Cultivated oat
Summary
Anecdotal evidence suggests that cultivated oat pollen may induce asthma, allergic rhinitis and allergic conjunctivitis in sensitized individuals, however few studies have been reported to date. Nine allergens have been characterized from Avena sativa, representing a number of allergen Groups, and extensive cross-reactivity may be expected to a certain degree among other members of the family Poaceae, especially in the subfamily Pooideae.
Clinical Relevance
Anecdotal evidence suggests that cultivated oat pollen may induce asthma, allergic rhinitis and allergic conjunctivitis in sensitized individuals, however few studies have been reported to date.
In a clinical file review of 335 female and 130 male asthmatic patients attending a hospital clinic in Cova de Beira (Portugal), 70% of the patients had allergic asthma and 30% had non-allergic asthma. Skin-prick testing (SPT) identified the major sensitizers for allergic asthmatic individuals to be grass pollen (65.5%), mites (62.9%), cereal pollens including A. sativa (62.6%), tree pollen (49.3%), weed pollen (49.3%), dog dander (30%), molds and fungi (21.9%) and cat dander (15.3%). The study noted no correlation between the wheal size of the prick tests or the pattern of allergen sensitization and the severity of allergic disease. In contrast to these results in adults, an earlier study in the same region of Portugal submitted 371 pediatric patients (aged ≤15 years) to SPTs to aeroallergens and noted a prevalence of only 0.1% sensitization to A. sativa extract.
Specific IgE determination demonstrated that oat pollen may be an occupational allergen among dairy farmers.
The serum immunoreactivity profiles to common indigenous allergens in Iran were recently compared between 39 patients with Meniere’s disease and 41 control individuals. This study reported a significant relationship between Meniere and serum reactivity to inhalation and food allergens (both, p=0.001), and also a significant difference between the Meniere and control groups with respect to individual inhalation allergens including sweet vernal grass, cultivated rye, cultivated oat, Russian thistle, goosefoot and rough pigweed (p=0.01–0.038).
Cross-Reactivity
More than 95% of patients allergic to grass pollens have IgE antibodies to Group 1 allergens, while 60% have IgE antibodies to Group 2/3 allergens, 70% to Group 4 allergens, 70-80% to Group 5 allergens, and 20% to profilins.
Extensive cross-reactivity among the different individual species of the genus Avena may be expected, and to a certain degree among members of the family Poaceae, especially in the subfamily Pooideae, as a result of the variable degree of cross-reactivity between allergens in Groups 1, 2, 4, and 5.
A survey of 193 grass pollen-allergic patients from different countries noted that inhibition of IgE binding to pollen extracts prepared from species more closely related to timothy grass was higher (e.g. Anthoxanthum odoratum [sweet vernal grass]: 65%, A. sativa: 66%, Lolium perenne [rye grass]: 64%, Poa pratensis [meadow grass/Kentucky Bluegrass]: 66%, Secale cereale [cultivated rye]: 63%, and Triticum sativum [cultivated wheat]: 63%) than to extracts from more distantly-related species (Cynodon dactylon [Bermuda grass]: 47%, Phragmites australis [Australian reed]: 55%, and Zea mays [maize/corn]: 45%). In this study, immunologically detectable Group 5 and Group 2 allergens were found in all species except for C. dactylon and Z. mays.
In a survey of proteins cross-reactive with Group 1, Group 4 and Group 9 allergens, numerous allergen cognate proteins were identified in pollen from ten agricultural species including barley (Hordeum vulgare), maize/corn (Z. mays), rye (S. cereale), triticale (xTriticosecale cereale), oat (A. sativa), canola (Brassica napus) and sunflower (Helianthus annus).
References
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