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Animal food allergens unmasked
October 15, 2007The relatedness of an animal food protein to a human protein determines whether it can cause allergy, according to new research by scientists from the Institute of Food Research in Norwich and the Medical University of Vienna.
In theory all proteins have the potential to become allergens, but the study found that in practice the ability of animal food proteins to act as allergens depends on their evolutionary distance from a human equivalent.
"This explains why people who are allergic to cow's milk can often tolerate mare's milk but not goat's milk", said Dr Clare Mills of the Institute of Food Research. "Proteins in horse milk are up to 66% identical to human milk proteins, while known allergens from cows and goats are all less than 53% identical to corresponding human proteins.
"Overall we found that only an animal food protein that is less than 54% identical to a human equivalent could become allergenic".
Cow's milk and hen's eggs are common causes of allergy in infants, while the most common animal food allergens in adults are fish and seafood.
For the first time the researchers found that the majority of animal food allergens could be classified into one of three protein families. Tropomyosins, proteins found in muscle tissue, are the most important family.
"Tropomyosins in mammals, fish and birds are at least 90% identical to at least one human tropomyosin and none have been reported to be allergenic. In contrast, the allergenic tropomyosins are all from invertebrates such as insects, crustaceans and nematodes and at most are only 55% identical to the closest human homologue", said Dr Heimo Breiteneder of the Medical University of Vienna.
EF-hand proteins form the second largest animal food allergen family. Those in birds and mammals are not allergenic, while those in frogs and fish can cause allergy. The third animal food allergen family, caseins, are all mammalian proteins from milk. The researchers analysed milk from rabbits, rats and camels as well as sheep, goats, cows and horses.
In previous analyses of plant food allergens published in 2005, the scientists found that most belong to a highly restricted number of protein superfamilies. The research will make it easier to identify new allergens and help explain how they trigger an immune response.
"Animal food proteins lie at the limits of the capability of the human immune system to discriminate between foreign and self proteins", said Dr Mills. "Immune responses to some animal food allergens such as the invertebrate tropomyosins, run close to becoming a form of autoimmune response and this needs to be considered when developing allergy therapies".
Norwich BioScience Institutes
"Overall we found that only an animal food protein that is less than 54% identical to a human equivalent could become allergenic".
Cow's milk and hen's eggs are common causes of allergy in infants, while the most common animal food allergens in adults are fish and seafood.
For the first time the researchers found that the majority of animal food allergens could be classified into one of three protein families. Tropomyosins, proteins found in muscle tissue, are the most important family.
"Tropomyosins in mammals, fish and birds are at least 90% identical to at least one human tropomyosin and none have been reported to be allergenic. In contrast, the allergenic tropomyosins are all from invertebrates such as insects, crustaceans and nematodes and at most are only 55% identical to the closest human homologue", said Dr Heimo Breiteneder of the Medical University of Vienna.
EF-hand proteins form the second largest animal food allergen family. Those in birds and mammals are not allergenic, while those in frogs and fish can cause allergy. The third animal food allergen family, caseins, are all mammalian proteins from milk. The researchers analysed milk from rabbits, rats and camels as well as sheep, goats, cows and horses.
In previous analyses of plant food allergens published in 2005, the scientists found that most belong to a highly restricted number of protein superfamilies. The research will make it easier to identify new allergens and help explain how they trigger an immune response.
"Animal food proteins lie at the limits of the capability of the human immune system to discriminate between foreign and self proteins", said Dr Mills. "Immune responses to some animal food allergens such as the invertebrate tropomyosins, run close to becoming a form of autoimmune response and this needs to be considered when developing allergy therapies".
Norwich BioScience Institutes
More than half the US population is sensitive to one or more allergens
More than fifty percent of the U.S. population tested positive to one or more allergens, according to a large national study.
New study identifies kiwi fruit as 'significant allergen'
A new University of Southampton study concludes that kiwi fruit appears to be a significant food allergen capable of causing severe reactions, particularly in young children with other allergic reactions. The study, which was funded by the Food Standards Agency (FSA), highlights the increasing incidence of allergic reaction to the popular tropical fruit. The research team believes that the increase in allergic symptoms can be explained by the demonstrable rise in the incidence of food allergy in general, combined with an increase in the consumption of kiwi fruit. The findings of this, the first, large detailed study specifically designed to investigate the clinical characteristics of kiwi f
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