Component-resolved diagnosis using microarray technology has been recently introduced into clinical allergy practice. The diagnosis of IgE-mediated allergy is based on skin prick tests and supported by standard specific IgE in vitro tests. These traditional diagnostic tools use natural allergen extracts, which contain a mixture of allergenic and non-allergenic molecules that are difficult to standardize, mainly defining the source but not uncovering which allergenic molecule(s) elicited the sensitization.

Specific IgE quantitative measurements for allergen monocomponents are nowadays available. This component-resolved diagnosis is based on natural or recombinant allergens with structural and immunobiological properties comparable with their natural sources, establishing a detailed IgE reactivity profile for each patient.1 With a microarray technique, the sensitivity to multiple allergenic components (purified, recombinant or natural allergens) is evaluated in the same serum sample.2

Allergy diagnosis in adult and paediatric poly-sensitized patients needs to be improved in order to clarify the nature and cause of allergic reactions and to promote effective measures of disease management.2,3 Food allergy in aeroallergen sensitized patients is one example where the most relevant clinical question is the identification of patients with a high risk for systemic reactions. With traditional methods it is sometimes practically impossible to resolve such diagnostic enigmas.

We report four cases of patients poly-sensitized to aeroallergens and suspected food allergy. Our aim was to compare the clinical usefulness of a microarray-based IgE detection assay (ISAC® – Phadia, Sweden) with established methods of allergen-specific IgE detection – skin tests and specific IgE with standard allergens or their monocomponents.

In the diagnosis of suspected food allergy, skin tests with conventional extracts have low specificity and low allergenic potency.5,7 The use of fresh food is an alternative, but with additional reproducibility problems,8 and increased risk of adverse reactions, including anaphylaxis, especially in young children.9,10 Food challenges represent the only way to establish or rule out an adverse reaction to a food. However, these challenge procedures are not fully developed and no standardized procedures have so far been agreed upon.11 Additionally, all these methods should be performed in a safe environment and only by physicians with proper training in the allergy field. Of all the in vitro methods, specific IgE determination with whole extracts also presents low specificity.2,7 Natural or recombinant purified allergens have proven useful, by overcoming the mentioned limitations.1,12

ISAC® test has other advantages considering it is a single safe test and available even for allergists not working in a hospital environment, facilitating the diagnosis in children and in patients at risk of systemic symptoms.3,12 The smaller amount of serum needed also facilitates the use of the technique in paediatric patients. Moreover, the accuracy of ISAC® has been validated in terms of correlation with the routine standard tests and similar potency in terms of mass units of allergen.13,14 As a limitation, the current number of allergenic components tested does not cover all the relevant allergens. The cost involved in the patients’ investigation, in particular performing the ISAC® test can be another putative limitation. However, this information has not been addressed in the available literature, and it would be interesting to make a cost comparative analysis between the performed standard tests (combination of the SPT, SPPT, sIgE and sIgE comp) and the ISAC® test.

We established a probable association between pollen allergy and food sensitization in all patients. The production of specific IgE directed against common cross-reactive structures (panallergens) shared by pollen and plant-derived food is the most widely supported explanation.15 Pollen seems to be the primary source of sensitization. The IgE cross-reactivity might be clinically manifested or be irrelevant. The overall sequence identity of surface structures is a major determinant of cross-reactivity and a sequence identity of 35% has been suggested as a cut-off for potential cross-reactivity.16

Concerning plant food allergens, the most established and studied protein families with allergenic activity include the non-specific lipid transfer proteins (nsLTPs), the pathogenesis-related protein family 10 (PR-10 proteins), the profilins, the storage proteins (2S albumins, 7S/11S globulins), and the cross-reactive carbohydrate determinants (CCDs).

The first patient had symptoms including anaphylaxis to fruits of the Rosaceae family (peach and cherry) and rhinitis symptoms attributed to plane tree and mugwort pollen sensitization. Hypersensitivity to peach is usually not associated with any kind of particular pollinosis in southern Europe,17 and the main reactions in the Mediterranean area are directed to nsLTPs.Peach nsLTP (Pru p 3) is a major allergen in the South of Europe, being involved in over 60% of patients allergic to peach in the Spanish population.18 In peach-allergic patients who have experienced systemic reactions, up to 100% were sensitised to nsLPTs.19 nsLTP is found in amounts approximately seven times greater in peach peel than in pulp.20 So far, cross-reactivity between nsLTPs from pollen and plant food in Mediterranean patients has only been shown for Art v 3 from mugwort and Pru p 3 from peach,21 as seen in the case of our patient. The primary nsLTPs sensitization diagnostic hypothesis was confirmed by sIgE comp and ISAC® test.

NsLTPs are small molecules of approximately 9–10kDa that facilitate the transport of phospholipids and galactolipids across membranes. As panallergens, they have a ubiquitous distribution in tissues of many plant species, resulting in particularly relevant cross-reactivity between fruits and vegetables, including apple, cherry, sweet chestnut, cabbage (with 50% identity to peach nsLTP), walnut, lettuce, and hazelnut.22 Grape and wine, which also induced OAS in our patient, may contain nsLTP homologous and cross-reactive with peach nsLTP.23 They demonstrate great stability and are very resistant to pepsin and heat treatment. Allergic symptoms involving nsLTPs are more likely to be systemic and severe, in addition to causing OAS.

Our second patient was sensitized to a wide variety of pollens with clinical asthma and rhino-conjunctivitis. The fact of tolerating cooked and processed fruit; the association with local symptoms such as OAS; and the positive SPT to profilin, were clearly suggestive of sensitization to profilins and/or PR-10 proteins. The sIgE comp were sufficient to confirm this diagnostic hypothesis, not implying additional investigation as oral food challenges, and the ISAC® test results were in accordance with the specific IgE quantification.

Profilins are small (12–15kDa) proteins acting as actin binding proteins and may play a key role in regulating intracellular transport processes and cell morphogenesis and division. Profilins are minor allergens, highly cross reactive even between distantly related species, including latex, increasing the risk of multiple pollen food sensitivities, not always clinically relevant.22 Symptoms to citrus fruits, melon, banana and/or tomato have been described as clinical markers of profilin sensitization. Its prevalence in pollen allergic patients in central and southern Europe has been estimated to be 10–35%, but seems to be rarer in northern Europe.24 This rate increases to 55% in patient populations with multi-pollen sensitization where grass or weed pollen sensitization is dominating25 (e.g. our case). When subjected to heat treatment, irradiation or ultrahigh pressure, IgE binding activity was not generally affected. The symptoms ranged from mild to severe, primarily giving rise to OAS as the main clinical manifestation of food allergy.

The first allergen identified from the PR-10 proteins family group was the major birch pollen (Betula verrucosa) allergen, Bet v 1. In our region, where birch trees are uncommon or absent, a positive test to birch pollen often reflects sensitization to Bet v 1 homologues (PR-10) in other trees closely related to birch or sensitization to other pollen allergens such as profilins (Bet v 2 homologues) in grass and weed. The food reactions seen in birch pollen allergic patients are primarily explained by IgE antibodies to Bet v 1, induced by birch pollen. Fifty to 90% of birch pollen allergic patients have been reported to have some pollen-related food allergy.26 PR-10 proteins are primarily localized on the pulp of the fruit. The symptoms are usually mild and restricted to the oral cavity, summed up as the OAS. In general, the PR-10 proteins are labile to pH changes and of intermediate resistance towards heat treatment.

Our third patient was a Danish man sensitized to birch pollen with plant food allergy, reporting anaphylactic episodes with cashew nuts and OAS to peanut, hazelnut, peach and apple. The hypothesis of a primary sensitization to birch pollen in Denmark (rarely seen in north Portugal), with allergy and cross-reactivity to PR-10 proteins and profilins was possible, as discussed above. Cross-reactivity between storage proteins - albumins 2S, involving nuts could not be excluded, considering that they are the dominating allergens and an important risk marker for severe systemic reactions. However, there is no obvious relation between sensitization to pollens and to storage proteins. The performed sIgE comp confirmed only sensitization to PR-10 proteins. The ISAC® test provided further information of sensitization to nsLTPs from Betullaceae (Cor a 8) and Rosaceae (Pru p 3), risk markers for severe reactions. Storage protein sensitization was excluded by the negative IgE comp to Ara h 2 and storage proteins sensitization was not detected in the ISAC® test (which explores brazil nut, cashew nut, hazelnut, nut, and peanut albumins).

Patient number four was sensitized to grass pollens and successfully finished pollen-specific immunotherapy two years ago, raising the hypothesis of plant food allergy mediated by a non-identified panallergen. The history of latex sensitiz ation led to a suspicion of fruit allergy in the context of a latex-fruits syndrome. Between 30% and 50% of individuals who are allergic to latex products are also allergic to specific plant foods.27,28 Nevertheless, we could not prove nor exclude latex allergy or cross-reactivity between latex and fruits at the present evaluation. It is possible that the time elapsed between the reaction to latex and this study was too long (eight years), decreasing the probability of a positive result, especially in the view of latex avoidance, namely during the second surgery. Sources of latex can be of varying quality and difficult to standardise and the ISAC® test does not assess all latex allergens. In fact, latex allergy is complex and involving around 13 allergens, with most patients being sensitized to more than one allergen.29 The use of a combination of recombinant latex allergens, Hev b 5, 6 and 7, can diagnose latex allergy with 93% sensitivity and 100% of specificity.30 In our patient we only confirmed a low sensitization to Hev b8, which is a profilin. The observed frequencies of Hev b 8-specific IgE antibodies in sera of latex-allergic patients in different risk groups range between 6% and 24%,31,32 but are not associated with clinical reactions. In spite of profilin sensitization being a common finding in at least 50% of South European pollen sensitive patients,24,25 it was equivocal in our patient (low levels of sIgE comp and a negative result in the microarray assay).

Considering the high frequency of Parietaria pollinosis in the Mediterranean area, this sensitization has been described, although rarely, only in association with pistachio nut sensitization.33,34 In contrast, Artemisia sensitization has been implicated in several pollen-food syndromes in variable frequencies, to different food families: celery, carrot, parsley and caraway, fennel and coriander seeds (Apiaceae), paprika (Cruciferaceae), pepper (Piperaceae), mango (Anacardiaceae), garlic, onion and leek (Liliaceae), mustard, broccoli and cabbage (Cruciferae), peanut (Leguminosae), almond and peach (Rosaceae) and chamomile infusion (Asteraceae).21 However, Art v 3 can be positive without sensitization to other nsLTPs35 and there is a low probability of cross-reactivity between Par j 2 and other nsLTPs.36

This patient is a probable candidate for an oral provocation with nsLTP cross-reacting foods. Nevertheless, we postponed such procedure, considering she had only plant sensitization on the ISAC test and had no further allergy episodes in the last 12 months of follow-up, coincident with an improved treatment plan (oral anti-H1 and topical steroids), maintained through the pollen season.

In these four clinical cases of poly-sensitized patients with suspected food allergy, the applied in vivo and in vitro allergy diagnosis approach, complemented by a multiple allergen component analysis, by microarray technique, allowed the identification of sensitization patterns that correlated with the clinical anamnesis (the presence or absence of symptoms and their severity) and conducted to the final diagnosis of:

• Case 1 – non-specific Lipid Transfer Proteins (nsLTPs) primary sensitization and food allergy (OAS and anaphylaxis).

• Case 2 – primary grass and weed pollen allergy with profilin and Pathogenesis-Related protein family 10 (PR-10) cross-reactive food allergy (OAS).

• Case 3 – primary birch pollen allergy with PR-10 and nsLTPs cross-reactive food allergy (OAS and anaphylaxis). Current storage-protein sensitization was excluded.

• Case 4 – primary grass and weed pollen allergy with equivocal profilin sensitization and no obvious cross-reactivity mediated by nsLTPs. Current latex and cross-reactive food sensitization was not confirmed.

In conclusion, the possibility to carry out sIgE measurements with single protein allergens, in particular with the microarray technique, is a useful, simple and non-invasive diagnostic tool in complex poly-sensitized allergic patients.

The authors have no conflict of interest to declare.