Table of Contents

t218 Virginia live oak Scientific Information Route of Exposure Clinical Relevance Molecular Aspects Compiled By

Whole Allergen

t218 Virginia live oak

t218 Virginia live oak Scientific Information

Type:

Whole Allergen

Display Name:

Virginia live oak

Family:

Fagaceae

Latin Name:

Quercus virginiana

Other Names:

Virginia live oak, Southern Live Oak, Live oak, bay live oak, scrub live oak, plateau oak, plateau live oak, escarpment live oak, Encino

Route of Exposure

Unexpected exposure

The acorns are used for coffee, oil and food, and various parts of the tree have been used for medicinal purposes.

Clinical Relevance

IgE-mediated reactions

Oak pollen is a major cause of asthma, allergic rhinitis and allergic conjunctivitis (1-4). Virginia live oak is not as common as White oak, but when it is grown in urban communities and near rural ones, it is an important allergen, and the prevalence of atopic sensitisation its pollen will be high.

Oak pollen affects sensitised individuals throughout the world. In Madrid, Spain, the highest level of airborne pollen from 1979 to 1993 was from the Quercus species (17%) (12), and in Salamanca, Spain, the highest quantity of pollen was from Holm oak (5). Oak pollen has also been shown to be significant in Zurich (6), Mexico City (15), Japan (16), Korea (17), Tampa, Florida (18), and Cape Town, South Africa (7).

Exposure to Oak dust may also lead to the development of sore throat and bronchial hyperresponsiveness (8).

Occupational asthma and rhinitis due to Oak wood dust have been demonstrated in wood workers (9-10).

Determination of IgE antibodies has been documented to be a useful investigation in the case of Oak-allergic individuals (11-12).

Molecular Aspects

No allergens from this plant have yet been characterised.

As an extensive cross-reactivity among the different individual species of the genus could be expected (13), Virginia live oak may have allergens similar to those of White oak. Studies suggest that White oak pollen contains multiple proteins that are potentially allergenic (14). These include a group 1 Fagales protein, a calcium-binding protein and a profilin. See Oak tree t 7.

Moreover, probably not all species of Oak are equally allergenic:
Q. ilex pollen, although produced in considerable quantities, was not found to cause allergies in one study (15).

Cross Reactivity

Some of the pollen allergens in the various species of Oak cross-react with each other, while others are unique to their own species. No studies to date have examined the cross-reactivity between Virginia live oak and other plants, but assuming that an extensive cross-reactivity among the different individual species of the genus could be expected (13), studies involving White oak tree (Q. alba) are relevant.

In Sapporo, Japan, many Birch pollen-allergic patients complained of typical symptoms after the Birch pollen season. This has been attributed to Birch pollen-allergic individuals being affected by Oak pollinosis due to cross-reactivity between Birch and Oak pollen (16).

Natural Birch, Alder, Horn beam, Hazel, and Oak pollen contain allergens that share IgE epitopes with recombinant Bet v 1 and recombinant Bet v 2. A combination of recombinant Bet v 1 and Bet v 2 accounted for 82% of tree pollen-specific IgE in a study. Most of the tree pollen-specific IgE was directed against rBet v 1 (17).

In inhibitory ELISA assays, IgE binding to ginkgo pollen was inhibited more than 80% by Oak, Rye grass, Mugwort, and Ragweed; and 34% by Japanese Hop; and 10% by rBet v 2 at 10 µg/ml (18).

On the evidence of these studies, American patients allergic to Virginia live oak pollen can be expected to be affected by Oak species found in Europe and other parts of the world.

Compiled By

Last reviewed: May 2022

References

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Schwartz J, Weiss ST. Relationship of skin test reactivity to decrements in pulmonary function in children with asthma or frequent wheezing. Am J Respir Crit Care Med 1995;152(6 Pt 1):2176-80
Ross AM, Corden JM, Fleming DM. The role of Oak pollen in hay fever consultations in general practice and the factors influencing patients’ decisions to consult.Br J Gen Pract 1996;46(409):451-5
Subiza J, Jerez M, Jimenez JA, Narganes MJ, Cabrera M, Varela S, Subiza E. Allergenic pollen pollinosis in Madrid.J Allergy Clin Immunol 1995;96(1):15-23
Hernandez Prieto M, Lorente Toledano F, Romo Cortina A, Davila Gonzalez I, et al. Pollen calendar of the city of Salamanca (Spain). Aeropalynological analysis for 1981-1982 and 1991-1992. Allergol Immunopathol (Madr) 1998;26(5):209-22
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Jung K, Schlenvoigt G, Jager L. Allergologic-immunochemical study of tree and bush pollen. II – Study of the sensitization spectrum of patients with seasonal rhinitis in the spring. [German] Allerg Immunol (Leipz) 1987;33(4):215-21
Yman L. Botanical relations and immuno-logical cross-reactions in pollen allergy. 2nd ed. Pharmacia Diagnostics AB. Uppsala. Sweden. 1982: ISBN 91-970475-09
Loria RC, Wilson P, Wedner HJ. Identification of potential allergens in White Oak (Quercus alba) pollen by immunoblotting. J Allergy Clin Immunol 1989;84(1):9-18
Prados M, Aragon R, Carranco MI, Martinez A, Martinez J. Assessment of sensitization to holm Oak (Quercus ilex) pollen in the Merida area (Spain). Allergy 1995;50(5):456-9
Dohsaka Y, Maguchi S, Takagi S, Nagahashi T, Fukuda S, Inuyama Y. Effect of Oak pollen on patients with birch pollinosis. [Japanese] Nippon Jibiinkoka Gakkai Kaiho 1995;98(3):357-61
Niederberger V, Pauli G, Gronlund H, Froschl R, Rumpold H, Kraft D, Valenta R, Spitzauer S. Recombinant birch pollen allergens (rBet v 1 and rBet v 2) contain most of the IgE epitopes present in birch, alder, hornbeam, hazel, and Oak pollen: a quantitative IgE inhibition study with sera from different populations. J Allergy Clin Immunol 1998;102(4 Pt 1):579-91