Skin window cytokines in bronchial asthma associated with food allergy

95 patients at the age of 18–60 years with bronchial asthma, perennial allergic rhinitis with or without associated food allergy were examined. There have been carried out the study of IFN-g, IL-4, IL-17 and IL-22 in skin exudates that enabled to reveal an essential increase in IL-22 in persons with food allergy.

Keywords

bronchial asthma, food allergy, cytokines, skin window

Received

11.01.2019

Publication date

12.01.2019

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GOST	Isaev P., Климов V., Romanova M., Sviridova V., Naidina O., Pronina N. “Skin window” cytokines in bronchial asthma associated with food allergy // Rossiiskii immunologicheskii zhurnal – 2018. – V. 12. – Issue 3 C. 317-320 [Electronic resource]. URL: http://ras.jes.su/ruimm/s207987840001597-5-1-en (circulation date: 25.04.2024). DOI: 10.31857/S102872210002402-7
MLA	Isaev, P., Климов, V., Romanova, M., Sviridova, V., Naidina, O., Pronina, N. "“Skin window” cytokines in bronchial asthma associated with food allergy." Rossiiskii immunologicheskii zhurnal 12.3 (2018):317-320. DOI: 10.31857/S102872210002402-7
APA	Isaev P., Климов V., Romanova M., Sviridova V., Naidina O., Pronina N. (2018). “Skin window” cytokines in bronchial asthma associated with food allergy. Rossiiskii immunologicheskii zhurnal 12(3), pp.317-320 DOI: 10.31857/S102872210002402-7

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1. Bieber T. Atopic Dermatitis. N Engl J Med 2008, 358, 1483Ts1494.

2. Farahani R., Sherkat R., Hakemi G. M. et al. Cytokines (Interleukin-9, IL-17, IL-22, IL-25 and IL-33) and Asthma. Adv Biomed Res 2014, 3, 127Ts131.

3. Li Y.-Y, Zhang H.-L., Yan G.-G.E.N.T. Serum IL-17 and IL-22 Level Changes in Allergic Rhinitis Patients and its Relationship with Disease Severity. Heilongjiang Med. J 2015, 8, 15Ts19.

4. Tsvetkova-Vicheva V., Konova E., Lukanov T. et al. Interleukin-17 Producing T Cells could be a Marker for Patients with Allergic Rhinitis. IMAJ, 2014, 16, 358Ts362.

5. Lambrecht B. N., Hammad H. The immunology of asthma. Nature Immunology 2015, 16, 45Ts56.

6. Walker J. A., Barlow J. L. & McKenzie A. N. J. Innate lymphoid cells Ts how did we miss them? Nature Rev Immunol 2013, 13, 75Ts87.

7. Pali-Scholl I., Jensen-Jarolim E. The concept of allergen-associated molecular patterns (AAMP). Current Opinion in Immunology 2016, 42, 113Ts118.

8. Rebuck J. W., Crowely J. H. A method of studying leukocytic functions in vivo. Ann. N. Y. Acad. Sci 1955, 59 (5), 757Ts805.

9. Essakalli M., Brick C., Bennani N. et coll. Le lymphocyte Th17 dernier-ne de la famille des lymphocytes T CD4+. Pathologie Biologie 2009, 4, 54Ts61.

10. Dong C. Diversifi cation of T-helper-cell lineages: fi nding the family root of IL-17-producing cells. Nat. Rev. Immunol 2006, 6, 329Ts333.

11. Harrington L. Interleukin-17Tsproducing CD4+ eff ector T cells develop via a lineage distinct from the T helper type 1 and 2 lineages. Nature Immunology 2005, 6 (11), 1123Ts1132.

12. Araujo-Pires A. C., Francisconi C. F., Biguetti C. C. et al. Simultaneous analysis of T helper subsets (Th1, Th2, Th9, Th17, Th22, Tfh, Tr1 and Tregs) markers expression in periapical lesions reveals multiple cytokine clusters accountable for lesions activity and inactivity status/ J Appl Oral Sci. 2014, 22 (4), 336Ts346.

13. Akdis M., Palomares O., van de Veen W. et al. TH17 and TH22 cells: a confusion of antimicrobial response with tissue infl ammation versus protection. J Allergy Clin Immunol 2012, 129 (6), 1438Ts1449.

14. Wawrzyniak M., Wawrzyniak P., Ruckert B. et al. Isolation and characterisation of human IL-22-producing Tcells. Allergy 2013, 68 (Suppl 97), 664.

15. Kumar R. Food allergy in bronchial asthma: Diagnostic modalities. Indian Journal of Allergy, Asthma and Immunology 2013, 27 (2), 108Ts114.

16. Gauthier M., Ray A., Wenzel S. Evolving concepts of asthma. Am J Respir Crit Care Med 2015, 192(6), 660Ts668.