RU2682876C1 - Inactivated emulsion vaccine for o-type aphthous fever - Google Patents

Abstract

FIELD: veterinary medicine.SUBSTANCE: invention relates to the field of medicine, namely to veterinary virology and biotechnology, and can be used to obtain an inactivated emulsion vaccine for O-type aphthous fever. Vaccine inactivated emulsion for O-type aphthous fever contains avirulent and purified antigenic material from the virus strain of Picornaviridae family, Aphtovirus genus, Aphtae epizooticae species, O type, SEA topology, Mua-98 genetic line, deposited in the Collection of microorganism strains of the Federal Centre for Animal Health (FGBI ARRIAH), under registration number (link): VYa O No. 2212/Primorsky/2014 strain (production), in an effective amount.EFFECT: vaccine has high immunogenicity and is able to provide effective protection against the homologous infectious agent circulating in the countries of Southeast and Central Asia, the Far East.10 cl, 1 dwg, 8 ex, 9 tbl

Description

Foot and mouth disease according to the FAO / OIE classification belongs to the group of “cross-border infections” that are of great economic importance for trade and food security in all countries. The foot and mouth disease virus can spread easily and become epizootic. In the Russian Federation, a system of measures for the control and prevention of foot and mouth disease has been developed, which provides for the prevention of virus entry into the country, systematic vaccination of cattle and small cattle in the buffer zone and monitoring of the immune status of vaccinated animals. For immunization of animals, a vaccine made from a virus homologous to field isolates should be used [1].

In 2014, outbreaks of foot and mouth disease type O were recorded in the Transbaikal and Primorsky Territories of the Russian Federation, as well as in neighboring countries. The nucleotide sequencing of the field isolates of the virus isolated in the Transbaikal Territory made it possible to attribute it to the PanAsia genetic line of the ME-SA type [2]. The virus of the same line circulated in 2014 in Mongolia.

An outbreak of foot and mouth disease in the Primorsky Territory is caused by an isolate of the virus, which belongs to the Mua 98 line of the SEA type and has a high nucleotide affinity (96.87%) with an isolate isolated in 2014 in South Korea [2].

Vaccine prophylactic efficacy, determined by epidemiological indicators, is established in groups of vaccinated animals with a threat of the onset and spread of the disease. Vaccines should ensure the creation of mass immunity and prevent the spread of epizootic strains of foot and mouth disease virus.

Successful prophylactic group immunization requires information on the antigen compliance of vaccine strains and epizootic isolates circulating in the prophylactic vaccination zone. In case of outbreaks of the disease, it is by determining the nucleotide and antigenic compliance of the field isolate with the production strain that the most suitable strain can be most quickly determined for the production of vaccines used in risk areas [3].

The manufacturing technology of FMD vaccine from an inactivated virus begins with the selection of production strains based on an epizootological analysis of the dynamics of foot and mouth disease in the country and neighboring countries. When creating drugs for specific prophylaxis of foot and mouth disease, the required virus types are used, strains are selected with a rich set of antigenic variations within the type and with pronounced cross immunogenicity. A strain having a wide range of immunogenicity and satisfying the requirements of the region is selected with the help of its study in the cross-protection reaction or more often in the cross-neutralization reaction. As a rule, a virus population is used as a production strain, which, together with the system and conditions of industrial cultivation, ensures a guaranteed and high accumulation of 146S and 75S virus components and the production of an immunogenic vaccine.

In addition, the production strain has high demands on the stability of the virus during cleaning from tissue components and concentration, as well as on the preservation of the virus during inactivation and long-term storage [4].

An important feature of the causative agent of foot and mouth disease is the antigenic variability of strains within the same serotype, occurring at different time intervals, in different territories, and depending on the species composition of the susceptible livestock of animals, its immune status and many other factors.

It is believed that mainly amino acid sequence substitutions occur in the polypeptides of the viral proteins that make up the virion capsid. The resulting genetic and antigenic changes can be expressed both in insignificant differences between the strains, captured only with the help of subtle methods of molecular analysis, and in the appearance of completely different strains requiring the use of new means of specific prophylaxis of the disease induced by them [1, 5].

Shifts in the antigenic spectrum, corresponding to the renewal of the structure of the new field isolate, can vary from insignificant, detected by monoclonal antibodies, to significant, recorded using traditional polyclonal immunoglobulins. Significant changes in the antigenic characteristics of the natural isolate are very likely to weaken specific immunity induced by a non-homologous antigen.

As a result, there is a need to create new diagnostic tools and specific immunoprophylaxis.

Known strains of foot and mouth disease virus type O, used as production in Russia over the past 50 years. Among them, strain O ₁ No. 1618 Chechen-Ingush / 66, isolated in 1966, and strain O ₁ No. 194, isolated in 1957 in the Volgograd Region, are isolated. These strains were used to obtain diagnosticum and FMD vaccines used in various regions of the country; they are currently supported in the Collection of microorganism strains of the Federal State Budgetary Institution “Federal Center for Animal Health”.

The known strain O 1736 / Abkhazia / 2000 of foot and mouth disease virus isolated from cattle in the Gali district of Abkhazia, which is used for the manufacture of diagnostic and vaccine preparations.

The known strain O 1964 / Mongolia / 2004, discovered in cattle in February 2004 in the East Gobi aimak of Mongolia, which is used for the production of diagnostic and vaccine preparations [6].

Also known is strain O No. 1734 / Primorsky / 2000, isolated on April 13, 2000 from pigs in the OPP “Stepnoye” in the village of Elite, Ussuriysky District, Primorsky Krai [7].

A comparative analysis of the nucleotide sequences of strain O No. 1734 / Primorsky / 2000 was performed, which showed that this virus belongs to the PanAsia type O line. The pan-Asian virus caused a pandemic of foot and mouth disease in 1999-2000 in most countries in Asia, including Japan, Korea, Vietnam, Mongolia, as well as Armenia and Georgia. The devastating epidemic of foot and mouth disease in the UK in 2001 was also caused by a pan-Asian virus. The studied virus has the highest homology level (98.74%) with isolates O Vietnam / 99 and O Taiwan / 99. It was found that isolate O No. 1734 / Primorsky / 2000 differs from all previously isolated isolates, including strains O ₁ No. 194 and O ₁ No. 1618 used for the manufacture of diagnostic tools and specific prophylaxis.

The production strain O No. 1734 / Primorsky / 2000 of the foot and mouth disease virus is used in the Russian Federation as an industrial strain when creating diagnostic and specific prophylaxis tools used throughout Russia and the CIS countries.

A known vaccine is an inactivated emulsion against foot and mouth disease type O, containing the active substance in the form of avirulent and purified antigenic material from strain O, No. 1734 / Primorsky / 2000 homologous to the pathogen, obtained in a sensitive biological system, and target additives in the form of an adjuvant in an effective ratio.

For inactivation of the virus, aminoethylethyleneimine (AEEI) is used. In the manufacture of emulsion vaccines, Montanide ISA-70 and Montanide ISA-206 are used as adjuvants, and aluminum hydroxide (GOA) is used as adsorbed vaccine.

Purification of the virus-containing suspension from ballast impurities is carried out using polyhexamethylene guanidine hydrochloride.

The known strain About No. 2102 / Zabaykalsky / 2010, isolated in July 2010 from a sick pig in the village of Abagaytay, Zabaykalsky district of the Transbaikal Territory (examination No. 2102). This strain belongs to the genetic line of SEA.

The closest to the invention according to the set of essential features is an inactivated emulsion vaccine against foot and mouth disease type O containing the active substance in the form of avirulent and purified antigenic material from strain O No. 2102 / Zabaykalsky / 2010 obtained in a sensitive biological system homologous to the pathogen and targeted additives in in the form of adjuvants, μg / cm ³ :

The VNK-21 / 2-17 transplantable suspension cell line is used as a sensitive biological system for the reproduction of foot and mouth disease virus, and Earl solution without serum supplemented with enzymatic dry muscle hydrolysates (FSMS), dry blood protein hydrolysates (GBKS) is used as a supporting medium. antibiotics at a pH of 7.4-7.6.

Polyhexamethylene guanidine (PHMG) is used to purify the virus-containing suspension from ballast impurities. Inactivation of the antigen is carried out using AEEI, for the subsequent neutralization of which sodium thiosulfate is added to the suspension.

Avirulent and purified antigenic material from strain O No. 2102 / Zabaykalsky / 2010 is a suspension consisting mainly of 146S and 75S immunogenic components of foot and mouth disease virus.

In 2014, a viral isolate appeared, which served as a source for obtaining strain O No. 2212 / Primorsky / 2014, isolated in May 2014 from a sick pig at Mercy Trade LLC s. Prokhori Spassky district of Primorsky Territory (examination No. 2212). Production strain O No. 2212 / Primorsky / 2014 of type O FMD virus was obtained by successive passages on sensitive hetero- and homologous cell cultures.

The main significant drawback of known vaccines, including the prototype vaccine, is their insufficient immunogenic activity, which is explained by the low degree of protection of susceptible animals from epizootic isolates of FMD virus type O circulating in the countries of Central and Southeast Asia and the Far East.

To solve this problem, the present invention was created, which included the development of a vaccine against FMD inactivated emulsion, which creates effective protection of susceptible animals against field isolates of FMD virus type O, common in Central and Southeast Asia, the Far East.

The technical result from the use of the invention is to expand the arsenal of inactivated emulsion vaccines against foot and mouth disease type O.

The specified technical result was achieved by creating an inactivated emulsion vaccine against foot and mouth disease type O, characterized by the following set of features.

The developed vaccine in 1 cm ^{3 of the} preparation contains the following components: the active substance in the form of avirulent and purified antigenic material from a foot and mouth disease virus homologous to the pathogen infection strain O No. 2212 / Primorsky / 2014, preferably reproduced in the transplantable suspension cell line VNK-21 / 2-17, in an amount of not less than 3.0 μg and oil adjuvants Montanide ISA-70 or Montanide ISA-206, preferably in an amount of 600000.0-700000.0 or 500000.0-575000.0 μg, respectively.

Strain O No. 2212 / Primorsky / 2014, type O foot-and-mouth disease virus was deposited on May 29, 2015 into the Collection of microorganism strains of the Federal State Budgetary Institution “Federal Center for Animal Health” (FSBI “ARRIAH”), under the registration number (link): strain VYA O No. 2212 / Seaside / 2014 (production).

The strain is adapted to primary trypsinized pork kidney cells and transplantable cell lines from the kidney of a newborn Syrian hamster (VNK-21 / 2-17), pig's kidney (IB-RS-2) and Siberian mountain capricorn kidney (PSGK-30).

For the manufacture of the vaccine, a preferably transplantable suspension culture of VNK-21 / 2-17 cells is used as a sensitive biological system, and Earl's solution without serum supplemented with FGMS, GBKS and antibiotics at a pH of 7.4-7.6 is used as a supporting medium. . Inactivation of the virus is carried out using AEEI with a concentration of 0.025-0.050% of the volume of the virus-containing suspension. At the end of the process, AEEI is neutralized by adding sodium thiosulfate to the suspension [8]. The inactivated antigen is purified from ballast impurities using PHMG, which is added to the suspension to a concentration of 0.005-0.007% of the total volume [9].

Avirulent and purified antigenic material from strain O No. 2212 / Primorsky / 2014 is a suspension containing predominantly 146S immunogenic components of foot and mouth disease virus.

The qualitative and quantitative content of viral raw materials in the product is evaluated in the complement binding reaction (CSC) [10].

To prepare the vaccine, viral material is used that contains at least 0.5 μg of 146S immunogenic components of foot and mouth disease virus in 1 cm ³ .

The required concentration of 146S immunogenic components in the vaccine preparation is ensured by concentration of the antigen by flow ultrafiltration.

An emulsion vaccine is obtained by dispersing in colloid mills a concentrate of foot-and-mouth disease antigen and oil adjuvant in a ratio of 4: 6 and 1: 1 by weight, respectively. To enhance the immune response, an oil adjuvant manufactured by Seppic Montanide ISA-70 or Montanide ISA-206 is used.

The resulting vaccine is a milk-like liquid, insoluble in water.

The present invention includes the following set of essential features that provide a technical result in all cases for which legal protection is requested.

1. Inactivated emulsion vaccine against foot and mouth disease type O.

2. The active substance in the form of avirulent and purified antigenic material from a foot-and-mouth disease virus homologous to the pathogen of strain O No. 2212 / Primorsky / 2014 in an effective amount.

3. Targeted supplements.

The significant distinguishing features of the proposed vaccine are that as an active substance it contains avirulent purified antigenic material from strain O No. 2212 / Primorsky / 2014 in an effective amount.

The present invention is also characterized by other distinctive features expressing specific forms of execution or special conditions for its use:

1. Avirulent and purified antigenic material from strain O No. 2212 / Primorsky / 2014 of foot and mouth disease virus type O, obtained preferably in suspension transplantable cell culture BHK-21 / 2-17 and representing a suspension containing predominantly 146S immunogenic components of foot and mouth disease virus in an effective amount .

2. Avirulent and purified antigenic material from strain O No. 2212 / Primorsky / 2014 of type O foot and mouth disease virus, obtained preferably in suspension transplantable cell culture BHK-21 / 2-17 and representing a suspension containing predominantly 146S immunogenic components of foot and mouth disease virus less than 3.0 mcg in 1 cm ³ .

3. As a targeted supplement, the vaccine contains an oil adjuvant.

4. The vaccine contains Montanide ISA-70 adjuvant as an oil adjuvant.

5. The vaccine contains Montanide ISA-70 oil adjuvant in an amount of 600,000.0-700000.0 μg in 1 cm ^{3 of the} finished product.

6. Avirulent and purified antigenic material from strain O No. 2212 / Primorsky / 2014 of foot and mouth disease virus, obtained preferably in suspension transplantable cell culture BHK-21 / 2-17 and Montanide ISA-70 oil adjuvant in the amount, μg / cm ^{3 of the} finished preparation:

7. The vaccine contains Montanide ISA-206 adjuvant as an oil adjuvant.

8. The vaccine contains Montanide ISA-206 oil adjuvant in an amount of 500,000.0-575000.0 μg in 1 cm ^{3 of the} finished product.

9. Avirulent and purified antigenic material from strain O No. 2212 / Primorsky / 2014 of foot-and-mouth disease virus, obtained preferably in suspension transplantable cell culture BHK-21 / 2-17 and oil adjuvant Montanide ISA-206 in the amount, μg / cm ^{3 of the} finished product:

The proposed vaccine has high immunogenic activity and provides reliable protection against FMD virus type O circulating in the countries of Central and Southeast Asia, the Far East.

The achievement of the technical result from the use of the invention is achieved by the fact that antigenic material from strain O No. 2212 / Primorsky / 2014 is introduced as an active substance in the composition of the proposed FMD vaccine, which has high immunogenic activity, which effectively protects susceptible animals against foot and mouth disease virus serotype O, which causes recent years of the disease outbreak in the countries of Central and Southeast Asia, the Far East.

The invention is illustrated in the graphic image. A dendrogram is presented that reflects the phylogenetic relationships of a foot-and-mouth disease strain O No. 2212 / Primorsky / 2014 with epizootic and vaccine strains of foot-and-mouth disease virus of serological type O. The dendrogram is based on a comparison of the complete nucleotide sequences of the VP1 gene.

The invention is illustrated by the following list of sequences:

SEQ ID NO: 1 represents the nucleotide sequence of the VP1 protein gene of strain O No. 2212 / Primorsky / 2014, type O foot and mouth disease virus;

SEQ ID NO: 2 represents the amino acid sequence of the VP1 protein gene of strain O No. 2212 / Primorsky / 2014, type O foot and mouth disease virus

Strain O No. 2212 / Primorsky / 2014 of the foot and mouth disease virus is characterized by the following features and properties.

Morphological features

Strain O No. 2212 / Primorsky / 2014, type O foot-and-mouth disease virus belongs to the family Picornaviridae, genus Aphtovirus, serotype O and has morphological characteristics characteristic of the causative agent of foot and mouth disease: the form of the virion is icosahedral, size 23-25 nm. Virion consists of an RNA molecule enclosed in a protein coat. The protein shell consists of 32 capsomeres arranged in cubic symmetry.

Antigenic properties

According to its antigenic properties, strain O No. 2212 / Primorsky / 2014 of the foot and mouth disease virus belongs to the O serotype. The virus is stably neutralized by a homologous antiserum. The virus does not show hemagglutinating activity (GA activity). In sick animals, antibodies are formed in the blood serum that are detected in an enzyme-linked immunosorbent assay (ELISA) and microneutralization reaction (RMN). When cattle are immunized with a vaccine from an inactivated virus, it induces the formation of specific antibodies detected in ELISA and RMN.

During hyperimmunization of guinea pigs, the concentrated antigen from an inactivated type O strain No. 2212 / Primorsky / 2014 of the FMD virus induces the formation of virus-specific antibodies detected in CSC at a 1:20 dilution.

Using the method of nucleotide sequencing, the primary structure of the VP1 gene of strain O No. 2212 / Primorsky / 2014 of the FMD virus was determined and the primary structure of the VP1 protein was derived. A comparative analysis of the nucleotide sequences showed that strain O No. 2212 / Primorsky / 2014 belongs to the topotype Southeast Asia (SEA) of the genetic line Mua-98 of the FMD virus of serological type O.

Antigenic relationship of strain O No. 2212 / Seaside / 2014 with production strains of foot and mouth disease virus O ₁ Manisa, O No. 1734 / Primorsky / 2000, O PanAsia2, O / Taiwan 3/97, O No. 2102 / Zabaykalsky / 2010 and O No. 2147 / Primorsky / 2012 studied in RMN.

The results of the studies in the RMN are presented in table 1. Antigenic compliance (r ₁ ) amounted to 0.45 for O ₁ Manisa, O No. 1734 / Primorsky / 2000 - 0.08, O PanAsia2 - 0.08, O No. 2102 / Zabaykalsky / 2010 - 0.18 and O No. 2147 / Primorsky / 2012 - 0.38, O / Taiwan 3/97 - 0.09. With a value of r ₁ > 0.3, the field isolate and the production strain are closely related, and the vaccine from the production strain will protect against epizootic virus, with a value of r ₁ <0.3 the field isolate differs from the production [11]. Therefore, the strain of foot and mouth disease virus No. 2212 / Primorsky / 2014 does not have a pronounced antigenic relationship with most production strains of foot and mouth disease virus used in FSBI ARRIAH.

Biotechnological characteristics

Strain O No. 2212 / Primorsky / 2014 is reproduced in a monolayer culture of pig kidney cells (SP), transplanted cultures of kidney cells of the Siberian mountain ibex (PSGK-30), Syrian hamster kidney (BHK-21) and pig kidney (IB-RS-2) . Within 18-24 hours of incubation, the virus harvest in these cell cultures reaches values from 5.0 to 7.5 lg TCD ₅₀ / cm ³ . With a high multiplicity of infection (1-10 TCD / cell), it causes CPD after 5 hours. It retains its original characteristics when passaged in cell cultures for 3 passages (observation period).

Geno and chemotaxonomic characteristics

Strain O No. 2212 / Seaside / 2014, foot and mouth disease virus type O is an RNA-containing virus with a molecular weight of 7 × 10 ⁶ D.

Nucleic acid is a single-chain linear molecule with a molecular weight of 2.8 × 10 ⁶ D. The virion has a protein shell consisting of four basic proteins VP ₁ , VP ₂ , VP ₃ and VP ₄ . The lipoprotein membrane is absent.

The main antigenic protein is VP ₁ . The virion contains approximately 31.5% RNA and 68.5% protein. Virionic RNA is infectious and is involved in the formation of precursor proteins in infected cells. The precursors, in turn, are cleaved to form more stable structural and non-structural virus polypeptides. Of the 8 non-structural polypeptides that accumulate in infected cells, one (VP _66a ) is an RNA-dependent RNA polymerase involved in RNA replication of new virions.

Physical properties

The virion mass is 8.4 × 10 ⁻¹⁸ g. A sedimentation coefficient of 146S in the sucrose gradient. The floating density of 1.45 g / cm ³ .

Resistance to external factors

Strain O No. 2212 / Primorsky / 2014 is resistant to ether, chloroform, freon, acetone and other organic solvents and detergents. Most stable at pH 7.2-7.6. PH shifts to both the acidic and alkaline sides lead to inactivation of the virus. It is sensitive to formaldehyde, UV radiation, γ-radiation, high temperatures.

Additional features and properties

Immunogenic activity - immunogen in the composition of an inactivated vaccine.

Reactogenicity - does not possess reactogenic properties.

Pathogenicity - pathogenic for artiodactyl animals, newborn mice, guinea pigs.

Virulence - virulence for naturally susceptible animals with contact, aerosol and parenteral infection.

Stability - retains the original biological properties when passaged in sensitive biological systems for 5 passages (observation period).

Based on the data obtained, it can be argued that strain O No. 2212 / Primorsky / 2014 in terms of antigenic and immunological spectra is an original, taxonomically new, previously unknown variant of foot and mouth disease virus type O, has a higher protective and immunogenic activity.

To reduce the epizootic danger of foot and mouth disease type O and to prevent the emergence of new foci of the disease, timely vaccination is important, which requires the development of a highly immunogenic vaccine.

Received highly immunogenic inactivated emulsion vaccine against foot and mouth disease type O from strain O No. 2212 / Primorsky / 2014.

The essence of the invention is illustrated by examples of its use, which do not limit the scope of the invention.

Example 1. Obtaining and researching the biological properties of strain O No. 2212 / Primorsky / 2014 of foot and mouth disease virus.

Strain O No. 2212 / Primorsky / 2014, type O foot-and-mouth disease virus was isolated from field material received at the Federal State Budget Scientific Institution ARRIAH as an epithelium of aphthae from pigs suspected of having foot-and-mouth disease during laboratory diagnosis of this disease and its differentiation from other vesicular diseases. In order to isolate the virus, a complex of biological, virological and biochemical methods was used.

Biological and virological methods included the isolation of the virus in a culture of primary trypsinized SP cells, transplanted PSGK-30, IB-RS-2 cell lines, followed by adaptation for 3 consecutive passages. For staging biological samples in primary and transplantable cell cultures, they were grown on appropriate nutrient media, under stationary conditions in bottles with a surface area of 25 cm ² , washed from the growth medium and infected with a 10% suspension of aphthous material (the multiplicity of infection was 1-10 TCD ₅₀ / cell ) prepared in a Hanks solution with 0.5% lactalbumin hydrolyzate (GLA) and antibiotics according to a standard formulation. To remove microflora and ballast cell components, the suspension was treated with 10% chloroform. After incubation at a temperature of 37 ° C for 0.5 hours, 5 cm ^{3 of the} supporting medium was added to the vials and incubated at 37 ° C until a virus CPD appeared, characterized by cell rounding, degeneration and separation of cells from glass, and an increase in the optical density of the suspension. After the development of the CPD, the bottles were subjected to freezing-thawing, purification of the cell suspension with chloroform and centrifugation at 3000 rpm (1200 g) for 0.25 hours. The obtained virus-containing material was used for subsequent passages and studies in the CSC for the detection of viral antigen, while used commercial type-specific sera stored in the Museum of strains of FSBI "ARRIAH". The causative agent of foot and mouth disease was considered adapted to: cell cultures, if within 18-24 hours the cell monolayer was destroyed by 90-100% under the influence of the virus.

The virus adapted to the IB-RS-2 cell culture was used to produce antigen for CSC.

The virus adapted to the PSGK-30 cell culture was used to infect the VNK-21 / 2-17 cell suspension in order to obtain antigen for the manufacture of an experimental vaccine series, as well as for hyperimmunization of guinea pigs.

The research results are presented in table 2, the data of which indicate a high adaptive activity of strain O No. 2212 / Primorsky / 2014 of type O foot and mouth disease virus to the used cell cultures.

Example 2. A comparative analysis of the biological properties of strain O No. 2212 / Primorsky / 2014 with production of a strain of foot and mouth disease virus type O.

When studying the properties of strain O No. 2212 / Primorsky / 2014 of the foot and mouth disease virus, significant advantages were revealed in comparison with other used industrial strains.

Tables 3 and 4 show the results of the cultivation of strains O No. 2212 / Primorsky / 2014 and O No. 2102 / Transbaikal / 2010 of FMD virus type O, from which it follows:

1) strains O No. 2212 / Primorsky / 2014 and O; No. 2102 / Zabaykalsky / 2010 have different reproduction times - 10.30 ± 0.35 and 12.40 ± 0.45 hours, respectively;

2) the accumulation of immunogenic components during the cultivation of foot and mouth disease virus No. 2212 / Primorsky / 2014 is higher than that of strain O No. 2102 / Zabaykalsky / 2010. The concentration of 146S immunogenic component during the cultivation of foot-and-mouth disease virus No. 2212 / Primorsky / 2014 and No. 2102 / Zabaykalsky / 2010 was 2.28 ± 0.16 and 1.88 ± 0.10 μg / cm ³ , respectively.

Example 3. Obtaining an inactivated antigen and studying the effect of inactivation and purification of antigenic material using AEI and PHMG on the immunogenic (146S and 75S) components of foot and mouth disease virus of strains No. 2212 / Primorsky / 2014 and No. 2102 / Zabaykalsky / 2010.

An inactivated emulsion vaccine against foot and mouth disease type O is prepared from strain O No. 2212 / Primorsky / 2014 of foot and mouth disease virus grown in a suspension transplantable cell line BHK-21 / 2-17. As a supporting medium, an Earle solution without serum is used with the addition of FGMS, GBKS and antibiotics at a pH of 7.4-7.6. The cell culture is infected with a virus at the rate of 0.005-0.200 TCD ₅₀ / cell.

The cultivation of the virus is carried out at a temperature of 36-37 ° C. After 6-7 hours of incubation, the concentration of living and dead cells is determined by trypan blue staining. If the number of living cells is 15-20%, then exposure to the virus continues for another 2-3 hours. When the number of dead cells reaches 90-95%, the reproduction of foot and mouth disease virus is stopped, and the suspension obtained is monitored for sterility and the content of 146S and 75S components is estimated. The content of 146S + 75S components in the suspension should be at least 0.5 μg / cm ³ . Immediately after the end of the virus reproduction cycle, without stopping thermostating, a 15–20% AEEI solution, acidified with glacial acetic acid to pH 8.0–8.5, is added to the virus-containing suspension. The final concentration of AEEI in the virus-containing suspension should be equal to 0.025-0.050%. Inactivation of the infectiousness of the virus is carried out for 12-24 hours at a temperature of 36-37 ° C and a pH of 7.2-7.6 with stirring after 5-6 hours for 3-5 minutes. The aminoethylethyleneimine residue is neutralized by the addition of sodium thiosulfate. For the purpose of flocculation of ballast impurities and inactivation of possible contaminants, a 10% solution of PHMG is added to a warm suspension to a concentration of 0.005-0.007%. Flocculated ballast impurities are subjected to sedimentation followed by decantation.

The results of studies on the effect of inactivation and purification of antigenic material using AEI and PHMG on the immunogenic (146S and 75S) components of strains O No. 2212 / Primorsky / 2014 and O No. 2102 / Zabaykalsky / 2010 of foot-and-mouth disease virus are shown in Table 5.

The data in table 5 indicate that the immunogenic components of strain O No. 2212 / Primorsky / 2014 of the foot and mouth disease virus are not inferior in resistance to inactivation and purification under the conditions of production of strain O No. 2102 / Zabaykalsky / 2010. Especially important is the fact that during the inactivation and purification of the virus of strain O No. 2212 / Primorsky / 2014, no changes in the concentration of 146S components were detected.

Example 4. Concentration of antigen of foot and mouth disease virus strain No. 2212 / Primorsky / 2014 and oil adjuvant to obtain a vaccine.

The resulting antigen is monitored for avirulence and sterility, the content of virus-specific protein and 146S components of foot and mouth disease virus. The required concentration of 146S components in 1 cm ^{3 is} achieved by ultrafiltration. For these purposes, the antigen is concentrated by flow ultrafiltration under a pressure of 1.5 atm. Montanide ISA-70 adjuvant is sterilized in a bioreactor at a temperature of 120 ° C and a pressure of 1.1 atm. within 40-60 minutes. For filtration sterilization of the Montanide ISA-206 adjuvant, a filter with a pore diameter of 0.20 μm is used.

The resulting vaccine is packaged in glass or plastic bottles and sterilized products are monitored in accordance with GOST 28085-89.

Example 5. The process of dispersing the antigen and adjuvant to obtain inactivated emulsion against foot and mouth disease from production strain O No. 2212 / Primorsky / 2014.

An inactivated emulsion vaccine against foot and mouth disease type O is obtained by dispersing antigen concentrate and oil adjuvant in colloid mills in a ratio of 4: 6 and 1: 1, respectively. As oil adjuvants, products of the brands Montanide ISA-70 or Montanide ISA-206 manufactured by Seppic (France) are used.

In the manufacture of an emulsion vaccine based on Montanide ISA-206, the adjuvant and antigen are heated to a temperature of 25-30 ° C, and antigen and adjuvant are dispersed in colloidal mills in a ratio of 1: 1.

The emulsion vaccine based on Montanide ISA-70 is made at a temperature of adjuvant and antigen of 18-25 ° C. After that, colloidal mills carry out the dispersion of antigen and adjuvant in a ratio of 4: 6.

The result is an inactivated emulsion vaccine against foot and mouth disease from production strain O No. 2212 / Primorsky / 2014. The optimal component composition of the obtained vaccine are presented in table 6 and 7.

The vaccine easily resolves at the injection site, does not cause abscesses, a general reaction in the form of fever. It has a pronounced immunogenic activity for pigs at a vaccination dose of 2 cm ³ 21 days after administration. In 1 cm ³ must contain at least 3 μg of 146 S components of the foot and mouth disease virus.

Example 6. Assessment of avirulence and harmlessness inactivated emulsion against foot and mouth disease from production strain O No. 2212 / Primorsky / 2014.

To determine the virulence of the vaccine in pigs, the selected vaccine sample was injected intracutaneously at 0.1 cm ³ at two points of the corolla on each limb. The vaccine was avirulent - the pigs remained clinically healthy during the 10 days of observation, and no pathological changes were found during the post-mortem examination.

The safety of the vaccine in pigs was monitored by intramuscular injection of the vaccine into the upper third of the neck at a dose of 6 cm ³ . The observation period was 10 days. It should be noted that after inoculation, the body temperature of the animal can increase to 41 ° C and hold for 1-3 days.

According to the research results, the vaccine was harmless, all animals remained clinically healthy during the observation period, and no pathological anatomical analysis of tissue necrosis was detected at the injection site.

Example 7. Evaluation of humoral immunity in pigs when using FMD vaccines from strain O No. 2102 / Zabaykalsky / 2010 and O No. 2212 / Primorsky / 2014.

The humoral immunity of pigs vaccinated with an inactivated emulsion vaccine from foot and mouth disease strain No. 2102 / Zabaykalsky / 2010 against the heterologous strain O No. 2212 / Primorsky / 2014 of foot and mouth disease was studied. The level of humoral immunity was evaluated against the vaccine strain O No. 2102 / Zabaykalsky / 2010 and against the production strain O No. 2212 / Primorsky / 2014.

Tests of the emulsion vaccine Against foot and mouth disease type O, made as described in examples 3 and 4, and containing, mcg in 2 cm ³ :

avirulent and purified antigenic material from the strain

About No. 2102 / Transbaikal / 2010, foot and mouth disease virus type O 6.5

Montanide Oil Adjuvant ISA-206 1,200,000.0.

The test was carried out on 10 heads of pigs. The emulsion vaccine was administered intramuscularly at a dose of 2.0 cm ³ . The research results are presented in table 8, from the data of which it can be seen that the emulsion vaccine stimulated the production of virus-neutralizing antibodies (VNA) in pigs against homologous strain O No. 2102 / Zabaykalsky / 2010 in the amount of 5.90 ± 0.58 log ₂ . Against the heterologous strain O No. 2212 / Primorsky / 2014, the BHA titer was less and amounted to 3.55 ± 0.52 log ₂ . The difference in the titers of neutralizing antibodies is significant and significant. It follows that the vaccine made from the production strain O No. 2102 / Zabaykalsky / 2010 does not create humoral immunity to protect animals from infection with the heterologous foot and mouth disease virus No. 2212 / Primorsky / 2014. According to the recommendations of the OIE (OIE), the titer of neutralizing antibodies should be at least 5.00 log ₂ [11].

Example 8. Testing inactivated emulsion FMD vaccine from strain O No. 2212 / Primorsky / 2014 for avirulence, safety and immunogenic activity.

Tested emulsion vaccine against foot and mouth disease type O, made as described in examples 3 and 4, and containing, mcg in 2 cm ³ :

avirulent and purified

strain antigenic material

About No. 2212 / Seaside / 2014, foot and mouth disease virus type O 6.2

Montanide Oil Adjuvant ISA-206 1120,000.0.

The virulence and safety of the obtained vaccine was tested by testing on 5 heads of pigs. The drug was injected intracutaneously at 0.1 cm ³ at two points of the corolla on each limb, and then intramuscularly at a dose of 6.0 cm ³ . Observation of the clinical condition of the animals was carried out for 10 days. Throughout the entire observation period, the development of clinical signs of foot and mouth disease in animals was not detected, which confirms the virulence and harmlessness of the administered vaccine.

At the end of the control for avirulence and safety, the vaccine was tested for immunogenic activity of the vaccine for pigs. The test was conducted on 15 heads of gilts. The results of the immunogenicity assessment of the developed vaccine are presented in table 9. The immunizing dose (ImD ₅₀ ) of the drug was 0.03 cm ³ , i.e. the vaccine dose contained more than 50 PD ₅₀ .

According to the recommendations of the OIE (OIE), the vaccine against foot and mouth disease should contain at least 6 PD ₅₀ in the vaccine volume for cattle [1]. Therefore, the manufactured inactivated emulsion vaccine from strain O No. 2212 / Primorsky / 2014 of the foot and mouth disease virus exhibits high immunogenic activity.

Thus, the above information indicates that the inactivated emulsion vaccine against foot and mouth disease type O, embodying the invention, is intended for use in agriculture, namely in veterinary virology and biotechnology; confirmed the possibility of implementing the presented; the vaccine made from strain O No. 2212 / Primorsky / 2014 in accordance with the invention has high immunogenic activity and is able to provide effective protection of susceptible animals against the epizootic strain of FMD virus type O circulating in Central and Southeast Asia and the Far East.

Sources of information taken into account when drawing up the description of the invention to the application for the grant of a patent of the Russian Federation for the invention "Inactivated emulsion vaccine against foot and mouth disease type O":

1. OIE. Manual of diagnostic tests and vaccines for terrestrial animals - 24th Ed. -, Paris, 2016-Vol. 1, Chapter 2.1.5. - P. 166-169.

2. The official website of Pervbright - URL: http://www.wrlfmd.org/fmd_genotyping/fmd_genotyping.htm (accessed June 2, 2017).

3. Dudnikov A.I., Borisov V.V., Dudnikov S.A. FMD immunity and practical achievements in the field of FMD // Probl. Zooengineerii that vet. Medicine: ST. sciences. pra - Kharkiv, 2007. - VIP. 15 (40). - Part 2, - T. 1. - S. 116-120.

4. Rerer X. Foot and mouth disease / Translation from it. G.A. Surkova. Ed. and with the foreword. Cand. vet. sciences P.V. Painter. - M .: Kolos, 1971. - 432 p.

5. Burdov A.N., Dudnikov A.I., Malyarets P.V. and other foot and mouth disease / Ed. A.N. Burdova. - M .: Agropromizdat, 1990 .-- S. 231-250.

6. Immunobiological properties of the epizootic strain of foot and mouth disease virus type O No. 1964 / Mongolia / 2004 / T.A. Fomina, V.K. Spirin, A.I. Egorova [et al.] // Proceedings of the Federal Center for Animal Health. - Vladimir, 2005. - T. 3. - S. 94-104.

7. Immunobiological properties of the epizootic strain of foot and mouth disease virus type O No. 1734 "Primorsky-2000" / V.K. Spirin, A.I. Egorova, S.R. Kremenchug [et al.] // Proceedings of the Federal Center for Animal Health. - Vladimir, 2007.- T. 5. - S. 52-57.

8. RF patent No. 594771, A61K 39/12, 07/07/1993

9. RF patent No. 2054039, C12N 7/02, A61K 39/135, 02/10/1996

10. Guidelines for determining the concentration of 146S, 75S, 12S components of vaccine strains of the culture of foot and mouth disease virus in the complement binding reaction (CSC): approved. deputy Director of FSBI "ARRIAH" - Vladimir, 2017.

11. OIE. Manual of diagnostic tests and vaccines for terrestrial animals (mammals, birds and beers). - 7th Edition, Paris, 2008. -Vol. 1. - P. 203-207.

Claims (12)

1. Inactivated emulsion vaccine against foot and mouth disease type O, containing the active substance and target additives, characterized in that as the active substance it contains avirulent and purified antigenic material from the strain of the virus of the family. Picornaviridae, genus Aphtovirus, species Aphtae epizooticae, type O, topotype SEA, genetic line Mua-98, deposited in the Collection of microorganism strains of the Federal Center for Animal Health (FSBI ARRIAH), under registration number (link): strain VYa About No. 2212 / Primorsky / 2014 (production), in an effective amount. 2. The vaccine according to claim 1, characterized in that it contains avirulent and purified antigenic material from strain O No. 2212 / Primorsky / 2014 homologous to the pathogen, obtained in a sensitive biological system and consisting of a suspension containing predominantly 146S immunogenic components of FMD virus ABOUT. 3. The vaccine according to claim 2, characterized in that it contains avirulent and purified antigenic material from strain O No. 2212 / Primorsky / 2014 homologous to the pathogen, preferably obtained in a transplanted cell culture of BHK-21 / 2-17 and which is a suspension, containing predominantly 146S immunogenic components of the FMD virus type O. 4. The vaccine according to claim 3, characterized in that it contains avirulent and purified antigenic material from strain O No. 2212 / Primorsky / 2014 homologous to the pathogen, preferably obtained in a transplanted cell culture of BHK-21 / 2-17 and which is a suspension, containing predominantly 146S immunogenic components of FMD virus type O in an amount of at least 3.0 μg in 1 cm ^{3 of the} finished product. 5. The vaccine according to claim 1, characterized in that, as the target additive contains Montanide ISA-70 oil adjuvant. 6. The vaccine according to claim 5, characterized in that it contains an oil adjuvant of Montanide ISA-70, preferably in an amount of 600,000.0-700000.0 μg in 1 cm ^{3 of the} finished product. 7. The vaccine according to any one of paragraphs. 1-6, characterized in that it contains avirulent and purified antigenic material homologous to the pathogen of strain O strain No. 2212 / Primorsky / 2014, obtained preferably in a transplantable cell culture of BHK-21 / 2-17 and representing a suspension containing mainly 146S immunogenic components of FMD virus type O, oil adjuvant Montanide ISA-70 in the ratio, μg in 1 cm ^{3 of the} finished product: Avirulent and purified antigenic material from strain O No. 2212 / Primorsky / 2014, foot and mouth disease virus type O not less than 3.0 Oil Adjuvant Montanide ISA-70 600000.0-700000.0 8. The vaccine according to p. 1, characterized in that as the target additive contains an oil adjuvant Montanide ISA-206. 9. The vaccine according to claim 8, characterized in that it contains an oil adjuvant of Montanide ISA-206, preferably in an amount of 500,000.0-575000.0 μg in 1 cm ^{3 of the} finished product. 10. The vaccine according to any one of paragraphs. 1-4 and 8, 9, characterized in that it contains avirulent and purified antigenic material homologous to the pathogen of strain O No. 2212 / Primorsky / 2014, obtained preferably in a transplantable cell culture of BHK-21 / 2-17 and which is a suspension, containing predominantly 146S immunogenic components of FMD virus type O, oil adjuvant Montanide ISA-206 in the ratio, μg in 1 cm ^{3 of the} finished product: Avirulent and purified antigenic material from strain O No. 2212 / Primorsky / 2014, foot and mouth disease virus type O not less than 3.0 Oil adjuvant 500000.0-575000.0

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