Latin name: Sambucus nigra
Source material: Pollen
Common names: Elder, common elder, elderberry
Sambucus is the old Latin name for the European elderberry; nigra (black) may refer to the ripe fruit.
(Not to be confused with box-elder t1 (Acer negundo) or grey alder t2 (Alnus incana).)
The elder tree and other species of Sambucus are fast-growing small trees or large shrubs, 1-4 m tall. The leaves are compound and contain 5-11 leaflets, with finely or sharply toothed margins, 4-13 cm long and 2-6 cm wide.
Numerous species of elder tree or elderberry grow in Europe and North America. The elder tree is native to south-eastern Canada, and most of the United States except for the Great Basin and the Pacific Northwest, and is found in Britain, Europe, Iraq and Turkey.
Large clusters of creamy-white flowers are produced in summer, followed in autumn by large bunches of shiny black elderberries. The flowers are borne in large panicles, and are insect-pollinated. They are small, white, and fragrant, in flat cymes. The fruits ripen in late autumn and are usually purple-black, numerous, and 4-6 mm in diameter. Only blue/black berries are medicinal; the red berries produced by some species are not medicinal.
Elder trees are usually found in floodplains or rich soil. In Europe they are often seen along fencerows and ditches and stream banks. Other areas these shrubs may be found are hedgerows, scrub, woods, roadsides and waste places. Elderberry fruits are used for making pie, jam and wine.
Fruits should not be eaten fresh in large quantities, as they are emetic. Elder flower extract, mostly from the European species S. nigra, is made into a drink. The leaves of American elder are toxic.
To date the following allergen has been characterised:
Sam n 1, a 33.2 kDa, ribosomal inactivating protein, found in the pollen, flower and fruit. (1)
Thaumatin-like proteins (TLPs) have been isolated and characterised from fruits and leaves of the elder tree. Ripening berries accumulated a fruit-specific TLP during the final stages of maturation. The leaves expressed a TLP that closely resembled the fruit-specific homologue. These thaumatin-like proteins shared a high sequence similarity with group-5 pathogenesis-related proteins. (2) The clinical relevance of this protein was not evaluated, nor whether the allergenicity of these TLPs is similar to that of other TLPs.
Extensive cross-reactivity between the different individual species of the genus could be expected. (3)
IgE mediated reactions
Anecdotal evidence suggests that asthma, allergic rhinitis and allergic conjunctivitis are possible following exposure to pollen from this tree; however, few specific studies have been reported to date. Patients suffering from allergic rhinoconjunctivitis and dyspnoea during summer may exhibit these symptoms after contact with flowers or dietary products of the elder tree. Nine patients with a history of summer hay fever were tested in a routine setting for sensitisation to elder. 0.6% of 3668 randomly tested patients showed positive skin-prick test and/or IgE antibodies to elder. (1)
A retrospective, open and uncontrolled Croatian study attempting to identify the most common inhalant allergens associated with 1 097 patients with atopic dermatitis – and/or allergic rhinitis, and/or bronchial asthma – using skin-prick tests reported that 3 with asthma tested positive, as did 34 of those with atopic dermatitis and 12 of those with allergic rhinitis. (4)
Compiled by Dr Harris Steinman, firstname.lastname@example.org
- Forster-Waldl E, Marchetti M, Scholl I, Focke M, Radauer C, Kinaciyan T, Nentwich I, Jager S, Schmid ER, et al. Type I allergy to elderberry (Sambucus nigra) is elicited by a 33.2 kDa allergen with significant homology to ribosomal inactivating proteins. Clin Exp Allergy 2003;33(12):1703-10.
- Van Damme EJ, Charels D, Menu-Bouaouiche L, Proost P, Barre A, Rougé P, Peumans WJ. Biochemical, molecular and structural analysis of multiple thaumatin-like proteins from the elderberry tree (Sambucus nigra L.). Planta 2002;214(6):853-62.
- Yman L. Botanical relations and immunological cross-reactions in pollen allergy. 2nd ed. Pharmacia Diagnostics AB. Uppsala. Sweden. 1982: ISBN 91-970475-09.
- Stajminger G, Marinović-Kulisić S, Lipozencić J, Pastar Z. Most common inhalant allergens in atopic dermatitis, atopic dermatitis/allergic rhinitis, and atopic dermatitis/bronchial asthma patients: a five-year retrospective study. Acta Dermatovenerol Croat 2007;15(3):130-4.