CN112898419A - Monoclonal antibody for detecting highly pathogenic PRRSV (porcine reproductive and respiratory syndrome Virus) and application thereof - Google Patents
Monoclonal antibody for detecting highly pathogenic PRRSV (porcine reproductive and respiratory syndrome Virus) and application thereof Download PDFInfo
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Abstract
The monoclonal antibody hybridoma cell strain 3E8 with high specificity and high sensitivity is prepared, the monoclonal antibody secreted by the hybridoma cell strain 3E8, the PRRSV-NVDC-JXA1 strain and the PRRSV-JXA1-R vaccine attenuated strain obtained by passage have good reactivity, have broad-spectrum reactivity for American PRRSV and European PRRSV, and can be used for detection of the American PRRSV and European PRRSV, and meanwhile, the monoclonal antibody can inhibit and reduce CPE caused by inoculation of the PRRSV-NVDC-JXA1 strain, and has certain neutralization activity for PRRSV virus.
Description
The technical field is as follows:
the invention belongs to the field of biology, and particularly relates to a monoclonal antibody for detecting highly pathogenic PRRSV (porcine reproductive and respiratory syndrome Virus), and a preparation method and application thereof.
Background art:
porcine Reproductive and Respiratory Syndrome (PRRS) is a highly-contact infectious disease mainly characterized by reproductive disorders of pregnant sows and respiratory diseases of piglets, caused by PRRSV (PRRSV), and has the main clinical symptoms of reproductive disorders of pregnant sows, manifested by abortion, stillbirth, mummy and weak fetuses, respiratory diseases of pigs of various ages, particularly piglets, high mortality, immunosuppression, persistent infection and the like, so that the PRRS is one of important infectious diseases which seriously affect the health development of the world pig industry at present, particularly, the high pathogenic Porcine reproductive and respiratory syndrome (HP-PRRS) mainly characterized by high fever, high morbidity and high mortality appears in China and surrounding countries since 2006, and causes great economic loss to the pig industry in China. PRRS is difficult to control mainly because: first, PRRSV infects and spreads silently in a variety of ways, with high infectivity; secondly, the PRRSV is taken as an RNA virus and has high variability, the difference of the antigenic epitopes of different strains is large, and the cross protection of different vaccines is poor, so that the prevention and control become extremely troublesome; thirdly, the PRRSV can be latent in the pig body for a long time, once the immunity of the organism is low, the PRRSV can enter in a deficient state and multiply in a large amount, so that the pig shows clinical symptoms and is further ill.
Porcine Reproductive and Respiratory Syndrome Virus (PRRSV) belongs to the order Nidovirales (Nidovirales), the family of arteriviraceae (Arterviridae), the genus of arterivirus (genus Arterviridae), and is a positive strand, single stranded RNA virus with an envelope. PRRSV is classified into european type (type i, representing strain LV) and north american type (type ii, representing strain VR2332), and the genotype of PRRSV circulating in our country is mainly type ii. PRRSV invades the body mainly through two routes, the respiratory system and the reproductive system, thereby destroying the immune system, such as macrophages and monocytes, and sometimes causing death of the body by secondary infections (bacterial and fungal infections). When a patient pig is infected with PRRSV, the virus proliferates in large amounts in the organism PAM cells, thereby damaging and gradually disrupting PAM cells and mononuclear macrophages, PRRSV homeopathically enters the systemic blood and lymph circulation, causing systemic reactions and possibly triggering viremia.
The virus can invade immune system to cause persistent infection, and is generally prevented and controlled by means of immune vaccine at present, but the epidemic situation of the epidemic disease is increasingly complicated and changeable due to the large amount of vaccine, so that the method for quickly diagnosing the PRRSV is established, and the method has important guiding significance for the PRRS epidemiological investigation and the control of the epidemic disease of swine herds in China. Diagnosis of PRRS is generally divided into etiology and serology. Diagnostic tools for detecting PRRSV are very important, and diagnosis of PRRSV based on-site clinical symptoms is very difficult due to changes in signs of infection. The most common diagnostic tools for diagnosing PRRSV include immunoperoxidase monolayer cell assay (IPMA), enzyme-linked immunosorbent assay (ELISA), real-time fluorescent quantitative RT-PCR, indirect immunofluorescence IFA, serum neutralization assay and the like, but the real-time fluorescent quantitative RT-PCR has high technical content and detection cost, and false positive results easily occur; the antibody detection method is most classic in US IDEXX and French LSI, wherein the Herdchek ELISA detection kit of IDEXX company uses whole virus as coating antigen, and is generally a standard method for detecting PRRSV antibody. Researches show that organisms generate antibodies with higher levels in early infection, antibodies aiming at N and M proteins can be detected firstly, the antibody detection method plays an important role in epidemic disease prevention and control, at present, enzyme-linked immunosorbent assay (ELISA) is simple, convenient, quick and sensitive to operate and easy to standardize in a plurality of PRRSV detection methods, and is very suitable for large-scale epidemiological investigation and monitoring. At present, PRRSV antibody detection in China mainly depends on detection kits imported from foreign countries and is expensive, so that establishment of a domestic PRRSV antibody detection method with good specificity and high sensitivity has great significance for PRRSV prevention and control in China, and preparation of a PRRSV monoclonal antibody with high specificity and sensitivity has great significance for PRRSV detection methods and detection kit preparation.
The invention content is as follows:
in order to solve the technical problems, the invention aims to provide a monoclonal antibody for detecting highly pathogenic PRRSV and a preparation method and application thereof, the monoclonal antibody hybridoma cell strain 3E8 with high specificity and high sensitivity is prepared, and the secreted monoclonal antibody has broad-spectrum reaction activity on American type PRRSV and European type PRRSV, can be used for detecting the American type PRRSV and the European type PRRSV and has certain neutralization activity on the PRRSV virus.
In order to solve the technical problems, the invention adopts the following technical means:
the monoclonal antibody against PRRSV is obtained by secretion of a hybridoma cell strain 3E8, wherein the hybridoma cell strain 3E8 is preserved in Guangdong province microbial culture Collection (GDMCC), and the preservation number is as follows: GDMCC No: 61302, preservation date is 2020, 11 months and 20 days; the preservation address is as follows: guangdong institute for microorganisms, Guangdong province, No. 59 building, No. 5 building, Miehuo, No. 100, Miehuo, Guangzhou, China.
A hybridoma cell strain is named as 3E8 and is preserved in Guangdong province microbial culture collection center (GDMCC), and the preservation number is as follows: GDMCC No: 61302, preservation date is 2020, 11 months and 20 days; the preservation address is as follows: guangdong institute for microorganisms, Guangdong province, No. 59 building, No. 5 building, Miehuo, No. 100, Miehuo, Guangzhou, China.
The invention also claims the application of the monoclonal antibody in establishing a PRRSV detection method, and the detection method is used for clinical detection or non-clinical laboratory research.
The invention also requests to protect the application of the monoclonal antibody in preparing the ELISA kit for PRRSV detection.
The invention also provides application of the monoclonal antibody in preparation of a colloidal gold test strip for PRRSV detection.
The colloidal gold test strip for detecting the PRRSV is characterized in that the test strip is assembled by adopting the monoclonal antibody as a detection line, a purified rabbit anti-PRRSV polyclonal antibody as a gold-labeled antibody and a goat anti-rabbit IgG as a quality control line.
The ELISA kit for detecting PRRSV is characterized in that the kit takes the monoclonal antibody as a detection antibody, and a rabbit anti-PRRSV polyclonal antibody coats an ELISA plate.
The invention also claims the application of the monoclonal antibody in preparing a medicament for treating PRRSV infection, and the monoclonal antibody has neutralizing activity for PRRSV virus.
Based on the technical scheme, the invention has the following advantages and beneficial effects:
firstly, the invention prepares a monoclonal antibody hybridoma cell strain 3E8 with high specificity and high sensitivity by taking PRRSV-NVDC-JXA1 preserved by the company as an antigen, the antibody titer in the cell culture supernatant of the hybridoma cell strain reaches 1:512, the hybridoma ascites titer can reach 1:20480 which is far higher than that of other prepared hybridoma cell strains, the monoclonal antibody secreted by the hybridoma cell strain 3E8 has good reaction activity with PRRSV-NVDC-JXA1 strain and PRRSV-JXA1-R vaccine attenuated strain obtained by passage, has broad-spectrum reactivity to both American type PRRSV and European type PRRSV, can be used for detecting the American type PRRSV and the European type PRRSV, meanwhile, the monoclonal antibody can inhibit and reduce CPE caused by inoculation of PRRSV-NVDC-JXA1 strain, and has certain neutralizing activity on PRRSV virus.
Secondly, the invention adopts the prepared monoclonal antibody 3E8 and polyclonal antibody to construct an ELISA kit and a detection method for detecting highly pathogenic PRRSV infection, and the ELISA kit can detect the American PRRSV virus which is mainly prevalent at present, is suitable for preventing and controlling the PRRS epidemic situation in China, can detect the European PRRSV virus which is prevalent in the European area, and is suitable for being used as a main detection means of import and export quarantine departments. And tests show that the concentration of the PRRSV-NVDC-JXA1 detected by the kit at the lowest level is 0.05 mu g/mL, the concentration of the PRRSV-DV strain is 0.1 mu g/mL, the consistency with RT-PCR detection is 100%, and compared with the kit reported by the prior art, the kit is more sensitive and accurate.
In conclusion, the monoclonal antibody with high sensitivity and specificity can be used for detecting American type PRRSV and European type PRRSV, and simultaneously, the monoclonal antibody can inhibit and reduce CPE caused by inoculation of PRRSV-NVDC-JXA1 strain, and has certain neutralizing activity on PRRSV virus.
Description of the drawings:
FIG. 1: monoclonal antibody identification results, wherein A, PRRSV-NVDC-JXA1 strain (virulent strain); b, PRRSV-JXA1-R vaccine attenuated strain; c, negative control.
FIG. 2: the strain detection activity identification result of the monoclonal antibody, wherein A is negative control; b, PRRSV-NVDC-JXA1 strain (virulent strain); c, PRRSV-GD strain (virulent strain); d, PRRSV-JXA1-R vaccine attenuated strain; e, PRRSV-VR 2332; f, PRRSV-DV strain.
FIG. 3: the neutralizing activity of the monoclonal antibody was measured.
FIG. 4: the result of a specific test of ELISA, wherein 1, PRRSV-NVDC-JXA 1; 2, PEDV; 3, CSFV; 4, PCV 1; 5, PCV 2; 6, PPV; 7, PRRSV-DV strain; 8, SPF pig serum.
FIG. 5: the specific test result detected by the colloidal gold test strip is 1, PRRSV-NVDC-JXA 1; 2, PEDV; 3, CSFV; 4, PCV 1; 5, PCV 2; 6, PPV; 7, SPF pig serum.
The specific implementation mode is as follows:
EXAMPLE 1 establishment, identification and preservation of monoclonal antibody hybridoma cell lines
1.1 preparation of antigen and immunization of Balb/c mice
The invention adopts a PRRSV virus NVDC-JXA1 strain (preserved and provided by Guangdong Yongshu biological pharmacy Co., Ltd.) as an immunogen, inoculates the PRRSV virus NVDC-JXA1 strain into a Marc-145 cell (preserved and provided by Guangdong Yongshu biological pharmacy Co., Ltd.), when the cytopathic effect reaches 80-90%, repeatedly freezes and melts for 3 times at-80 ℃ so that the virus is released from the cell, centrifuges for 5 minutes at 3000rpm, removes cell debris, collects virus liquid, determines the TCID50 virus price, and freezes and stores at-70 ℃ for standby after subpackage.
Adopting a PRRSV virus NVDC-JXA1 strain frozen at-70 ℃ as an immunizing antigen, and diluting the immunizing antigen to 10 ℃ by using sterilized normal saline6TCID50The virus dilution is mixed and emulsified with equal volume of Freund's complete adjuvant (Sigma company) according to the proportion of 1:1, female SPF-grade Balb/c mice (purchased from the center of laboratory animals in Guangdong province) of 6 weeks old are immunized, and the abdomen of the female SPF-grade Balb/c mice is injected subcutaneously in multiple points, 200 mu L of each mouse; after 14 days, the virus diluted solution is mixed with an equal volume of Freund incomplete adjuvant (Sigma company) according to a ratio of 1:1 for emulsification, and then abdominal subcutaneous multi-point injection is carried out, wherein 200 mu L of each virus is prepared; after 14 days, the same procedure was followed for the third immunization. Collecting blood from tail vein 7 days after the third immunization, detecting antibody titer in immune serum by indirect ELISA method, selecting two mice with highest antibody titer, and injecting tail vein for boosting immunization 3 days before fusion, 200 μ L each.
1.2 preparation and screening of hybridomas
(1) Preparation of hybridomas
Taking the spleen of a mouse which is immunized for 3 days in an aseptic manner, preparing a spleen cell suspension, mixing the spleen cell suspension with mouse myeloma cells (SP2/0) in a logarithmic growth phase according to a ratio of 10:1, centrifuging for 7min at 1000rpm, removing supernatant, flicking the bottom of a tube to disperse and mix the cells uniformly, and fusing under the action of PEG. The specific fusion is as follows: sucking 1mL of the fluxing agent PEG preheated in advance at 37 ℃, slightly shaking the centrifuge tube while adding the fluxing agent PEG at a constant speed within 1min, and immediately standing the centrifuge tube in a water bath at 40 ℃ for 2 min. Then adding 1mL of DMEM culture solution preheated at 37 ℃ in advance into 30S, adding 2mL of preheated DMEM culture solution into 1min, adding 10mL of preheated DMEM culture solution into 2min, slightly shaking the centrifuge tube while dropping liquid, 1000r/min, centrifuging for 7min, discarding supernatant, slightly suspending and precipitating cells by using 40mL of HAT selection culture solution containing 20% fetal calf serum, uniformly mixing, adding 100 mu L of each well into a feeder layer cell 96-well cell culture plate prepared in the previous day, and adding 5% CO into the culture plate at 37 ℃ and 5% CO2And (3) carrying out saturated humidity culture, slightly taking out the culture medium after 24h to observe whether the culture medium is polluted, and if a polluted hole is formed, adding 1% NaOH, so that the culture medium is free from pollution and needs to be placed back into an incubator to avoid long-time observation outside, and the growth of fused cells is easily influenced. And 5-7 d later, supplementing or replacing the culture solution with 20% FBS HAT culture solution once (based on the cell growth condition), and observing the growth condition of the fused cells.
(2) Establishment of Indirect Immunofluorescence (IFA) method
Healthy Balb/c mice of 4-6 weeks old were bred under the same conditions as the immunized mice, and served as negative control mice. The immune mice and the control mice are subjected to blood collection before fusion, and negative and positive serum is separated and stored at the temperature of minus 20 ℃ for later use.
The specific method of indirect immunofluorescence is as follows:
a. culturing Marc-145 cells, reserving a bottle of normal cells without virus inoculation as a negative control, inoculating Marc-145 cells with PRRSV virus NVDC-JXA1 strain, inoculating 150 mu L10. mu.L of cells in each bottle6TCID50Virus liquid, placing at 37 deg.C and 5% CO2Culturing in incubator, preparing digestive cell if 50% -70% cytopathic effect is observed, removing old culture solution in bottle, adding 1mL pancreatin digestive solution, and microscopic examinationObserving to find that the intercellular space is increased and the refractivity is enhanced by a microscope, and then discarding pancreatin; directly adding 1mL of culture solution containing serum, terminating digestion of residual pancreatin and repeatedly blowing and sucking to make cells fall off from the wall, transferring the cell suspension into a 2mL EP tube, centrifuging at 2000rpm for 3 min; discarding the supernatant, adding 800 μ L PBS, and gently blowing and resuspending by a pipette gun; simultaneously digesting and resuspending normal Marc-145 cells according to the method;
b. preparing a clean glass slide, uniformly coating a cell buffer solution in the holes of the glass slide, fully airing for 1h, fixing the glass slide after sample application by using acetone refrigerated at the temperature of-20 ℃ for 10min, naturally airing, and storing at the temperature of-20 ℃ for later use;
c. taking SP2/0 cell culture supernatant, positive serum of an immune mouse, negative serum of a control mouse and supernatant of hybridoma cells to be detected as primary antibodies, diluting the supernatant by using stock solution and negative and positive serum by using PBS buffer solution, dripping 20 mu L of the supernatant into small holes on a glass slide respectively, paying attention to avoid mutual spreading of liquid in the holes, placing the holes in a wet box for incubation, and acting for 30min at 37 ℃;
d. discarding the liquid on the glass slide, washing with PBS buffer solution for 3 times, 3min each time, naturally air drying, diluting FITC-labeled goat anti-mouse IgG secondary antibody with PBS buffer solution to working concentration (1:100 times dilution), 20 μ L per well, incubating in a humid box in dark, and acting at 37 deg.C for 30 min;
e. washing with PBS buffer solution for 3 times, 5min each time, air drying, adding 50% glycerol, sealing with cover glass, and observing result with fluorescence microscope;
f. and (3) the hybridoma cells which are detected to be positive are rechecked by using a prepared non-toxic normal Marc-145 cell sheet, so that false positive is avoided. (3) Screening and subcloning of hybridoma cells
Screening cell culture supernatant by adopting an indirect ELISA method, selecting strong positive clone hybridoma cells, carrying out subcloning by adopting a limiting dilution method, continuously cloning for 3 times, simultaneously adopting IFA to detect so that the positive rate of the clone cells reaches 100 percent, determining to obtain hybridoma cell strains capable of stably secreting specific monoclonal antibodies, transferring the hybridoma cell strains into a 24-hole plate from a 96-hole plate, continuously passaging to 12-hole and 6-hole cell culture plates, finally carrying out expanded culture in a cell bottle, storing by using liquid nitrogen, and obtaining 3 hybridoma cell strains capable of stably secreting antibodies, namely 1G4, 3E8 and 5D 2.
1.3 Performance determination of hybridoma cell lines
(1) Stability characterization of hybridoma cells
Freezing and restoring the 3 screened hybridoma cell strains, continuously subculturing for 20 generations, collecting cell culture supernatant, and detecting the antibody level by using an IFA method, wherein the results are shown in the following table 1:
TABLE 1 stability identification of hybridoma cells
The results in table 1 show that the monoclonal antibodies secreted by 1G4 and 3E8 in the 3 hybridoma cell lines obtained by the invention are stable, but the monoclonal antibodies secreted by the 5D2 hybridoma cell line are reduced in antibody secretion ability and antibody titer along with cryopreservation and passage; the antibody secretion capacity of 3E8 is enhanced along with passage purification, when the antibody is passaged for 20 generations, the antibody titer reaches 1:512, which is higher than that of other hybridoma cell strains, and after freezing recovery, the antibody titer is not obviously influenced, so that the hybridoma cell strain 3E8 has the best stability for secreting the antibody, and 1G4 is the next step.
(2) Detection of monoclonal antibody titer of hybridoma cell strain
Respectively subculturing hybridoma cell strain 3E8, hybridoma cell strain 1G4 and hybridoma cell strain 5D2 for 20 generations, selecting 5 healthy Balb/c mice with the age of 8-10 weeks as a group, injecting 500 microliter Freund incomplete adjuvant into the abdominal cavity of each mouse, after 7 days, selecting hybridoma cell strain 3E8, hybridoma cell strain 1G4 and hybridoma cell strain 5D2 with good subculture state, respectively counting, injecting about 10 percent into the abdominal cavity of each mouse6(ii) individual hybridoma cells; after 7-14 days, observing that when the abdomen of the mouse is raised, the ascites in the mouse is slowly sucked out by a disposable syringe, sucking for a plurality of times according to the induction condition in the mouse, centrifuging after collection to remove impurities such as fat and the like, and freezing at-20 ℃ for later use.
The titer of the hybridoma cell subculture supernatant and ascites was examined by the indirect Immunofluorescence (IFA) method according to (3), and the hybridoma cell culture supernatant was diluted at 1:8, 1:16, 1:32, 1:64, 1:128, 1:256, 1:512, 1:1024, the induced monoclonal antibody ascites was diluted at 1:40, 1:80, 1:160, 1:320, 1:640, 1:1280, 1:2560, 1:5120, 1:10240, 1:20480, SP2/0 cell culture supernatant was used as a negative control, a previously prepared smear of Marc-145 cells infected with PRRSV virus NVDC-JXA1 strain was added thereto, and 2 parallel duplicate wells were made per well, and the measurement was carried out by the indirect Immunofluorescence (IFA) method according to (3). The highest dilution identified as positive was finally determined as IFA titer. The results are given in table 2 below:
TABLE 2 monoclonal antibody titers in hybridoma cell culture supernatants and ascites
Hybridoma cell strain | Supernatant titer after passage 20 generations | Ascites titer of hybridoma |
1G4 | 1:128 | 1:5120 |
3E8 | 1:512 | 1:20480 |
5D2 | 1:32 | 1:2560 |
Based on the results in table 2 above, it can be seen that in the 3 hybridoma cell lines obtained by the present invention, the ability of 1G4 and 3E8 to secrete monoclonal antibodies is stronger, wherein the ability of hybridoma cell line 3E8 to secrete monoclonal antibodies is strongest, the antibody titer in the cell culture supernatant reaches 1:512, and the hybridoma ascites titer can reach 1:20480, which is much higher than that of hybridoma cell line 1G4 and hybridoma cell line 5D 2.
(3) Subtype identification of monoclonal antibodies
The monoclonal antibody in the ascites purified from hybridoma cell line 3E8 was subtype-determined using a subtype determination kit from sigma, and was determined to be of the IgG1 subclass, with the light chain being the kappa chain.
(4) Monoclonal antibody identification
A PRRSV strain PRRSV-NVDC-JXA1 strain (virulent strain) preserved by Guangdong Yongshun biopharmaceutical GmbH of the company and a PRRSV-JXA1-R vaccine attenuated strain (an attenuated vaccine production strain of the company) obtained by passage are used for infecting Marc-145 cells, non-virulent Marc-145 cells, mouse negative serum and SP2/0 cell supernatant are used as negative controls, hybridoma cell strain 3E8 culture supernatant is used as a positive control, and the reaction condition of a monoclonal antibody secreted by the hybridoma cell strain 3E8 and the PRRSV strain is analyzed, and the specific result is shown in figure 1.
Based on the results shown in FIG. 1, the monoclonal antibody secreted by the hybridoma cell strain 3E8, the PRRSV-NVDC-JXA1 strain and the PRRSV-JXA1-R vaccine attenuated strain obtained by passage have good reactivity.
(5) Preservation of hybridoma cell lines
Through the tests, the hybridoma cell strain 3E8 with high titer and good specificity to PRRSV antibody is obtained, and is used for storing biological materials of patent programs in Guangdong province microbial strain collection center (GDMCC), and the storage number is as follows: GDMCC No: 61302, named as Mus musculus hybridoma GDWS F5, classified and named as Mus musculus hybridoma; the preservation date is 2020, 11 and 20 days; the preservation address is as follows: guangdong institute for microorganisms, Guangdong province, No. 59 building, No. 5 building, Miehuo, No. 100, Miehuo, Guangzhou, China. Example 2: preparation and purification of hybridoma cell strain 3E8 monoclonal antibody ascites
2.1 in vivo induced ascites method for preparing monoclonal antibody
Selecting female Balb/c mice, injecting 500 μ L sterilized paraffin into abdominal cavity, injecting obtained monoclonal hybridoma cell 3E8 again into abdominal cavity after one week, with injection amount of 106After one week, ascites is extracted after the abdomen of the mouse is enlarged, the supernatant is centrifuged, and the ascites is purified by a saturated ammonium sulfate method.
2.2 purification of ascites fluid of monoclonal antibody (saturated ammonium sulfate method) and potency measurement
(1) And (3) adding PBS (phosphate buffer solution) with the same volume of pH 7.4 into crude monoclonal antibody ascites, and gently mixing the two.
(2) Placing on a shaking table, rotating at room temperature, slowly and dropwise adding saturated ammonium sulfate solution with equal volume to reach saturation of 50%, at this time, a large amount of white precipitate appears, and standing at room temperature for 30 min.
(3) Centrifuging at 12000rpm at 4 deg.C for 10min, discarding supernatant, resuspending the precipitate with PBS, placing on a shaker, slowly adding saturated ammonium sulfate to reach 35% saturation, and standing at room temperature for 30 min.
(4) And (4) repeating the step (3).
(5) Centrifuge at 12000rpm for 20min at 4 deg.C, discard the supernatant, and resuspend the pellet with PBS.
(6) Putting the antibody solution into a dialysis bag with a proper length, taking physiological saline filtered by a filter membrane with the diameter of 0.22 μm as dialysate, putting the dialysate into a rotor rotating liquid, and dialyzing for 24h at the temperature of 4 ℃, wherein the dialysate is frequently replaced.
(7) Collecting antibody, measuring and recording antibody titer by indirect ELISA method, subpackaging at 4 deg.C, and storing at-80 deg.C.
Example 3: activity characterization of monoclonal antibodies
(1) Strain detection activity identification of monoclonal antibody
The monoclonal antibody secreted by the hybridoma cell strain 8 obtained by analysis and purification and the reaction conditions of each strain of the PRRSV are analyzed by infecting Marc-145 cells with PRRSV strains, taking non-virulent Marc-145 cells, mouse negative serum and SP2/0 cell supernatant as negative controls and taking immune mouse positive serum as positive controls with PRRSV strains, wherein the PRRSV strains PRRSV-NVDC-JXA1 (virulent strains), PRRSV-GD strains (virulent strains), PRRSV-JXA1-R vaccine attenuated strains (attenuated vaccine production strains) stored by Guangdong Yongshun biopharmaceutical Limited company of the company, PRRSV classic strains PRRSV-VR2332 and European PRRSV, and the monoclonal antibody secreted by the hybridoma cell strain 8 obtained by purification and the reaction conditions of each strain of the PRRSV are analyzed, and the specific results are shown in figure 2.
Based on the results shown in fig. 2, it can be seen that the monoclonal antibody secreted by the hybridoma cell line 3E8 of the present invention reacts with all PRRSV strains, and thus, the monoclonal antibody of the present invention has broad-spectrum reactivity against both american type PRRSV and european type PRRSV.
(2) Determination of neutralizing Activity of monoclonal antibodies
Diluting the purified monoclonal antibody to the titer of 1:12800, then carrying out virus neutralization test on the monoclonal antibody secreted by the hybridoma cell line 3E8 to detect the neutralization activity, tiling Marc-145 cells to a 24-pore plate, inoculating virus liquid, wherein a positive control group adopts 106TCID50Virus solution (PRRSV-NVDC-JXA1 strain) and PBS buffer solution were mixed at a ratio of 1:1, and 10 was used in the test group6TCID50The virus solution (PRRSV-NVDC-JXA1 strain) and the monoclonal antibody diluent are mixed according to a ratio of 1:1, PBS buffer solution is adopted as a negative control group, and the neutralization activity is determined by observing the cytopathic condition, and the specific result is shown in figure 3. Based on the results shown in FIG. 3, it can be seen that the monoclonal antibody of the present invention can inhibit and reduce CPE caused by inoculation of PRRSV-NVDC-JXA1 strain, and has a certain neutralizing activity against PRRSV virus.
Example 4: establishment of ELISA detection method
4.1 preparation of polyclonal antibodies against PRRSV:
culturing a PRRSV-NVDC-JXA1 strain by using Marc-145 cells, taking the PRRSV purified by ultracentrifugation as an antigen, fully emulsifying the antigen with Freund's complete adjuvant, performing subcutaneous point injection to immunize 60-day-old rabbits (5mg antigen/rabbit), fully emulsifying the same antigen with Freund's incomplete adjuvant respectively for 15 days and 30 days, then performing boosting immunization once respectively, collecting whole body blood by carotid intubation after 45 days, standing overnight at 4 ℃, centrifuging 3000g for 15min, separating and collecting serum; the polyclonal antibody against PRRSV is obtained by Protein G affinity chromatography purification and concentrated to 5 mg/mL.
4.2 establishment of ELISA detection method
The PRRSV-ELISA test was established by reference to the method in patent application CN201010252436.1 (university of yangzhou, publication No. CN101915846A), which was coated with a polyclonal antibody in the present invention, so that the established method could identify PRRSV strains more extensively, and the following tests were also performed in the present invention:
4.2.1 determination of optimal working concentrations of monoclonal and polyclonal antibodies
(1) Coating: using carbonate coating solution to perform gradient dilution on the anti-PRRSV polyclonal antibody, 100 mu L/hole, coating for 2h at 37 ℃, and then standing overnight at 4 ℃; gently throwing out liquid in the holes, washing with PBST cleaning solution for 3 times, and patting dry on absorbent paper every 5 min;
(2) and (3) sealing: blocking with 10% calf serum as blocking agent at 200 μ l/well at 37 deg.C for 2h, washing with PBST washing solution for 3 times, and drying;
(3) adding an antigen: adding purified PRRSV virus and negative cell antigen into an ELISA plate at the same concentration (5 mug/ml) at intervals by using a diluent, performing action at 37 ℃ for 30min by using 100 mug/hole while setting a PBS blank control, washing for 3 times by using PBST washing liquid, and patting to dry;
(4) adding a monoclonal antibody: diluting monoclonal antibody 3E8 with diluent, adding into enzyme labeling plate, making 100 μ l hole, setting PBS blank control, acting at 37 deg.C for 30min, washing with PBST cleaning solution for 3 times, and patting to dry;
(5) adding an enzyme-labeled secondary antibody: adding diluted HRP-goat anti-mouse IgG, acting at 37 deg.C for 30min, washing with PBST washing solution for 3 times, and drying;
(6) color development and termination: adding 100 mu l of TMB color development liquid, keeping out of the sun at room temperature for 10-15 min, adding 2M H2SO450 μ l/well, OD read on microplate reader450. The concentration combination of the monoclonal antibody and the polyclonal antibody is the optimal working concentration when the OD value of the positive hole is close to 1 and the P/N value is maximum.
According to the determination of a square matrix test, when the combination of the monoclonal antibody 3E8 and the anti-PRRSV polyclonal antibody is adopted, the maximum P/N value is 13.28 when the monoclonal antibody amount is 100ng and the polyclonal antibody coating amount is 500 ng.
TABLE 3 determination of optimal working concentrations of monoclonal and polyclonal antibodies
4.2.2 determination of optimal blocking solution
According to the determined optimal working concentration combination of the monoclonal antibody and the polyclonal antibody, 4% gelatin-PBST, 1% BSA-PBST, 5% skim milk-PBST, 5% calf serum-PBST and 10% calf serum-PBST are respectively used as blocking agents for ELISA detection. After different sealing liquids act, the P/N values are different, wherein the result of the calf serum as the sealing liquid is obviously superior to that of other sealing liquids, and the sealing effect (P/N value is 13.15) of 10% calf serum is superior to that of 5% calf serum (P/N value is 8.31).
4.2.3 determination of optimal seal time
According to the determined optimal working concentration combination of the monoclonal antibody and the polyclonal antibody and the sealing solution, ELISA detection is carried out by adopting different sealing time (60min, 90min and 120min), and when the sealing time is 90min, the effect is optimal (the P/N value is 13.49).
4.2.4 determination of the action time of the detection antigen, monoclonal antibody, enzyme-labeled antibody
After the optimal working concentration combination, the confining liquid and the confining time of the ELISA monoclonal antibody and the polyclonal antibody are determined, ELISA detection is carried out on the detection antigen, the monoclonal antibody and the enzyme-labeled antibody by adopting different action times. The difference of the P/N values of different action times is not obvious, and the CN201010252436.1 time is referred, and the result is obtained by quick sensitivity in clinical application, so the action time of 30min is more suitable.
4.2.5 establishment of Positive and negative criteria
When 50 negative samples are detected by the ELISA method established above, the average OD value of the negative samples is 0.17, and the standard deviation SD is 0.025, so that the positive judgment standard is 0.245 calculated by the mean OD value +3 times SD, namely the OD value of the detection sample is more than 0.245, and the detection sample can be judged to be positive.
4.3 specificity test of ELISA
ELISA detection is carried out by using PRRSV-NVDC-JXA1, PEDV, CSFV, PCV1, PCV2, PPV and PRRSV-DV strains produced and used by the company as detection antigens, wherein the detection of PEDV, CSFV, PCV1, PCV2 and PPV is negative, and the detection results of PRRSV-NVDC-JXA1 and PRRSV-DV are positive, and the specific results are shown in the following table 4 and figure 4:
TABLE 4 specificity test of ELISA
Virus | PRRSV-NVDC-JXA1 | PEDV | CSFV | PCV1 |
OD | 1.682 | 0.052 | 0.055 | 0.042 |
Virus | PCV2 | PPV | PRRSV-DV strains | SPF pig serum |
OD | 0.046 | 0.041 | 0.976 | 0.032 |
The results show that the ELISA method established by the invention has good specificity on PRRSV, can effectively detect American type PRRSV and European type PRRSV, and has no response on common viruses such as classical swine fever virus and diarrhea virus of pigs.
4.5 ELISA sensitivity test
The purified PRRSV-NVDC-JXA1 and PRRSV-DV strains are respectively diluted into different concentrations in a continuous multiple ratio, the lowest detection amount is detected by an established ELISA method, and a negative control is set in the operation process, so that the result shows that the concentration of the purified PRRSV-NVDC-JXA1 detected in the established ELISA test is 0.05 mu g/mL, and the concentration of the PRRSV-DV strains is 0.1 mu g/mL.
4.6 clinical sample testing
100 parts of clinically collected pig lung or lymph node samples are respectively detected by the ELISA method and the RT-PCR method. The ELISA method shows that 59 positive samples exist, the RT-PCR detection result is that the 59 positive samples exist, and the coincidence rate of the two is 100%.
Example 5: application of monoclonal antibody 3E8 in colloidal gold test strip detection method
The test strip is assembled by adopting the purified 3E8 monoclonal antibody as a detection line, the purified rabbit anti-PRRSV polyclonal antibody as a gold-labeled antibody and the goat anti-rabbit IgG as a quality control line. The test strip can specifically react with PRRSV, and has no cross reaction with PEDV, CSFV, PCV1, PCV2, PPV and the like, and the specific result is shown in figure 5.
The above is only a preferred embodiment of the present invention, and a person skilled in the art can make several modifications and decorations without departing from the technical principle of the present invention, and these modifications and decorations should be regarded as the protection scope of the present invention.
Claims (8)
1. The monoclonal antibody against PRRSV is obtained by secretion of a hybridoma cell strain 3E8, wherein the hybridoma cell strain 3E8 is preserved in Guangdong province microbial culture Collection (GDMCC), and the preservation number is as follows: GDMCC No: 61302, preservation date is 2020, 11 months and 20 days; the preservation address is as follows: guangdong institute for microorganisms, Guangdong province, No. 59 building, No. 5 building, Miehuo, No. 100, Miehuo, Guangzhou, China.
2. The hybridoma cell line secreting the monoclonal antibody of claim 1, wherein the hybridoma cell line is named as 3E8 and deposited in Guangdong province culture Collection (GDMCC), and the accession number is: GDMCC No: 61302, preservation date is 2020, 11 months and 20 days; the preservation address is as follows: guangdong institute for microorganisms, Guangdong province, No. 59 building, No. 5 building, Miehuo, No. 100, Miehuo, Guangzhou, China.
3. Use of the monoclonal antibody of claim 1 for establishing a PRRSV detection method for clinical or non-clinical laboratory studies.
4. The use of the monoclonal antibody of claim 1 in the preparation of an ELISA kit for PRRSV detection.
5. The use of the monoclonal antibody of claim 1 in the preparation of a colloidal gold test strip for detecting PRRSV.
6. A colloidal gold test strip for detecting PRRSV is characterized in that the test strip is assembled by using the monoclonal antibody in claim 1 as a detection line, using a purified rabbit anti-PRRSV polyclonal antibody as a gold-labeled antibody and using goat anti-rabbit IgG as a quality control line.
7. An ELISA kit for detecting PRRSV, characterized in that the kit uses the monoclonal antibody in claim 1 as a detection antibody, and uses rabbit anti-PRRSV polyclonal antibody to coat an ELISA plate.
8. Use of a monoclonal antibody according to claim 1 having neutralizing activity against PRRSV virus for the manufacture of a medicament for the treatment of PRRSV infection.
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