of South African livestock-associated biting midges,Culicoides species,to bovine ephemeral fever virus

A total of 10 607 Culicoides midges (Diptera: Ceratopogonidae) were fed on either sheep or horse blood containing not less than 6.5 log10 TCID50/ml of bovine ephemeral fever virus (BEFV). Insects were collected during two consecutive summers from two distinct climatic areas. Two seed viruses, originating from either South Africa or Australia, were used separately in the feeding trials. Blood-engorged females were incubated at 23.5 degrees C for 10 days and then individually assayed in microplate BHK-21 cell cultures. Of the 4110 Culicoides that survived, 43% were C. (Avaritia) imicola Kieffer and 27% were C. (A.) bolitinos Meiswinkel. The remainder represented 18 other livestock-associated Culicoides species. Although BEFV was detected in 18.9% of midges assayed immediately after feeding, no virus could be detected after incubation. The absence of evidence of either virus maintenance or measurable replication suggests that most of the abundant livestock-associated Culicoides species found in South Africa are refractory to oral infection with BEFV. Future studies should be carried out using species of mosquitoes that are associated with cattle in the BEF endemic areas.     

Adaptation to the cell line PLC/PRF/5 of hepatitis A virus released in the cell culture medium

The propagation of hepatitis A virus (HAV), CF53 strain, released without any cytopathic effect into the PLC/PRF/5 cells supernatant, was studied in the course of six serial passages (6th to 11th). The decrease (from 5 to 1 week) of incubation time required to detect HAV, by RIA, in culture supernatant, the increase in Hepatitis A antigen (from 777 to 10,038 c.p.m./50 microliter) and infectivity titre (from 10(3.0) TCID 50/ml to 10(4.5) TCID 50/ml) were consistent with the adaptation of this virus to the cell line PLC/PRF/5.     

Evaluation of the serum-free medium MDSS2 for the production of poliovirus on vero cells in bioreactors

The serum-free medium MDSS2 (Merten et al., 1994), was used for cultivating Vero cells as well as for producing poliovirus (Sabin type 1) in static and in perfused micro-carrier cultures. At slightly different growth rates of 0.0120/h and 0.0106/h, respectively, static cultures in serum-containing (SCM) and serum-free (SFM) medium produced titers of ^106.75 and 10^6.67 TCID50 per 50 μl; signifying a specific productivity of 0.89 and 1.07 TCID50/c. Serum-free bioreactor cultures of Vero cells on DEAE-dextran microcarriers at 6.25 g/l produced cell densities of about 1.5×10⁶c/ml. After infection with virus (multiplicity of infection (MOI) 0.1–0.3) titers of about 6.3×10⁸ TCID50/ml were obtained, signifying an average specific productivity of 7.1 TCID50/c.h. Although these values were 4 and 2 fold, respectively, higher than in classical resum-based production processes (Montagnon et al. Dev. biol. Stand. 1981, 47, 55), a reference culture, for which cell growth was done in SCM and only virus production was done in SFM, produced 2×10⁹ TCID/ml with an average specific virus production rate of 18.9 TCID50/c.h. The differences between the fully serum-free and our reference process were mainly due to physiological differences of cells grown in SCM and SFM and also due to strongly modified consumption kinetics after virus infection leading to limitations of one or several essential medium compounds, like glucose and amino acids. Avoiding these limitations by increasing the residual concentration of glucose, glutamine, histidine, and SH-amino acids, led to specific virus production rates (of about 17.9 TCID59/c.h.) comparable to those found in the reference virus production process. The optimisation of the production of the poliovirus (Sabin 1) will be described with respect to the modification of the medium composition. This revised version was published online in June 2006 with corrections to the Cover Date.     

A novel process for the production of a veterinary rabies vaccine in BHK-21 cells grown on microcarriers in a 20-l bioreactor

We studied BHK-21 cells growth in a 2-l bioreactor and investigated the effects of microcarrier concentration, type of growth medium, culture mode and serum concentration. The highest cell density reached was equal to 4x10(6) cells/ml and was achieved in minimum essential medium supplemented with Hanks' salts, non-essential amino acids and 5% fetal calf serum, using a perfusion culture mode and a microcarrier concentration of 4 g Cytodex 3/l. We studied rabies virus production (PV/BHK-21 strain) by BHK-21 cells grown at the optimal conditions determined previously. We analyzed the effects of multiplicity of infection (MOI) and type of medium used for virus multiplication in spinner-flasks and showed that the highest virus titer reached (when the cells were infected at a MOI of 0.3) in M199 medium supplemented with 0.2% of bovine serum albumin was equal to 8.2x10(7) Fluorescent Focus Units (FFU)/ml. When we grew the cells in a 2-l perfused bioreactor, we obtained a maximal virus titer of 3x10(8) FFU/ml. In addition, we scaled-up to a 20-l bioreactor and obtained similar results for cell density and virus titer. The experimental vaccine we developed meets WHO requirements for vaccine potency. Each run yielded about 40,000 doses of potent vaccine.     

云南省甲属披膜病毒的特性

从云南省分离的甲属披膜病毒,在蚊、鼠、猴等多种动物细胞和人细胞中均能增殖,并能在营养琼脂覆盖的鸡胚细胞和Vero细胞中形成空斑;在小白鼠体内具有组织泛嗜性;在蔗糖中的浮力密度为1.17g/cm~3。体内外试验都表明,该病毒增殖速度快。用低滴度(4.0 log TCID50)或高滴度(7.0 log TCID50)病毒,脑内或皮下注射乳鼠均能稳定致死,唯低滴度者的潜伏期略长于高滴度者。3周鼠脑内或皮下注射病毒虽不死亡,但在体内能检测出病毒及特异性抗体。     

Growth of Ibaraki virus in suspension culture of HmLu-1 cells.

The established hamster lung cell line, HmLu-1 cells could grow in a suspended state. The initial cell count, 40 X 10(4)/ml, increased to 200 X 10(4)/ml on the 4th day of culture. The suspension culture of HmLu-1 cells was proved satisfactory for propagation of Ibaraki virus. The viral titer reached a maximum of 10(6.75) TCID50/0.1 ml. The input multiplicity ranging from 0.003 to 3.0 exerted no influence on the final yield of the virus. The optimal pH value of initial culture ranged from 6.8 to 7.6. In comparison of virus yield per cell among the suspension culture and two methods of monolayer culture in stationary and rolling condition, there was no noticeable difference in it among the three methods. The cell population per unit volume was the largest and, therefore, virus titer in the culture fluid the highest in the suspension culture of the three methods.     

Characteristics of inhibition of infectious pancreatic necrosis virus (IPNV) by normal rainbow trout Oncorhynchus mykiss serum

We studied the characteristics of rainbow trout serum (RTS) inhibitory activity against infectious pancreatic necrosis virus (IPNV). Serum inhibition was related to the serum source and host cell in which the virus had been propagated. IPNV was more efficiently inhibited by RTS in salmonid cell lines than in non-salmonid cell lines, with inhibition highest in rainbow trout gonad (RTG)-2 cells. The RTS sensitivity of the virus was modified by the cell line through which the virus passed, with multiple passages through Chinook salmon embryo (CHSE)-214 cells producing a virus that was less sensitive to RTS. The RTS inhibition level was dependent on cell density: at a cell density of < or = 2 x 10(5) cells ml(-1), inhibition was insignificant (tissue culture infective dose 50% = 10(-1.1) TCID50 ml(-1) reduction); however, above a density of 3 x 10(5) cells ml(-1), the inhibition level was very high (> or = 10(-6.3) TCID50 ml(-1) reduction). The salmonid sera tested showed high inhibition, except for brook trout serum (BTS), while non-salmonid sera did not inhibit IPNV, replication on RTG-2 cells. Pretreatment of cultured cells with RTS prior to exposure did not affect inhibition of IPNV and thus did not mask a viral receptor. The RTS inhibition level was dependent on the time of serum addition, with inhibition being maintained for at least 16 h postinfection. Pretreatment of IPNV revealed that the virus is directly inhibited by RTS, and more strongly so when RTS is present during viral replication.     

Comparative pathology in ferrets infected with H1N1 influenza A viruses isolated from different hosts

Virus replication and pulmonary disease pathogenesis in ferrets following intranasal infection with a pandemic influenza virus strain (A/California/4/09 [CA09]), a human seasonal influenza H1N1 virus isolate (A/New Caledonia/20/99 [Ncal99]), a classical swine influenza H1N1 virus isolate (A/Swine/Iowa/15/30 [Sw30]), or an avian H1N1 virus isolate (A/Mallard/MN/A108-2355/08 [Mal08]) were compared. Nasal wash virus titers were similar for Ncal99 and Sw30, with peak virus titers of 10(5.1) 50% tissue culture infectious doses (TCID(50))/ml and 10(5.5) TCID(50)/ml occurring at day 3 postinfection (p.i.), respectively. The mean peak titer for CA09 also occurred at day 3 p.i. but was higher (10(7) TCID(50)/ml). In contrast, the peak virus titers (10(3.6) to 10(4.3) TCID(50)/ml) for Mal08 were delayed, occurring between days 5 and 7 p.i. Disease pathogenesis was characterized by microscopic lesions in the nasal turbinates and lungs of all ferrets; however, Sw30 infection was associated with severe bronchointerstitial pneumonia. The results demonstrate that although CA09 is highly transmissible in the human population and replicates well in the ferret model, it causes modest disease compared to other H1N1 viruses, particularly Sw30 infection.     

Growth of Rio Bravo Virus in Cell Cultures

The growth of Rio Bravo virus (RBV) in eight cell culture systems was studied. Highest yields of virus were produced in BHK-21 (C13), L, and Vero cell lines, but L cells were resistant to low doses of virus. LLC-MK(2), HeLa, and human embryo skin cells produced moderate amounts of virus, but FL amnion and primary chick embryo fibroblasts supported little virus growth. Virus was rapidly inactivated by exposure to pH values below 7.0. Single-cycle growth in BHK-21, L, and LLC-MK(2) cell monolayers was characterized by a latent period of about 12 hr followed by rapid virus production that peaked at 36 to 48 hr. Vero cell cultures can remain chronically infected with RBV for more than 100 days. Such cultures show evidence of cell destruction, and their supernatant fluids contain virus at 10(4) to 10(5) log(10) per ml.     

微载体高密度培养Vero细胞的研究

微载体是动物细胞高密度培养的有效手段。首先在硅化的方瓶中对Cytodex 1、Cy-todex 3、Biosilon、Bellco Glass Microcarrier、CT-1、CT-3、MC-1、CT-28种国产和进口微载体进行了比较和筛选。确定以Biosilon作为Vero细胞高密度培养的首选微载体。用500mlWheaton搅拌瓶探索影响Vero细胞高密度培养的条件,表明50～60mg/ml的微载体浓度、1～2×10⁶/ml的细胞接种密度、适当的通气(95％O_2+5％CO₂)对该细胞的高密度培养具有重要意义。在200ml培养体积的Wheaton搅拌瓶中,微载体浓度为50～60mg/ml,细胞接种密度为9.24×10⁵/ml,搅拌速度为65～85r/min,经25d培养,Vero细胞密度可达2.34×10⁷/ml,表明50～60mg/ml的微载体浓度对培养细胞没有毒性。接着在1.5L CelliGen生物反应器中进行培养,细胞接种密度为4.98×10⁵/ml,培养体积为1.2L,日灌流量从0.20L逐渐加大到3.65L,经22d连接灌流培养,最终细胞密度可达2.05×10⁷/ml。     

Growth of Chikungunya Virus in Baby Hamster Kidney Cell (BHK-21-Clone 13) Suspension Cultures

This report describes the methods used to obtain high titers of chikungunya virus with suspension cultures of BHK-21-clone 13 cells. The cells were grown at 37 C to a cell concentration of 10(6) to 2 x 10(6) per ml. After maximum cell growth, the cells were inoculated with chikungunya virus at a multiplicity of 1 to 2 50% suckling mouse intracerebral lethal doses (SMICLD(50)) per cell in the spent Eagle's minimum essential medium for suspension cultures (MEMS), or the cell cultures were centrifuged at 200 x g and resuspended in either fresh MEMS or medium 199 prior to inoculation. The medium used had no effect on virus titer. The inoculated cultures were incubated at 34 C until the cell viability dropped to 30%, which usually occurred 28 to 30 hr postinoculation. After these procedures, chikungunya virus titers of log(10) 10.3 to 11.8 SMICLD(50) per ml were obtained.     

Variant human neuroblastoma cell lines resistant to the differentiation-inducing effect of interferon-gamma

Human recombinant interferon, (rIFN)-gamma, induced a human neuroblastoma cell line GOTO to differentiate, but neither rIFN-alpha A nor -beta did. To elucidate the mechanism of this rIFN-gamma-specific differentiation-inducing effect, we established two rIFN-gamma-resistant variant GOTO clones. They were insensitive to the growth-inhibitory and differentiation-inducing effect of 1 X 10(3) IU/ml rIFN-gamma. They were slightly sensitive to the growth-inhibitory effect of rIFN-gamma (2 X 10(4) IU/ml). Parental GOTO cells were very insensitive to the antivesicular stomatitis virus (VSV) effect of all three types of rIFNs and even 2 X 10(4) IU/ml rIFN-gamma could not inhibit the cytopathic effect of 5 TCID50 VSV by 50%. The degree of this insensitivity was the same in the variant GOTO cells as in the parental GOTO cells.     

Evaluation of various serum and animal protein free media for the production of a veterinary rabies vaccine in BHK-21 cells

We have carried out the adaptation of BHK-21 cells to two serum free (Ex Cell 520 and HyQ PF CHO) and three animal protein free media: Ex Cell 302, HyQ PF CHO MPS and Rencyte BHK. After a direct switch or a gradual adaptation, we have achieved BHK-21 cells growth in the following media: HyQ PF CHO, HyQ PF CHO MPS, Rencyte BHK and Ex Cell 302. The most suitable media for BHK-21 cells growth, with respect to cell density and specific growth rate, were HyQ PF CHO and HyQ PF CHO MPS. Hence we have selected these media to study cell growth and the production of rabies virus. Kinetic studies of cell growth in spinner flasks using the selected media have shown that a maximal cell density of 2x10(6) cells x ml(-1) was reached in both media. For rabies virus production, the viral titer obtained was 1.7x10(6) FFU x ml(-1) in HyQ PF CHO as well as in HyQ PF CHO MPS medium. The optimization of rabies virus production by BHK-21 cells grown in a 2 l bioreactor using the selected media, pointed to the following parameters: culture mode, perfusion rate and multiplicity of infection (MOI), as being the critical factors for achieving a good virus yield. When tested in mice, the activity of the experimental vaccines prepared on HyQ PF CHO MPS medium has shown a protective activity that meets WHO requirements.     

In vitro host range of the Hz-1 nonoccluded virus in insect cell lines

A total of 13 insect cell lines spanning 4 orders (Lepidoptera, Coleoptera, Diptera, and Homoptera) were tested for their ability to replicate the nonoccluded virus Hz-1. Only the Lepidopteran cell lines supported replication of the virus with TN-CL1 and BCIRL-HZ-AM1 producing the highest titers of 2.4 × 10⁸ tissue culture infective dose (TCID)₅₀/ml and 2.0 × 10⁸ TCID₅₀/ml, respectively. A codling moth cell line (CP-169) was the only Lepidopteran cell line that did not replicate the virus and transfection of this cell line with Hz-1 DNA failed to replicate the virus. Also, transfection with DNA from a recombinant baculovirus carrying the red fluorescent protein gene (AcMNPVhsp70 Red) was not expressed in CP-169 cells. The replication cycle of Hz-1 in BCIRL-HZ-AM1 cells showed that this virus replicated rapidly starting at 16 h postinoculation (p.i.) and reaching a peak titer of 1.0 × 10⁸ TCID₅₀/ml 56 h postinoculation. Hz-1 when compared with several other baculoviruses has the widest in vitro host spectrum.     

Evaluation of the new serum-free medium (MDSS2) for the production of different biologicals: Use of various cell lines

The presence of serum in cell culture raises safety problems for the production of biologicals, thus a new serum-free medium (MDSS2) was developed. The evaluation of this medium for the growth of different cell lines (BHK-21 C13, BSR and Vero) has shown that cells grew in this medium similarly to standard serum-containing medium, independently of the culture system used: in static (as monolayer) as well as in agitated systems (in suspension in spinner and perfusion reactors). BHK-21 and BSR cells grew as aggregate cultures and could proliferate in both static and agitated culture systems. Vero cells stayed attached to a substrate and proliferated equally in static and in agitated microcarrier-culture systems. The cell densities obtained with BHK-21 cells depended only on the culture system used. They ranged from 2–3×10⁶ to 6–12×10⁶ cells per ml for static batch and perfusion reactor cultures respectively. The cell concentration was 3 to 6 times higher than in classical cultures performed in serum-containing medium. The cell densities obtained with Vero cells were indistinguishable from those obtained in serum-containing medium, whatever the cell culture system used. These cell lines have been used for the production of rabies virus. With respect to BHK-21 and BSR, similar production rates of rabies glycoprotein have been found as in the standard roller bottle process. The production of rabies virus and of viral glycoprotein by Vero cells cultivated in serum-free medium was augmented 1.5-fold and 2.5-fold, respectively, when compared to serum-containing medium.A recombinant BHK-21 cell line, producing human IL-2, can also proliferate in MDSS2, after addition of insulin. The specific IL-2 production rate was augmented 3–4 fold in comparison to serum-containing medium.For the cells tested, the MDSS2 serum-free medium is a good growth and production medium. Its use for cultivating other cell lines and/or for the production of other biologicals is discussed.     

Effect of bovine herpesvirus-1 or bovine viral diarrhea virus on development of in vitro-produced bovine embryos.

In previous experiments, zona pellucida (ZP)-intact in vitro-produced (IVP) embryos incubated for 1 hr with 10(6.3) TCID(50)/ml bovine herpes virus-1 (BHV-1), 10(5.3) TCID(50)/ml cytopathic (CP) bovine viral diarrhea virus (BVDV) or 10(5.3) TCID(50)/ml noncytopathic (NCP) BVDV showed no signs of virus replication or embryonic degeneration. The aims of the present study were to investigate whether a prolonged presence (24 hr or 8 days) of 10(6.3) TCID(50)/ml BHV-1 or 10(5.3) TCID(50)/ml BVDV in an in vitro embryo production system affected the rate of cleavage and embryonic development of ZP-intact embryos, and to point out eventual causes of adverse effects. When virus was present in each step of an IVP system, significantly lower rates of cleavage and blastocyst formation of virus-exposed embryos were observed, in comparison with control embryos (P < 0.01). When embryos were only exposed to virus during the in vitro fertilization (IVF), the rates of cleavage and blastocyst formation were significantly affected. The introduction of BHV-1 or BVDV during in vitro maturation (IVM) or in vitro culture (IVC) resulted only in significantly lower rates of blastocyst (P < 0.01). In all experiments, virus replication was not detected in the embryonic cells. On the other hand, virus replication was clearly demonstrated in oviductal cells in the co-culture system, resulting in a degeneration of these cells. In an additional experiment, synthetic oviduct fluid (SOF) without somatic cells was used as an alternative culture system. Even when SOF-embryos were exposed to 10(6.3) TCID(50)/ml BHV-1 or 10(5.3) TCID(50)/ml CP, and NCP BVDV, the rates of blastocyst formation of the BHV-1-, CP-, and NCP BVDV-exposed embryos were not different from the unexposed control embryos, 23%, 24%, and 24%, respectively, vs. 27%. Taken together, it can be concluded that the virus-induced adverse effects on embryonic development in conventional co-cultures were due to changes in the embryonic environment caused by infection of oviductal cells.     

Multinucleated Giant Cell Formation in BHK-21-528 Cell Monolayers Infected with Japanese Encephalitis Viruses1

Formation of prominent multinucleated giant cells (MGC) was observed in monolayers of a clonal line of BHK-21 cells (BHK-21–528) when infected with Japanese encephalitis virus (JEV). MGC were first observed 3 to 4 days after infection and cytopathic changes proceeded thereafter. Formation of MGC is a typical cytopathic change in this clonal cell line. Virus titer in 50% tissue culture infective dose (TCID₅₀) equaled that in 50% MGC-forming dose. Virus titer in TCID₅₀ was approximate to plaque-forming units (PFU) in the same host cells. An ability of JEV to form MGC was maintained at least for six serial passages in BHK-21–528. It was inactivated by heating at 56 C for 3 min. All JEV strains, except an attenuated live vaccine strain, induced formation of MGC in BHK-21–528 cells. Red blood cells of several animal species were not adsorbed to MGC induced by JEV. The MGC-forming ability of JEV was specifically neutralized by anti-JEV serum. By fluorescence antibody technique, the MGC were specifically stained by anti-JEV antibody conjugated with fluorescein isothiocyanate. Immunization of animals with lysates of the MGC resulted in production of antibodies against JEV, but no antibody against other viruses which have been reported to induce MGC formation. From these evidences, it was concluded that JEV induced formation of MGC in BHK-21–528.