Pine

Pine Scientific Information
Type: Whole Allergen
Display Name: Pine
Allergen code: t213
Family: Pinaceae
Species: Pinus sylvestris, Pinus radiata, Pinus nigra
Route of Exposure: Inhalation
Latin Name: Pinus sylvestris, Pinus radiata, Pinus nigra
Other Names: Scotch pine, Scots pine, European red pine, Baltic pine (P. sylvestris) Monterey pine (P. radiata) Black pine (P. nigra) Stone pine, Italian stone pine, Umbrella pine, Parasol pine (P. pinea)

Summary

Pine trees (Pinus spp.) are distributed widely in the Northern hemisphere, both naturally and as part of commercial forestry. Although pine pollen was thought to have low allergenic potential, it is now an inhaled allergen of growing concern. Pine pollen causes allergic rhinitis, conjunctivitis and asthma in adults and children. Lung function deficits and reduced performance of the bronchial epithelial barrier are reported in clinical literature. There is a high level of cross-reactivity between Pinus species. Cross-reactivity to Cypress, Olive and Perennial Ryegrass allergens has been found in some studies.

References
  1. Bishan C, Bing L, Chixin C, Junxia S, Shulin Z, Cailang L, et al. Relationship between airborne pollen assemblages and major meteorological parameters in Zhanjiang, South China. PLOS ONE. 2020;15(10):e0240160.
  2. So HJ, Moon SJ, Hwang SY, Kim JH, Jang HJ, Jo JH, et al. Characteristics of airborne pollen in Incheon and Seoul (2015-2016). Asia Pac Allergy. 2017;7(3):138-47.
  3. Fernández-González M, Lara B, González-Fernández E, Rojo J, Pérez-Badia R, Rodríguez-Rajo FJ. Pinus Pollen Emission Patterns in Different Bioclimatic Areas of the Iberian Peninsula. Forests. 2021;12(6).
  4. Lambert KA, Katelaris C, Burton P, Cowie C, Lodge C, Garden FL, et al. Tree pollen exposure is associated with reduced lung function in children. Clin Exp Allergy. 2020;50(10):1176-83.
  5. Shevtsova T, Kacaniova M, Petrová J, Brindza J, Garkava K. Microbiota of pinus pollen as adjuvant factor of allergy. Journal of Microbiology, Biotechnology and Food Sciences. 2016;05:627-32.
  6. Röseler STM, Baron JM, Höflich C, Merk HF, Bas M, Bier H, et al. "New" inhalant plant allergens. Allergol Select. 2020;4:1-10.
  7. CABI. Pinus (pines) Wallingford, UK: CABI Internatioonal; 2021 [cited 2021 02.11.21]. Available from: https://www.cabi.org/isc/datasheet/41522.
  8. Gastaminza G, Lombardero M, Bernaola G, Antepara I, Muñoz D, Gamboa PM, et al. Allergenicity and cross-reactivity of pine pollen. Clin Exp Allergy. 2009;39(9):1438-46.
  9. Domínguez-Ortega J, López-Matas M, Alonso MD, Feliú A, Ruiz-Hornillos J, González E, et al. Prevalence of allergic sensitization to conifer pollen in a high cypress exposure area. Allergy Rhinol (Providence). 2016;7(4):200-6.
  10. Loureiro G, Rabaça MA, Blanco B, Andrade S, Chieira C, Pereira C. Aeroallergens sensitization in an allergic paediatric population of Cova da Beira, Portugal. Allergol Immunopathol (Madr). 2005;33(4):192-8.
  11. Blume C, Swindle EJ, Gilles S, Traidl-Hoffmann C, Davies DE. Low molecular weight components of pollen alter bronchial epithelial barrier functions. Tissue Barriers. 2015;3(3):e1062316.
  12. Ščevková J, Dušička J, Hrubiško M, Mičieta K. Influence of airborne pollen counts and length of pollen season of selected allergenic plants on the concentration of sIgE antibodies on the population of Bratislava, Slovakia. Ann Agric Environ Med. 2015;22(3):451-5.
  13. Asam C, Hofer H, Wolf M, Aglas L, Wallner M. Tree pollen allergens-an update from a molecular perspective. Allergy. 2015;70(10):1201-11.
  14. Katotomichelakis M, Danielides G, Iliou T, Anastassopoulos G, Nikolaidis C, Kirodymos E, et al. Allergic sensitization prevalence in a children and adolescent population of northeastern Greece region. Int J Pediatr Otorhinolaryngol. 2016;89:33-7.