Proteomic Analysis of Lupin Seed Proteins To Identify Conglutin β as

Jul 12, 2008 - School of Plant Biology, University of Western Australia, 35 Stirling Highway, Crawley, Western Australia 6009, Australia, School of Bi...
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J. Agric. Food Chem. 2008, 56, 6370–6377

Proteomic Analysis of Lupin Seed Proteins To Identify Conglutin β as an Allergen, Lup an 1 DANICA E. GOGGIN,† GISELA MIR,‡ WILLIAM B. SMITH,§ MARTIN STUCKEY,| ,‡ AND PENELOPE M. C. SMITH* School of Plant Biology, University of Western Australia, 35 Stirling Highway, Crawley, Western Australia 6009, Australia, School of Biological Sciences, University of Sydney, New South Wales 2006, Australia, Clinical Immunology and Allergy, Royal Adelaide Hospital, North Terrace, South Australia 5000, Australia, and Clinical Immunology and Allergy, St. John of God Pathology, Hollywood Private Hospital, Monash Avenue, Nedlands, Western Australia 6009, Australia

Lupin products may be valuable as human foods because of their high protein content and potential anticholesterolemic properties. However, a small percentage of the population is allergic to lupin. In this study, we use in vitro IgE binding and mass spectrometry to identify conglutin β, a major storage protein, as an allergen in seeds of Lupinus angustifolius and Lupinus albus. Purification of conglutin β from L. angustifolius flour confirmed that serum IgE binds to this protein. Where IgE in sera recognized lupin proteins on Western blots, it recognized conglutin β, suggesting this protein is a major allergen for lupin. The L. angustifolius conglutin β allergen has been designated Lup an 1 by the International Union of Immunological Societies (IUIS) allergen nomenclature subcommittee. KEYWORDS: Allergy; conglutin β; Lup an 1; IgE; lupin; storage protein

INTRODUCTION

Lupin seeds are a useful source of human food products because of their unique composition, being high in protein and dietary fiber but low in fat and starch. There are a number of other potential benefits to human health associated with the consumption of lupin seed components, such as decreases in blood glucose and cholesterol levels (e.g., refs 1–3). The active component in the lupin protein was found to be conglutin γ, which comprises around 5% of total lupin seed protein (1). Conglutin β, one of the major seed storage proteins, is also a candidate for food improvement because of its similarity to soybean β-conglycinin, which has anticholesterolemic properties (4). With the increasing inclusion of lupin products in human foods, particularly in Europe, where lupin was approved as a food ingredient in 1997, it has become clear that lupin seeds also contain allergenic proteins. Some individuals experience allergic reactions upon ingestion or inhalation of lupin products, with symptoms ranging from rashes and nausea to anaphylaxis (e.g., refs 5–8). Many reports suggest there is cross-sensitization with peanut (5, 6, 9), although monosensitization to lupin also occurs (7, 8, 10). The prevalence of allergy to lupin is not clear, but it has been variously estimated that 30% (9) or 4% (11) of * To whom correspondence should be addressed. Telephone: +612-9036-7169. Fax: +61-2-9351-4771. E-mail: [email protected]. † University of Western Australia. ‡ University of Sydney. § Royal Adelaide Hospital. | Hollywood Private Hospital.

peanut-allergic individuals react to lupin. The prevalence of allergy to lupin in the absence of allergy to peanut is not known but appears low (11, 12). The most common species of lupin consumed by humans is Lupinus albus L.; however, use of Lupinus angustifolius L. is increasing and Lupinus luteus L. seeds are also used in food production. These and other lupin species have two major (conglutin R and β) and two minor (conglutin γ and δ) seed storage proteins, which, with the exception of conglutin δ, are produced by cleavage of higher molecular-mass precursor proteins (13). In seeds, nuts, and grains consumed as food, it is usually storage proteins that cause allergic reactions upon ingestion (14). It is thus probable that one or more of the lupin seed storage proteins, with their stability under extremes of pH and temperature (15) and similarity in primary sequence to peanut allergens (16), are responsible for allergic reactions. Allergenic peanut storage proteins are represented by 11S globulins (Ara h 3, 14), 7S globulins (Ara h 1, 17), and 2S albumins (Ara h 2, 18), and these classes of storage protein have also been identified as allergens in several species of tree nuts and legumes (reviewed in ref 14). There have been indications that some of the lupin storage proteins bind IgE (19–21), but in most cases, the designation was based on IgE binding from only a few sera, making it difficult to determine the importance of particular allergens. In this study, we have made a proteomic analysis of L. angustifolius, L. albus, and L. luteus seed flour and used mass spectrometry to identify the IgE-binding proteins. To confirm these results, lupin seed storage proteins from L. angustifolius (conglutins R, β, γ, and δ) were selectively purified and tested

10.1021/jf800840u CCC: $40.75  2008 American Chemical Society Published on Web 07/12/2008

Conglutin β Is a Lupin Allergen

J. Agric. Food Chem., Vol. 56, No. 15, 2008

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Table 1. Information about Volunteers Whose Sera Was Used in the Studya

patient number (age, sex) c

symptoms

lupin lupin-specific peanut-specific serum IgE wheal serum IgE (kUA/L) size (mm) (kUA/L)

1 (41, F) 2c,d (36, M) 3c (31, F) 4c (68, F) 5d (N/D, F) 6c (29, F) 7c (49,F) 8c (48, M)

DB, OAS, U N/D N, V, DB, U, OAS 10 OAS, U 9 DB 6 DB, R N/D AN 9 U, AN 5 AN 10

87.5 21.9 32.8 26.8 23.4 55.9 5.3 53

2.52