RU2700788C1 - Method for assessment of efficiency of allergen-specific immunotherapy in allergic rhinitis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely immunology and allergology, and can be used for assessment of efficiency of allergen-specific immunotherapy (ASIT) with allergic rhinitis. For this purpose, peripheral blood before and after ASIT determining the number of regulatory T-cells, the FOXP3 molecule isoform expression level by flow cytometry, expression level of mRNA of transcription factors GATA3, TBX21 and RORC by real-time polymerase chain reaction. If the functional activity of regulatory T-cells is enhanced by increasing the number of cells expressing exon 2 FOXP3 molecule, reducing the GATA3 / TBX21 ratio and reducing the RORC mRNA expression, the positive effect of ASIT before end of season of palination.

EFFECT: invention enables detecting a group of patients based on the evaluation of functional activity of the peripheral blood plasma, in which the conducted ASIT is accompanied by a high therapeutic effect, has a long-term character and persists at the end of the season of palination.

1 cl, 2 dwg, 3 tbl, 2 ex

Description

The invention relates to medicine, namely to immunology and allergology, and can be used to assess the effectiveness of allergen-specific immunotherapy for allergic rhinitis.

Allergic rhinitis (AR) is a disease characterized by the presence of an immunologically caused (most often IgE-dependent) inflammation of the nasal mucosa caused by a causative allergen. Allergic rhinitis is often combined with allergic conjunctivitis, bronchial asthma and other allergic diseases. AR with concomitant allergic diseases caused by sensitization to pollen of plants is called “hay fever”.

The development of allergic rhinitis is currently associated with a Th2 imbalance in the immune response. Th2 imbalance in allergies means an unbalanced increase in the differentiation of T-helpers in the direction of Th2 cells, which is determined by the predominance of expression of the transcription factor GATA-3 and the weakening of the expression of factors with opposite effects - TWET and FOXP3, which control the differentiation of Th1 cells and regulatory T cells (Treg), respectively [1]. The level of synthesis of these factors is determined by the expression of the GATA3, TBX21 and FOXP3 genes. In addition to these factors, the participation of pro-inflammatory Th17 cells, which play an important role in the development of autoimmune pathology, is possible in the pathogenesis of allergies [2]. The development of Th17 cells in humans is determined by the RORC factor, the synthesis of which is due to the expression of the RORC gene [1].

Given the important role in limiting the immune response and inflammation of Treg, it can be assumed that the pathogenesis of AR is largely due to the insufficiency of this subpopulation of cells [3]. It was previously shown that the Treg content in the peripheral blood of patients with AR can be normal or reduced [4-6]. The inconsistency of the data obtained by different researchers may be associated with the functional heterogeneity of Treg, which leads to the need to evaluate the functional characteristics of these cells [3].

The main regulator of the differentiation and functioning of Treg is the transcription factor FOXP3 [7]. In humans, this transcription factor is presented in the form of 4 isoforms [8-10]:

1) complete molecule (FOXP3-FL);

2) with a deletion of the domain encoded by exon 2 (FOXP3Δ2);

3) with a deletion of the domain encoded by exon 7 (FOXP3Δ7);

4) with a simultaneous deletion of domains encoded by exons 2 and 7 (FOXP3Δ2Δ7).

It is possible that the functional features of Treg in allergic diseases in humans are determined by incomplete isoforms of the FOXP3 molecule, since it is assumed that the FOXP3Δ2 molecule, which has a suppressor function and is located mainly in the nucleus, is the main isoform that determines the functional activity of Treg [11].

Currently, the only pathogenetic treatment for AR is allergen-specific immunotherapy (ASIT). It is believed that the effectiveness of this method is associated with switching the immune response from the Th2 type to the Th1 type, the accumulation of IgG4-blocking antibodies, the formation of anti-IgE antibodies, however, the mechanism of action of ASIT is not fully understood. At the moment, the clinical criteria for the appointment of ASIT are defined, but the most important aspect remains the prediction of its effectiveness. Predicting the effectiveness of ASIT will allow for the correct selection of patients, significantly increase the effectiveness of treatment and avoid possible complications during its implementation.

The possibility of using dopplerography of the sublingual salivary glands as an additional method for assessing the future effectiveness of ASIT due to the anatomical location of the organ, as well as high sensitivity to metabolic and physiological changes [12]. However, this study did not analyze the relationship of dopplerography of the sublingual salivary glands with concomitant allergic diseases, since they, being the cause of persistent allergic inflammation, can change the state of the salivary glands. There was also no analysis of the relationship of the dopplerography of the sublingual salivary glands with laboratory data (for example, with the level of total IgE), as well as with a spectrum of causally significant allergens, including domestic and epithelial ones.

To control the effectiveness of treatment of allergic rhinitis, a known method is that after the treatment is carried out, the severity of the symptoms of allergic rhinitis in points, the concentration of potassium in the nasal secretion are determined and the index of the immune tension of the nasal mucosa (IIN) is calculated by the formula: IIN = (AsIgA / sIgA ) X Liz X 100, where AsIgA is the avidity index sIgA; sIgA — content of secretory immunoglobulin A, mg / l; Liz - lysozyme content, μg / ml; 100 is a constant coefficient; 22 and when the total score of all symptoms of allergic rhinitis is zero, the concentration of potassium in the nasal secretion is 10.92 ± 0.68 mmol / L and the IIN is greater than or equal to 0.45, the treatment is considered effective [13].

It is known that the use of a decrease in the concentration of free hemoglobin in the nasal secretion as an objective indicator allows us to identify the immunotherapeutic effectiveness of the drug [14]. Since the increased content of free hemoglobin in the nasal secretion, detected immunometrically, is, like the increased content of eosinophils, a characteristic symptom of exacerbation of chronic allergic rhinitis, reflecting the severity of the clinical course. Moreover, a decrease in the severity of the clinical manifestations of rhinitis under the influence of topical therapy is accompanied by a decrease in the relative content of eosinophils and the concentration of free hemoglobin in the nasal secretion.

One of the ways to assess the effectiveness of ASIT in pollinosis conjunctivitis is to conduct a provocative conjunctival test (PCT), while 2-3 months after ASIT, PCT is repeated and if the threshold dose is 2 or more times higher, the therapeutic result is evaluated as effective [15].

It was shown that in order to predict the progress of allergen-specific immunotherapy in children with pollinosis, it is advisable, in addition to general clinical, allergological and immunological examination, to determine the phenotype of N- and P + -antigens of red blood cells. A comprehensive determination of phenotypic markers of the immune response by the presence of “minor” group antigens on the surface of blood red blood cells in children with pollinosis demonstrates that blood red blood cells contain surface N-antigen and P + antigen. It has been shown that in children with P + antigen on the surface of blood red blood cells there is a higher efficiency of allergen-specific immunotherapy [16].

Allergen molecules have been characterized and cloned and their antigenic determinants have been determined, which is the basis for the emergence of a new type of diagnosis of IgE-mediated diseases - molecular diagnostics (MD), i.e. mapping the patient’s allergenic sensitization at the molecular level using purified recombinant natural allergenic molecules instead of allergen extracts.

According to the MD concept, the effectiveness of ASIT will be high with an increased level of asIgE on M and the absence of antibodies on m components. With an increased level of asIgE simultaneously on M and m proteins, the effectiveness of ASIT may not be effective enough. With an increased level of asIgE to m proteins and the absence of antibodies to M proteins, ASIT allergen is not recommended for this allergen [17].

Thus, the given clinical diagnostic examples demonstrate the high efficiency of ImmunoCAP technology and MD methods, which can be used in the clinical practice of an allergist to decide the need for a successful ASIT, as well as a reasonable choice of allergen for specific immunotherapy.

The objective of the invention was to develop a method for assessing the effect of allergen-specific immunotherapy on the functional state of Treg, evaluating not only the number and proportion of Treg in peripheral blood, but also the level of expression of isoforms of the FOXP3 molecule, which differ in the presence of exon 2, as well as the level of expression of mRNA transcription factors GATA3, TBX21 and RORC in patients with seasonal AR.

To assess the effectiveness of allergen-specific immunotherapy (ASIT) in case of allergic rhinitis, the number of regulatory T cells, the expression level of isoforms of the FOXP3 molecule by flow cytometry, and the expression level of mRNA transcription factors GATA3, TBX21 and RORC by real-time polymerase chain reaction were determined peripheral blood of patients before and after ASIT. With an increase in the functional activity of regulatory T cells due to an increase in the number of cells expressing an FOXP3 molecule lacking exon 2, a decrease in the GATA3 / TBX21 ratio, and a decrease in RORC mRNA expression, they were evaluated as a positive effect from ASIT before the end of the palination season.

The technical result of the claimed invention is the identification of a group of patients according to the evaluation of the functional activity of Treg of peripheral blood, in which the ongoing ASIT is accompanied by a high therapeutic effect, has a long-term character, persisting at the end of the palination season. Using the method allows you to reliably evaluate at the initial stage the effectiveness of ASIT in allergic rhinitis.

DETAILED DESCRIPTION OF THE INVENTION

The study involved 38 patients with allergic rhinitis and rhinoconjunctivitis - 23 men, 15 women, median age 32.5 (26-46) years, and 24 healthy donors - 16 men, 8 women, median age 33 (24-50) years .

The material for the study was peripheral blood. Blood sampling was performed in test tubes with an anticoagulant. Cells were counted on a blood analyzer according to a standard technique. Isolation of peripheral blood mononuclear cells (PBMC) and subsequent analysis were performed over the next 6 hours.

MNPCs were isolated by centrifugation in a density gradient of ficol (1.077 g / cm ³ ). Cells were suspended in PBS with 1% BSA and 0.01% NaN ₃ , then incubated with monoclonal antibodies (MAT) to surface markers in the same buffer for 30 min at 4 ° C, after which they were washed and permeabilized for 40 min with buffer Foxp3 Fixation / Permeabilization Buffer (eBioscience) according to company guidelines. The cells were washed and incubated for 90 min at 4 ° C in the dark with MAT against FOXP3, washed again and immediately (without fixation) analyzed on a flow cytometer. Given the minority of the Treg fraction, at least 2 × 10 ⁵ cells entering the lymphocyte gate were analyzed to reduce the error. Laser cell cytometry was performed on a BD FACSCanto ™ II flow cytometer (Becton Dickinson) in standard mode. Data analysis was performed using FlowJo software.

MATs labeled with various fluorochromes were used: FITC (fluorescein isothiocyanate), PE (phycoerythrin), APC (allophycocyanin), PerCP-eFluor710 (peridinin-chlorophyll-protein-ePluor710) and PE-Cy7 (phycoerythrin-cyanine 7). The following combination of mAbs from eBioscience (preparations for isotypic controls of the same company) was used: CD3-PE-Cy7, CD4-FITC, CD25-PerCP-eFluor710, FOXP3 (PCH101) -APC, FOXP3 (150D / E4) -PE. A feature of this technique is the specificity of MAT against the FOXP3 molecule. MAT clone PCH101 recognize the epitope of the FOXP3 molecule encoded by exon 1, i.e. all isoforms of the molecule, and the MAT of clone 150D / E4 is the epitope encoded by exon 2, i.e. only FOXP3-FL and FOXP3Δ7 molecules. When combining the MAT data, their simultaneous binding to the cell indicates the presence of the whole FOXP3 molecule in the cell, and if only the MAT clone PCH101 binds, it expresses exclusively isoforms lacking exon 2 in the cell. The gating algorithm for determining Treg expressing various isoforms of the FOXP3 molecule is presented in FIG. 1. As a negative control at exhibiting gates for FOXP3 ⁺ -cells used subpopulation CD3 ^- cell populations not known molecule expressing FOXP3 (Figures 1a-c.). The proportion of Treg in a subset of T-helpers was determined by binding of CD3 ⁺ CD4 ⁺ cells to anti-CD25 mAbs and exon 1 of the FOXP3 molecule (Fig. 1e) in the gate set for CD3 ^- cells (Fig. 1b). The fraction of Treg expressing only the complete molecule of the FOXP3 molecule was determined by binding of FOXP3 ⁺ cells to MAT to exon 2 of the FOXP3 molecule (Fig. 1e) by the marker set for CD3 ^- cells (Fig. 1c).

To determine the mRNA of the GATA3, TBX21, RORC, and FOXP3 genes, real-time PCR with reverse transcription was performed.

Isolation of RNA from MNPK was carried out according to the Khomchinsky method [18] using the TRI Reagent reagent (Sigma) in accordance with the manufacturer's protocol. The reverse transcription reaction was performed using the RevertAid First Stand cDNA Syntesis Kit (Thermo Fisher Scientific). After obtaining the cDNA, real-time PCR was performed using the TaqMan Universal RT-PCR Master Mix reagent kit, with the primers GATA3 (Hs00231122_ml), TBX21 (Hs00894392_ml), RORC (Hs01076112_ml) and FOXP3, which determines the complete molecule FOXP3111_01_OX FOXP3_2 = Hs00203958_ml) ("Thermo Fisher Scientific").

To calculate the relative amounts of the studied RNA, the comparative method was used [19]. The mRNA expression level of the studied genes was determined relative to β2-microglobulin mRNA expression.

Statistical processing of the research results was carried out using non-parametric analysis methods. The indicators were represented as Me (L-H), where Me is the median, L is the lower quartile, and H is the upper quartile. To compare two independent samples by quantitative characteristics, the Mann-Whitney U test was used. To analyze the relationship of differences between related samples, the Wilcoxon test was used. The difference in groups was considered statistically significant at p <0.05. Processing was performed in the StatSoft Statistica 12.0 software package.

EXAMPLE 1

Initially, 38 patients with seasonal allergic rhinitis or rhinoconjunctivitis (AR / ARC) with sensitization to tree pollen allergens diagnosed for at least the last two years, regardless of the presence of bronchial asthma, were examined. The diagnosis was confirmed by an anamnesis and positive scarification tests with pollen allergens. Patients were screened out of the palination season. To conduct ASIT, 19 patients were randomly selected - 10 men, 9 women, median age 33 (28-46) years, which in age and sex corresponded to a group of healthy donors. He conducted the 1st course of ASIT using the classical method of water-salt extracts from a mixture of tree pollen (“Microgen”) subcutaneously according to an accelerated scheme to a total allergen dose of at least 6,000 PNU. Blood sampling was performed three times: 1) during the screening period (before ASIT); 2) after the completion of the ASIT course, but before the palination season (after ASIT); 3) after the ASIT course at the end of the palination season (after the palination season).

In the peripheral blood of all patients with AR before ASIT, after it and after the palination season, when compared with the parameters of the group of healthy donors, there were no statistically significant differences in the number of leukocytes, lymphocytes and T-helpers (Table 1).

When studying the level of mRNA expression of transcription factors that determine the Th1 / Th2 polarization of the immune response, a slight decrease in the expression level of GATA3 mRNA (1.1 times) and TBX21 (1.4 times) and a statistically significant increase were revealed in the group of patients with AR the GATA3 / TBX21 ratio is 2.1 times that of healthy people, which confirmed the presence of Th2 imbalance in patients with AR before ASIT (p = 0.004, table 2).

A cytometric study of all patients with AR revealed a statistically significant decrease in the peripheral blood of 1.5 times the proportion of Treg (CD25 ⁺ FOXP3 ⁺ ) among CD4 ⁺ T cells (p = 0.003, table 3) and 1.3 times their absolute number relative to indicators of healthy donors. The decrease in the number of Treg was mainly due to the decrease in the number of Treg expressing only the FOXP3 isoform lacking exon 2 product (FOXP3Δ2 Treg). This indicator was 1.5 times lower than in the group of healthy donors (p = 0.003, table. 3).

Thus, it was shown that prior to the treatment, the study group revealed the presence of Th2 imbalance characteristic of allergic diseases (an increase in the GATA3 / TBX21 ratio) and a decrease in the content of regulatory T cells, mainly due to a decrease in the number of regulatory T cells, expressing a FOXP3 molecule lacking exon 2. The latter circumstance is regarded as a decrease in the functional activity of regulatory T cells.

EXAMPLE 2

After ASIT, the GATA3 / TBX21 ratio decreased and ceased to differ statistically significantly from the norm, not reaching, however, the latter, but reflecting the positive effect of the therapy that lasted until the end of the palination season. Also, in patients with AR who received ASIT, at the end of the palination season, a statistically significant decrease in the mRNA expression of the transcription factor RORC was observed, which determines the differentiation of pro-inflammatory TY7 cells, which can also be regarded as a positive (anti-inflammatory) effect of the therapy. Analysis of the expression level of mRNA encoding the complete FOXP3 molecule did not show statistically significant changes compared to healthy donors.

The most striking and statistically significant fact was a almost 2-fold decrease in the proportion of Treg expressing the complete FOXP3 molecule (FOXP3-FL) in patients undergoing ASIT at the end of the palination season in comparison with this indicator before ASIT (26.8% after the season palinations against 46.7% to ASIT, p = 0.01 according to the Wilcoxon test, Fig. 2). This decrease indicates the relative accumulation of functionally active incomplete isoforms of the FOXP3Δ2 Treg molecule after the palination season, which are localized mainly in the nucleus and determine the functional activity of Treg.

Summing up the study, we can conclude that patients with AR are characterized by a decrease in the level of Treg in peripheral blood, mainly due to FOXP3Δ2 Treg, which may lead to a decrease in their functional activity. At the same time, a decrease in the proportion of FOXP3-FL Treg (or relative accumulation of FOXP3Δ2 Treg) in patients with AR after ASIT, pronounced at the end of the palination season, should indicate a relative increase in the functional activity of Treg. The assumptions made are based on published data on the FOXP3-FL molecule as functionally inactive as a transcription factor and localized mainly in the cytoplasm of the cell.

Thus, the results of this study indicate a decrease in the number and a decrease in the functional activity of Treg of peripheral blood in allergic rhinitis / rhinoconjunctivitis. The functional activity of Treg is corrected after ASIT - the effect is long-term in nature, persisting and most intensively manifested at the end of the palination season.

A brief description of the drawings.

FIG. 1. The gating algorithm in the cytometric analysis of Treg expressing various isoforms of the FOXP3 molecule, using the example of peripheral blood mononuclear cells of the examined person from the group of healthy donors.

a-c - exposure of FOXP3 ⁺ gate to CD3 ^- cells that obviously do not express the FOXP3 molecule: CD3 ^- cells among lymphocytes (a); exposure of FOXP3 (PCH101) ⁺ gate on CD3 ^- cells (b); setting FOXP3 (150D / E4) ⁺ gate on CD3 ^- cells (c),

gf — determination of Treg expressing various isoforms of the FOXP3 molecule: CD4 ⁺ T cells among lymphocytes (g); CD25 ⁺ FOXP3 (PCH101) ⁺ - all Treg among CD4 + T cells (d); FOXP3 (150D / E4) ⁺ - FOXP3 FL Treg among all Treg (e).

FIG. 2. The proportion of Treg expressing the complete isoform FOXP3 (FOXP3-FL) in the peripheral blood of patients with allergic rhinitis before and after ASIT, as well as healthy donors.

* - p <0.05 rel. donors; ## - p <0.05 rel. indicator to ASIT

Bibliography.

1. Yarilin A.A. Transcriptional regulators of differentiation of T-helpers // Immunology. 2010; 31 (3): 152-66.

2. Harrington LE, Hatton RD, Mangan PR, Turner H, Murphy TL, Murphy KM, Weaver CT: Interleukin 17-producing CD4 + effector T cells develop via a lineage distinct from the T helper type 1 and 2 lineages. Nat Immunol 2005, 6: 1123-1132.

3. Palmer C., Mulligan J.K., Smith S.E., Atkinson C. The role of regulatory T cells in the regulation of upper airway inflammation. Am J Rhinol Allergy. 2017; 31 (6): 345-351.

4. Huang X, Chen Y, Zhang F, et al. Peripheral Th17 / Treg cell-mediated immunity imbalance in allergic rhinitis patients. Braz J Otorhinolaryngol. 2014; 80: 152-155.

5. Han D, Wang C, Lou W, et al. Allergen-specific IL-10-secreting type I T regulatory cells, but not CD4 (+) CD25 (+) Foxp3 (+) T cells, are decreased in peripheral blood of patients with persistent allergic rhinitis. Clin Immunol. 2010; 136: 292-301.

6. Gene S, Eroglu H, Kucuksezer UC, et al. The decreased CD4 ⁺ CD25 ⁺ FoxP3 ⁺ T cells in nonstimulated allergic rhinitis patients sensitized to house dust mites. J Asthma. 2012; 49: 569-574.

7. Sakaguchi S., Yamaguchi T., Nomura T., Ono M., Regulatory T cells and immune tolerance. Cell. 2008; 133 (5): 775-87.

8. Smith EL, Finney HM, Nesbitt AM, Ramsdell F., Robinson MK Splice variants of human FOXP3 are functional inhibitors of human CD4 ⁺ T-cell activation. Immunology 2006; 119 (2): 203-11.

9. Kaur G., Goodall JC, Jarvis LB, Hill Gaston JS Characterization of Foxp3 splice variants in human CD4 ⁺ and CD8 ⁺ T cells - Identification of Foxp3delta7 in human regulatory T cells. Mol. Immunol. 2010; 48 (1-3): 321-32.

10. Chae W.J., Henegariu O., Lee S.K., Bothwell A.L. The mutant leucine-zipper domain impairs both dimerization and suppressive function of Foxp3 in T cells. Proc. Natl. Acad. Sci. USA 2006; 103 (25): 9631-6.

11. Zheng Y., Josefowicz S.Z., Kas A., Chu T.T., Gavin M.A., Rudensky A.Y. Genome-wide analysis of Foxp3 target genes in developing and mature regulatory T cells. Nature. 2007; 445 (7130): 936-40.

12. Ryazanov M.B. et al. Evaluation of the effectiveness of allergen-specific immunotherapy in children with hay fever using dopplerography of the sublingual salivary glands // file: /// C: /Users/User/Downloads/1460-1056-1-SM.pdf

13. Samuylov Yu.Yu. Determination of severity and evaluation of the effectiveness of treatment of allergic rhinitis // Abstract, St. Petersburg, 2008, http://www.dissercat.com/content/opredelenie-stepeni-tyazhesti-i-otsenka-effektivnosti-lecheniya-allergicheskogo-rinita#ixzz5Y9GnKBvr )

14. Mokronosova M.A. et al. Evaluation of the effectiveness of pharmacotherapy of allergic rhinitis in reducing the concentration of free hemoglobin in a nasal secret // Medical Immunology. 2006; 8 (5-6): 689-696.https: //doi.org/10.15789/1563-0625-2006-5-6-689-696

15. RU 2400148, 09/27/2010

16. Arsenyev N.A. Phenotypic markers for predicting the effectiveness of allergen-specific immunotherapy in children with hay fever // Abstract kmn, Moscow, 2008, http://www.dissercat.com/content/fenotipicheskie-markery-prognoza-effektivnosti-allergenspetsificheskoi-immunoterapii-detei-s#ixzzdYcR

17. Agafonova E.B. et al. Component Allergy Diagnostics: Possibilities for Predicting the Effectiveness of Allergen-Specific Immunotherapy // Practical Medicine, 2016, 3 (95) May, pp. 7-12

18. Chomczynski P, Sacchi N. Single-step method of RNA isolation by acid guanidinium thiocyanate-phenol-chloroform extraction. Anal Biochem. 1987; 162 (1): 156-9.

19. Livak K.J., Schmittgen T.D. Analysis of relative gene expression data using realtime quantitative PCR and the 2 (-Delta Delta C (T)) Method. Methods 2001; 25 (4): 402-8.

Claims (1)

A method for evaluating the effectiveness of allergen-specific immunotherapy (ASIT) for allergic rhinitis, including determining the number of regulatory T cells, the expression level of isoforms of the FOXP3 molecule by flow cytometry, as well as the expression level of mRNA transcription factors GATA3, TBX21 and RORC by polymerase chain reaction in real time in the peripheral blood of patients before and after ASIT, and with an increase in the functional activity of regulatory T cells due to an increase in the number of cells, I express their molecule FOXP3, lacking exon 2, reduction ratio GATA3 / TBX21 and reducing RORC mRNA expression evaluated as positive effects of conducting Asit palinatsii before the season.

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