The value of specific IgE to peanut and its component Ara h 2 in the diagnosis of peanut allergy.

BACKGROUND: To avoid unnecessary oral food challenges, which are time consuming, stressful, and risky, improved in vitro diagnostic methods for food allergy such as component resolved diagnostics are still under investigation. OBJECTIVE: To investigate the role of whole peanut- and peanut-component (Ara h 1, Ara h 2, Ara h 3, Ara h 6 and Ara h 8)-specific IgE levels in the diagnostic procedure of peanut allergy as well as the diagnostic properties of peanut-specific IgG and IgG4. METHODS: Sixty-one children underwent oral peanut challenge tests for diagnostic purposes irrespective of their peanut-specific IgE levels. Peanut-specific serum IgE, IgG, and IgG4 levels were determined by ImmunoCAP FEIA and specific IgE against individual peanut proteins by Immuno Solid-phase Allergen Chip. RESULTS: Thirty-four of 61 patients (56%) had a peanut allergy. No significant difference was observed for peanut-specific IgG or peanut-specific IgG4 levels between patients who were allergic and tolerant patients, whereas peanut-specific IgE was significant higher in patients who were allergic than in tolerant patients (P < .005). Twenty-five of 61 children had peanut-specific IgE above a previously proposed cutoff level of 15 kUA/L; however, 7 of these 25 children (28%) were clinically tolerant. Ara h 2-specific IgE was significantly lower in tolerant than in patients with allergies (P < .0001). Interestingly, 94% of the patients with peanut allergies showed IgE-binding to Ara h 2. Unfortunately, 26% of the sensitized but tolerant patients have shown IgE binding to Ara h 2 too. CONCLUSIONS: Neither the level of specific IgE to peanut nor to Ara h 2 was able to clearly distinguish patients with clinical relevant peanut allergy from those who were clinical tolerant in our population. As expected, peanut-specific IgG and IgG4 did not improve the diagnostic procedure.

Mass spectrometry and structural characterization of 2S albumin isoforms from Brazil nuts (Bertholletia excelsa).

Proteomic approaches have been used to characterise the main 2S albumin isoforms from Brazil nuts (Bertholletia excelsa). Whilst most isoforms ( approximately 10 discrete protein species) exhibited molecular masses of around 12 kDa with a high amino acid sequence homology, important charge heterogeneity was found, with pIs varying between 4.6 and 6.6, with one >or=7.0. Proteomic analysis showed that these corresponded to a total of six National Center for Biotechnology Information (NCBI) accessions and that three isoforms had been purified to homogeneity corresponding to gi/384327, 112754 and 99609. The latter sequence corresponds to an isoform, previously only identified at the nucleotide sequence level, had a slightly higher molecular weight (13.4 kDa), and with noticeable differences in the primary structure. Proteins corresponding to six different NCBI accessions were identified, the heterogeneity of which had been increased by posttranslational processing. Evidence was found of cyclization of the N-terminal glutamine residue in two isoforms, together with ragged C-termini, indicative of carboxypeptidase activity within the vacuole following posttranslational processing. No evidence of glycosylation was found. Circular dichroism (CD) and Fourier transform-infrared (FT-IR) spectroscopy indicated all the studied isoforms were predominantly alpha-helical in nature, but that the Mr 13400 species was structurally distinct, with a higher proportion of alpha-helical structure.