Celery

Celery Scientific Information
Type: Whole Allergen
Display Name: Celery
Allergen code: f85
Family: Apiaceae
Species: graveolens
Route of Exposure: Ingestion
Latin Name: Apium graveolens
Other Names: Stick celery, Celeriac, Celery root, Root celery, Celery tuber, Knob celery
WHO/ICD-11 code: XM1PN2

Summary

Celery is a vegetable that is consumed globally in a variety of ways including raw, cooked and it is used in flavorings. Celery is native to Western and Northern Europe and the Middle East and is grown in Europe, East Asia, southern Africa and southeastern Oceania. Sensitization to celery allergens has been shown to be increasing in the general population from 3.5% to 6.3% from data published in 2010 and 2014, respectively. To date, six celery allergens have been identified with Api g 1 being the major celery allergen and a Fagales-related protein Bet v 1 homologue. Celery allergy is closely linked to birch and mugwort pollen sensitization and is often referred to as birch-mugwort-celery-syndrome. Since Api g 1 is a homologue of the major birch pollen (Bet v 1) cross-reactivity can be seen with related proteins found in other foods for example apples, stone fruits, carrots, hazelnuts and legumes. The clinical signs associated with celery allergy are often related to the oropharynx, known as oral allergy syndrome and currently, no marker allergen has been discovered to help predict severe reactions in patients. However, severe reactions have been observed in patients who are mugwort-sensitized.

References
  1. Li M-Y, Feng K, Hou X-L, Jiang Q, Xu Z-S, Wang G-L, et al. The genome sequence of celery (Apium graveolens L.), an important leaf vegetable crop rich in apigenin in the Apiaceae family. Horticulture Research. 2020;7(1):9.
  2. Sowbhagya HB. Chemistry, technology, and nutraceutical functions of celery (Apium graveolens L.): an overview. Crit Rev Food Sci Nutr. 2014;54(3):389-98.
  3. Alibas I. Determination of Vacuum and Air Drying Characteristics of Celeriac Slices. Journal of Biological and Environmental Sciences. 2012;6:1-13.
  4. Matricardi PM, Kleine-Tebbe J, Hoffmann HJ, Valenta R, Hilger C, Hofmaier S, et al. EAACI Molecular Allergology User's Guide. Pediatr Allergy Immunol. 2016;27 Suppl 23:1-250.
  5. Bruznican S, De Clercq H, Eeckhaut T, Van Huylenbroeck J, Geelen D. Celery and Celeriac: A Critical View on Present and Future Breeding. Front Plant Sci. 2019;10:1699.
  6. Dölle S, Welter S, Ruppel E, Lehmann K, Schwarz D, Jensen-Jarolim E, et al. Clinical reactivity of celery cultivars in allergic patients: Role of Api g 1. Clin Exp Allergy. 2018;48(4):424-32.
  7. Moonesinghe H, Kilburn S, Mackenzie H, Venter C, Lee K, Dean T. The prevalence of “novel” food allergens worldwide: a systematic review. Clin Transl Allergy. 2015;5(Suppl 3):P9.
  8. Lyons SA, Burney PGJ, Ballmer-Weber BK, Fernandez-Rivas M, Barreales L, Clausen M, et al. Food Allergy in Adults: Substantial Variation in Prevalence and Causative Foods Across Europe. J Allergy Clin Immunol Pract. 2019;7(6):1920-8.e11.
  9. Lyons SA, Clausen M, Knulst AC, Ballmer-Weber BK, Fernandez-Rivas M, Barreales L, et al. Prevalence of Food Sensitization and Food Allergy in Children Across Europe. J Allergy Clin Immunol Pract. 2020;8(8):2736-46.e9.
  10. Ballmer-Weber BK, Vieths S, Lüttkopf D, Heuschmann P, Wüthrich B. Celery allergy confirmed by double-blind, placebo-controlled food challenge: a clinical study in 32 subjects with a history of adverse reactions to celery root. J Allergy Clin Immunol. 2000;106(2):373-8.
  11. Ballmer-Weber BK, Hoffmann A, Wüthrich B, Lüttkopf D, Pompei C, Wangorsch A, et al. Influence of food processing on the allergenicity of celery: DBPCFC with celery spice and cooked celery in patients with celery allergy. Allergy. 2002;57(3):228-35.
  12. Ortolani C, Ispano M, Pastorello EA, Ansaloni R, Magri GC. Comparison of results of skin prick tests (with fresh foods and commercial food extracts) and RAST in 100 patients with oral allergy syndrome. J Allergy Clin Immunol. 1989;83(3):683-90.
  13. Muluk NB, Cingi C. Oral allergy syndrome. Am J Rhinol Allergy. 2018;32(1):27-30.
  14. Skypala IJ. Food-Induced Anaphylaxis: Role of Hidden Allergens and Cofactors. Front Immunol. 2019;10:673.
  15. Beier RC. Natural pesticides and bioactive components in foods. Rev Environ Contam Toxicol. 1990;113:47-137.
  16. Kavli G, Volden G. Phytophotodermatitis. Photodermatol. 1984;1(2):65-75.
  17. Bauermeister K, Ballmer-Weber BK, Bublin M, Fritsche P, Hanschmann KM, Hoffmann-Sommergruber K, et al. Assessment of component-resolved in vitro diagnosis of celeriac allergy. J Allergy Clin Immunol. 2009;124(6):1273-81.e2.
  18. WHO/IUIS. WHO/IUIS Allergen Database 2020 [cited 2020 July 2020]. Available from: http://www.allergen.org/.
  19. Vieths S, Lüttkopf D, Reindl J, Anliker MD, Wüthrich B, Ballmer-Weber BK. Allergens in celery and zucchini. Allergy. 2002;57 Suppl 72:100-5.
  20. Ebner C, Hirschwehr R, Bauer L, Breiteneder H, Valenta R, Ebner H, et al. Identification of allergens in fruits and vegetables: IgE cross-reactivities with the important birch pollen allergens Bet v 1 and Bet v 2 (birch profilin). J Allergy Clin Immunol. 1995;95(5 Pt 1):962-9.
  21. Hoffmann-Sommergruber K, Vanek-Krebitz M, Ferris R, O'Riordain G, Susani M, Hirschwehr R, et al. Isolation and cloning of Bet v 1-homologous food allergens from celeriac (Api g1) and apple (Mal d1). Adv Exp Med Biol. 1996;409:219-24.
  22. Schirmer T, Hoffimann-Sommergrube K, Susani M, Breiteneder H, Marković-Housley Z. Crystal structure of the major celery allergen Api g 1: molecular analysis of cross-reactivity. J Mol Biol. 2005;351(5):1101-9.
  23. Bublin M, Lauer I, Oberhuber C, Alessandri S, Briza P, Radauer C, et al. Production and characterization of an allergen panel for component-resolved diagnosis of celery allergy. Mol Nutr Food Res. 2008;52 Suppl 2:S241-50.
  24. Wangorsch A, Ballmer-Weber BK, Rösch P, Holzhauser T, Vieths S. Mutational epitope analysis and cross-reactivity of two isoforms of Api g 1, the major celery allergen. Mol Immunol. 2007;44(10):2518-27.
  25. Hauser M, Asam C, Himly M, Palazzo P, Voltolini S, Montanari C, et al. Bet v 1-like pollen allergens of multiple Fagales species can sensitize atopic individuals. Clin Exp Allergy. 2011;41(12):1804-14.
  26. Hoffmann-Sommergruber K, Ferris R, Pec M, Radauer C, O'Riordain G, Laimer Da Camara Machado M, et al. Characterization of api g 1.0201, a new member of the Api g 1 family of celery allergens. Int Arch Allergy Immunol. 2000;122(2):115-23.
  27. Lüttkopf D, Ballmer-Weber BK, Wüthrich B, Vieths S. Celery allergens in patients with positive double-blind placebo-controlled food challenge. J Allergy Clin Immunol. 2000;106(2):390-9.
  28. Martínez A, Asturias JA, Monteseirín J, Moreno V, García-Cubillana A, Hernández M, et al. The allergenic relevance of profilin (Ole e 2) from Olea europaea pollen. Allergy. 2002;57 Suppl 71:17-23.
  29. Radauer C, Willerroider M, Fuchs H, Hoffmann-Sommergruber K, Thalhamer J, Ferreira F, et al. Cross-reactive and species-specific immunoglobulin E epitopes of plant profilins: an experimental and structure-based analysis. Clin Exp Allergy. 2006;36(7):920-9.
  30. Scheurer S, Wangorsch A, Nerkamp J, Skov PS, Ballmer-Weber B, Wüthrich B, et al. Cross-reactivity within the profilin panallergen family investigated by comparison of recombinant profilins from pear (Pyr c 4), cherry (Pru av 4) and celery (Api g 4) with birch pollen profilin Bet v 2. J Chromatogr B Biomed Sci Appl. 2001;756(1-2):315-25.
  31. Valenta R, Duchene M, Ebner C, Valent P, Sillaber C, Deviller P, et al. Profilins constitute a novel family of functional plant pan-allergens. J Exp Med. 1992;175(2):377-85.
  32. Vallier P, DeChamp C, Valenta R, Vial O, Deviller P. Purification and characterization of an allergen from celery immunochemically related to an allergen present in several other plant species. Identification as a profilin. Clin Exp Allergy. 1992;22(8):774-82.
  33. Bublin M, Radauer C, Wilson IB, Kraft D, Scheiner O, Breiteneder H, et al. Cross-reactive N-glycans of Api g 5, a high molecular weight glycoprotein allergen from celery, are required for immunoglobulin E binding and activation of effector cells from allergic patients. Faseb j. 2003;17(12):1697-9.
  34. Ganglberger E, Radauer C, Grimm R, Hoffmann-Sommergruber K, Breiteneder H, Scheiner O, et al. N-terminal sequences of high molecular weight allergens from celery tuber. Clin Exp Allergy. 2000;30(4):566-70.
  35. Gadermaier G, Hauser M, Egger M, Ferrara R, Briza P, Santos KS, et al. Sensitization prevalence, antibody cross-reactivity and immunogenic peptide profile of Api g 2, the non-specific lipid transfer protein 1 of celery. PLoS One. 2011;6(8):e24150.
  36. Vejvar E, Himly M, Briza P, Eichhorn S, Ebner C, Hemmer W, et al. Allergenic relevance of nonspecific lipid transfer proteins 2: Identification and characterization of Api g 6 from celery tuber as representative of a novel IgE-binding protein family. Molecular Nutrition & Food Research. 2013;57(11):2061-70.
  37. Bauer L, Ebner C, Hirschwehr R, Wüthrich B, Pichler C, Fritsch R, et al. IgE cross-reactivity between birch pollen, mugwort pollen and celery is due to at least three distinct cross-reacting allergens: immunoblot investigation of the birch-mugwort-celery syndrome. Clin Exp Allergy. 1996;26(10):1161-70.
  38. Fötisch K, Altmann F, Haustein D, Vieths S. Involvement of carbohydrate epitopes in the IgE response of celery-allergic patients. Int Arch Allergy Immunol. 1999;120(1):30-42.
  39. Schäfer T, Böhler E, Ruhdorfer S, Weigl L, Wessner D, Heinrich J, et al. Epidemiology of food allergy/food intolerance in adults: associations with other manifestations of atopy. Allergy. 2001;56(12):1172-9.
  40. Bohle B. The impact of pollen-related food allergens on pollen allergy. Allergy. 2007;62(1):3-10.
  41. Asero R. Relevance of pollen-specific IgE levels to the development of Apiaceae hypersensitivity in patients with birch pollen allergy. Allergy. 1997;52(5):560-4.