EA038215B1 - Method for quantitative determination of yellow fever virus antigen by enzyme immunoassay using specific yolk antibodies and biotin-labelled detector antibodies - Google Patents

Abstract

The invention relates to biotechnology, immunology, vaccinology and virology, and is intended for detection of yellow fever virus antigen in the infected cell cultures and in live and inactivated yellow fever vaccine products. The invention concerns obtaining IgY class antibodies specific to yellow fever virus antigen, extracted from egg yolks of immunized chickens, and their use for quantitative determination of yellow fever virus antigen in enzyme multiplied immunoassay (EIA) as an immunosorbent for antigen primary binding and for detection of bound complexes. The invention can be used in the production of inactivated yellow fever vaccines in order to control the vaccine immunizing potency (control of yellow fever virus antigen content - the main quality indicator of a vaccine as a preventive immunity development agent).

Description

Technology area

SUBSTANCE: invention relates to biotechnology, immunology, vaccinology and virology and is intended for laboratory identification of yellow fever virus antigen in infected tissues, cell cultures and in preparations of live and inactivated yellow fever virus vaccines. The invention can be used in the production of an inactivated yellow fever virus vaccine (from strain 17 D) to control the antigen content of this virus - the main indicator of the quality of a vaccine as a prophylactic drug that induces protective immunity (vaccine immunogenicity).

State of the art

The transition to the production and use of a safer yellow fever vaccine, namely an inactivated vaccine (instead of a live vaccine that is effective, but has known safety deficiencies), requires the use of a method for quantifying the antigen of inactivated yellow fever virus in the production and formulation of the vaccine ( Monath TP et al. An inactivated cell-culture vaccine against yellow fever // N. Engl. J. Med. - 2011. - Vol. 364. - P. 1326-1333). The method of choice is enzyme-linked immunosorbent assay (ELISA) using mono- or polyclonal specific mammalian antibodies (Thomas P. Monath, et al. Inactivates yellow fever 17 D vaccine: development and nonclinical safety, immunogenicity and protective activity // Vaccine. - 2010. - Vol. 28. - P. 3827-3840). However, it is known that the use of mammalian antibodies for ELISA systems is associated with a number of negative aspects, primarily with the possibility of nonspecific interactions of these antibodies with other ELISA components (secondary antibodies, enzyme conjugate), which results in false positive analysis results (Schade R. et al. Chicken egg yolk antibodies (IgY-technology): a review of progress in production and use in research and human and veterinary medicine // ATLA. -2005. - Vol. 33. - P. 129-154).

The essence of the invention

The problem to be solved by the invention is to design an enzyme-linked immunosorbent assay (ELISA) system that allows quantitative determination of the yellow fever virus antigen (strain 17 D) in infected tissues, cell cultures and vaccine preparations.

The problem is solved due to the fact that preparations of highly active affinity purified specific antibodies of class Y (IgY) obtained by the authors of the invention from egg yolks of immunized chickens, functionally corresponding to antibodies (IgG) of mammals, are used as an immunosorbent during ELISA, and as secondary (detector ) antibodies - preparations of the same IgY modified with a label (preferably biotin) for the possibility of detection.

The solution to the problem is provided by the established by the authors the possibility of obtaining specific antibodies of the IgY class from egg yolks of chickens immunized with the yellow fever virus. The proposed method shortens the period for obtaining antibodies due to a shorter immunization cycle with a simultaneous increase in the yield of antibodies due to the fact that egg laying by each producer occurs daily or every other day for 3-4 months, and the content of antibodies in one yolk corresponds to the number of antibodies in 25 30 ml of specific serum obtained as a result of bloodletting from an immunized animal. Despite the fundamental similarity of the two analogs (mammalian IgG and avian IgY, whose biochemical characteristics are well studied), IgY has a number of advantages, especially valuable for its use for diagnostic purposes as immune reagents: 1) high immunoreactivity of birds in relation to foreign proteins of infectious origin (viral, bacterial, parasitic), as well as proteins toxins and poisons; 2) low cross-reactivity with mammalian proteins due to the large phylogenetic distance between birds and mammals, which is expressed in the inability of IgY to activate the complement system of mammals, as well as in the inability to bind to the rheumatoid factor, F-receptors, which provides a low level of nonspecific reactions; 3) lower cost, since one laying hen can produce about 40 g of IgY antibodies per year. Thus, ELISA variants based on specific antibodies of birds represent a promising class of diagnostic systems, in particular, for the determination of viral antigens, including the antigen of the yellow fever virus.

The yellow fever virus contains 11 proteins: 3 structural - proteins C, M, E, and 8 non-structural proteins - NS1, NS2A, NS2B, NS2K, NS3, NS4A, NS4B, NS5. In preferred embodiments of the invention, structural proteins C, M, E can be used as the antigen of the yellow fever virus. biologically - titration on cell culture). Thus, the method of the present invention can be applied to the production of an inactivated yellow fever virus vaccine. Additionally, the proposed ELISA system can also be used to determine the antigen of the yellow fever virus in any virus-containing substrates (tissues, cell cultures, etc.). When implementing the invention, the following technical results are achieved:

- 1 038215 improved technique (ELISA) for measuring the amount of yellow fever virus antigen, in particular, this technique provides an increase in the specificity of antigen determination due to a decrease in nonspecific interactions, as well as a simplified ELISA design;

a method has been developed that makes it possible to measure with high reliability the amount of yellow fever virus antigen during the production of an inactivated yellow fever vaccine, which is absolutely necessary and is part of the vaccine production process.

The use of the developed method makes it possible to formulate an inactivated vaccine against yellow fever, precisely controlling the amount of antigen in the vaccine dose according to the data on the immunogenicity of the vaccine, which is also absolutely necessary in the production of the vaccine.

Detailed description of the invention

In the specification, the terms include and inclusive are interpreted to mean includes, but not limited to. These terms are not intended to be construed as consisting only of.

The term antibody is equivalent to the term immunoglobulin and means a glycoprotein consisting of two heavy chains and two light chains linked by disulfide bonds.

The 17 D yellow fever virus strain is used for the production of a live vaccine against yellow fever in Russia and abroad. This strain is also used for the production of experimental batches of inactivated vaccines against yellow fever, and in the future will be used for the production of commercial batches of this vaccine.

Immunoglobulins, like other proteins, can be covalently modified in many ways using a variety of labels suitable for a particular biological assay. Enzymes, biotin, fluorophores, or radioactive isotopes can be used as labels to ensure detection in ELISA.

Unless otherwise specified, technical and scientific terms in this application have the standard meanings generally accepted in the scientific and technical literature.

The following examples of the invention are provided for the purpose of revealing the characteristics of the present invention and should not be construed as in any way limiting the scope of the invention.

The IgY antibodies required for carrying out the invention are obtained from the egg yolks of immunized hens of 5-6 months of age. Chickens are immunized with a commercial live yellow fever vaccine prepared from D. strain 17. IgY is isolated from egg yolk sequentially by salting out with sodium sulfate (E. M. Akita, S. Nakai. Comparison of four purification methods for the production of immunoglobulins from eggs laid by hens immunized with an enterotoxigenic E. coli strain. J. Immunol. Methods. 1993, 160: 207-214) and affinity chromatography. Part of IgY is used for sensitization of the solid phase (immunopanel for ELISA), the other part of IgY is bound to biotin (E. Harlow and D. Lane. Antibodies: A Laboratory Manual, 1988, 341) and is used as detector antibodies in ELISA for determination of antigen of yellow virus fever.

The invention is illustrated by the following examples.

Example 1. Obtaining IgY.

1. Immunization of chickens.

Laying hens of the Leghorn breed of 5-6 months of age are used. Immunogen is a 5 times concentrated commercial live vaccine against yellow fever prepared from the 17 D strain (produced by the Chumakov FNCIRIP RAS, Moscow). The immunization cycle includes three doses of immunogen (1.0 ml each at 4 points of the pectoral muscles) at intervals of 2 weeks. The collection of eggs begins 2-4 weeks after the completion of the full immunization cycle. Eggs are stored for up to 2 months at 4 ° C; The yolks are stored indefinitely at -20 ° C.

2. Isolation of IgY from yolks by salting out with sodium sulfate (Na ₂ SO ₄ ).

2.1. Add 9 volumes of chilled water for injection (FS 42-2620-97) to one chicken yolk (average volume 15-20 ml).

2.2. Homogenize the mixture by gentle stirring and incubate the solution for 18 h at + 4 ° C.

2.3. Separate the solution containing IgY from the precipitate by filtration through Whatman filter paper at a high filtration rate.

2.4. Dilute the filtrate with water for injection to a volume of 175 ml.

2.5. Place the container with the solution on a rotary stirrer heated to 40 ° C and slowly add 33.5 g of Na ₂ SO ₄ (reagent grade) with constant stirring.

2.6. Stirring is continued for 15 minutes after complete dissolution.

2.7. Transfer the solution to a centrifuge beaker and centrifuge at 10000 g for 20 min at + 25 ° C.

2.8. Remove the supernatant.

2.9. The well-visible precipitate is dried at room temperature.

2.10. Dissolve the precipitate in 20 ml of standard phosphate-buffered saline (PBS) pH 7.2-7.4 at + 25 ° C.

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2.11. Slowly add 2.8 g of Na ₂ SO ₄ (reagent grade) to the solution.

2.12. The solution is kept for 15 min at + 25 ° C after the complete disappearance of the precipitate.

2.13. The solution is centrifuged at 12000 g for 10 min at + 25 ° C.

2.14. Remove the supernatant.

2.15. Dry the precipitate at room temperature.

2.16. Dissolve the precipitate in 5.0 ml of PBS.

2.17. Transfer the sediment into a dialysis bag (diameter 1.0 cm).

2.18. Dialysis is performed against 2 L FSB at + 4 ° C.

2.19. The resulting IgY preparation is sterilized by filtration through a Millipore filter (0.45 μm).

2.20. Store the sterile IgY preparation at + 4 ° C (several months) or at -20 ° C (indefinitely).

The average protein content in the preparations is 5-10 mg / ml (determined by absorbance at 280 nm).

3. Purification of IgY on a HiTrap affinity column (GE Healthcare) according to the manufacturer's instructions.

Column volume: 5 ml.

Binding capacity: 100 mg IgY.

Elution rate: 5 ml / min (maximum rate: 20 ml / min).

Binding buffer: 20 mM sodium phosphate + 0.5M K ₂ SO ₄ , pH 7.5.

Elution buffer: 20 mM sodium phosphate, pH 7.5.

Cleansing buffer: 20 mM sodium phosphate, pH 7.5 with 30% isopropanol.

These buffers are sterilized through a 0.45 µm filter prior to use. K2SO4 is added to the IgY preparation (after salting out from chicken yolk) to a concentration of 0.5 M, the pH is adjusted to 7.5. Before being applied to the column, the obtained preparation is sterilized through a 0.45 µm filter.

IgY purification procedure (carried out at room temperature).

3.1. Wash the column with a minimum of 5 volumes of each of the specified buffers (sequentially): binding, elution and purification.

3.2. Equilibrate the column with 5 volumes of binding buffer.

3.3. Sample is applied.

3.4. Wash the column with at least 10 volumes of binding buffer (or until there is no protein in the eluate).

3.5. Elute IgY with 10 volumes of elution buffer.

3.6. Determine the protein content in the affinity purified IgY preparation (by absorption at 280 nm), sterilize through a 0.45 μm filter, store at + 4-8 ° C for up to 1 year. For indefinitely long storage, add glycerin (up to 50%) and store at -20 ° C.

Example 2. Biotinylation of IgY preparations to yellow fever virus antigen.

1) Prepare a solution of N-hydroxysuccinimidobiotin (Sigma, H1759-250MG): 10 mg in dimethyl sulfoxide (Sigma, D2650-100 ml).

2) Prepare a solution of IgY at a concentration of 3 mg / ml in 0.1 M sodium borate buffer, pH 8.8.

3) Mix the solutions obtained in stages 1 and 2, at the rate of 750 μg of biotin per 3 mg of IgY. Mix thoroughly and leave for 4 hours at room temperature.

4) Add 60 μl of 1M NH ₄ Cl solution per 750 μg of biotin, incubate for 10 min at room temperature.

5) Dialyzed against 0.1M PBS, pH 7.2.

6) Sterilized through a 0.45 micron filter, stored at + 4-8 ° C for up to 1 year. For indefinitely long storage, add glycerin (up to 50%) and store at -20 ° C.

Example 3. ELISA for the determination of the antigen of the yellow fever virus in the preparations of the yellow fever virus vaccine.

In preferred embodiments of the invention, a direct ELISA (double sandwich) variant is used.

1) An immunopanel with a high sorption capacity (Costar, cat. No. 9018) is sensitized with affinity purified IgY to the antigen of the yellow fever virus: 0.1 ml of an IgY solution to the antigen of the yellow fever virus is added to each well of the panel at a concentration of 10 μg / ml in carbonate -hydrocarbonate buffer pH 9.6 (Sigma, cat. No. С3041-100 CAP), cover the panel and incubate for 18 h at + 48 ° C or 3 h at + 37 ° C.

2) The contents of the wells are shaken out, the panel is tapped on several layers of filter paper (in an upside-down position) to remove residual immunosorbent (IgY). The wells are washed 2 times with phosphate-buffered saline (PBS) pH 7.2 (Sigma, cat. No. P4417-100TAB) with 0.05% Tween-20 (Sigma, cat. No. P1379-100 ml) - PBS-T, adding solution to the edge of the wells and immediately remove it. Add to the wells 0.2 ml of 1% solution of fetal calf serum (Gibco or analog) in FSB (FSB-FS), cover the panel and incubate for 1 h at + 37 ° C. This is a procedure for blocking the free sites of the wells of the panel with an indifferent protein.

3) The blocking solution is removed, the wells are washed 2 times with PBS-T, as described above. Contribute by

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0.1 ml of the investigational yellow fever virus preparation (vaccine) in dilutions starting, for example, with

1: 2, in FSB-FS with 0.05% Tween-20 (ELISA buffer), 2 wells per dilution. In parallel to the dilutions of the test drug, 0.1 ml of ELISA buffer is added - negative control. The panel is covered with a lid and incubated for 2 h at + 37 ° C or 18 h at + 4-8 ° C. This is the phase of binding of the antigen to be determined with the immunosorbent.

4) The contents of the wells are removed, the wells are washed 4 times with PBS-T, as described above. Introduce into the wells 0.1 ml of detector antibodies - IgY to the antigen of the yellow fever virus, labeled with biotin in a dilution, selected by a chessboard titration, in an ELISA buffer. Cover the panel with a lid and incubate for 1 h at + 37 ° C. This is the phase of detection of the detectable antigen associated with the immunosorbent.

5) The contents of the wells are removed, the wells are washed 5 times with PBS-T, as described above. Add to the wells 0.1 ml of streptavidin-peroxidase conjugate (Sigma, S5512-1MG) in ELISA buffer in a working dilution, which is selected by titration in a separate experiment. The panel is covered with a lid and incubated for 45 min at + 37 ° C. This is the phase of detection of the complex immunosorbent + detectable antigen + detector labeled antibodies.

6) The contents of the wells are removed, the wells are washed 5 times with PBS-T, as described above. Add to the wells 0.1 ml of the ready-made substrate-indicator solution - tetramethylbenzidine (TMB, Sigma, cat. No. TO440100 ml). The panel is incubated in the dark for 25-30 minutes at room temperature.

7) Add 0.05 ml of 2M sulfuric acid solution to the wells (stopping the enzymatic reaction).

8) The result is immediately read in an ELISA reader (any available model) by absorbance at 450 nm. The result is considered positive when the ratio of the optical density of the wells with the detected yellow fever virus antigen (its highest dilution) to the optical density of the control wells (ELISA buffer)> 2.1 (P / N). The amount of yellow fever virus antigen in the test sample is expressed as a titer (final dilution with P / N> 2.1), or calculated in weight units (for example, μg / ml) according to the protein concentration in the original preparation and the value of its titer.

The table shows the data for the determination of the antigen of the yellow fever virus: ELISA titration of a commercial batch of live yellow fever vaccine. The yolk IgY obtained as a result of immunization of chickens with a live yellow fever vaccine (commercial series) was used as an immunosorbent, and the same biotinylated IgY was used as detector antibodies.

It follows from the table that according to the criterion of the positive result (P / N> 2.1), the yellow fever virus (YF) antigen titer is 1:64 .____________

Antigen Antigen dilution

1: 2 1: 4 eighteen 1:16 1: 32 1: 64 1: 128 YL vaccine 2.87 * 2.719 2.496 1.596 0.753 0.312 0.176 IFA buffer 0.107 0.102 0.098 0.097 0.105 0.101 0.102

* - Optical density at 450 nm.

Summarizing the above, a feature of the invention is the use as an immunosorbent for the quantitative determination of the antigen of the yellow fever virus in ELISA of affinity purified IgY preparations from egg yolks of immunized chickens, which have high specific activity in relation to the detected antigen and low cross-reactivity with mammalian proteins due to high phylogenetic the distance between birds and mammals, and the biotin-labeled yolk IgY detector. The advantages of this system for the detection of antigens (in particular, the antigen of the yellow fever virus) are in a simplified ELISA design (the same antibodies are used for the primary binding of the antigen and for the detection of the bound complex), cost-effectiveness (complete rejection of the use of mammals), as well as providing more low non-specific background and, accordingly, higher reliability of the analysis results. The proposed ELISA system based on yolk antibodies IgY has a high sensitivity (approximately 3.2 Ig PFU / 0.5 ml, where PFU is a plaque-forming unit) and specificity, which provides reliable determination of the yellow fever virus antigen in preparations of a commercial live vaccine against yellow fever ( (See table data showing titration of a commercial live yellow fever vaccine).

Although the invention has been described with reference to the disclosed embodiments, it should be apparent to those skilled in the art that the specific experiments described in detail are provided for the purpose of illustrating the present invention only and should not be construed as in any way limiting the scope of the invention. It should be understood that various modifications are possible without departing from the spirit of the present invention.

Claims (4)

CLAIM 1. Method for quantitative determination of yellow fever virus antigen in a composition containing yellow fever virus antigen by double sandwich enzyme-linked immunosorbent assay, - 4 038215 comprising at least the following stages: A) immobilize affinity purified immunoglobulin Y (IgY) against the specified antigen of the yellow fever virus, obtained from chicken egg yolks, on a surface with a high sorption capacity; B) add a composition containing a yellow fever virus antigen to the surface on which the immobilized affinity purified IgY is located, so that an IgY-antigen complex is formed on the surface; B) add affinity purified IgY, modified with a label, to the IgY-antigen complex on the specified surface; D) the result of the interaction of the IgY modified with the label with the IgY antigen complex is detected and the amount of the yellow fever virus antigen contained in the composition is determined. 2. The method of claim 1, wherein biotin is used as the label. 3. The method according to claim 1, wherein the yellow fever virus antigen are fragments of the structural proteins of the yellow fever virus: protein C, protein M or protein E. 4. The method of claim 1, wherein the composition comprising the yellow fever virus antigen is a yellow fever vaccine preparation.