02872nas a2200337 4500000000100000008004100001100001400042700001200056700001400068700001400082700001800096700001300114700001500127700001600142700001400158700001600172700001500188700001200203700001500215700001400230700001200244700001400256700001200270700001200282700001600294700001300310245012900323250001500452520201600467020005102483 2015 d1 aHopper J.1 aDwyer T1 aKoplin J.1 aSuaini N.1 aVuillermin P.1 aEllis J.1 aPanjari M.1 aPonsonby A.1 aPeters R.1 aMatheson M.1 aMartino D.1 aDang T.1 aOsborne N.1 aMartin P.1 aLowe A.1 aGurrin L.1 aTang M.1 aWake M.1 aDharmage S.1 aAllen K.00aPolymorphisms affecting vitamin D-binding protein modify the relationship between serum vitamin D (25[OH]D) and food allergy a2015/08/123 a
BACKGROUND: There is evolving evidence that vitamin D insufficiency may contribute to food allergy, but findings vary between populations. Lower vitamin D-binding protein (DBP) levels increase the biological availability of serum vitamin D. Genetic polymorphisms explain almost 80% of the variation in binding protein levels. OBJECTIVE: We sought to investigate whether polymorphisms that lower the DBP could compensate for adverse effects of low serum vitamin D on food allergy risk. METHODS: From a population-based cohort study (n = 5276) we investigated the association between serum 25-hydroxyvitamin D3 (25[OH]D3) levels and food allergy at age 1 year (338 challenge-proven food-allergic and 269 control participants) and age 2 years (55 participants with persistent and 50 participants with resolved food allergy). 25(OH)D3 levels were measured using liquid chromatography-tandem mass spectrometry and adjusted for season of blood draw. Analyses were stratified by genotype at rs7041 as a proxy marker of DBP levels (low, the GT/TT genotype; high, the GG genotype). RESULTS: Low serum 25(OH)D3 level (
a1097-6825 (Electronic)