11Polymorphisms impairing histamine degradation moderate behavioural responses to food additive challenge
11Polymorphisms impairing histamine degradation moderate behavioural responses to food additive challenge
Background: the relationship between artificial food colouring and benzoate perservative (AFCP) intake and behaviour has hitherto been contentious. We have previously shown in a population based DBPCFC study, an adverse effect of AFCP on parentally-rated behaviour of 3 year olds and have now confirmed the observations in 144 8Y9 year olds and 153 3 year olds using objective measures of observed behaviours in a school setting. One potential mechanism is IgE independent histamine release from
circulating basophils.
Methods: from the second challenge study we have genotyped the children using buccal cells and related findings to the magnitude of the behavioural response to challenge.
Results: polymorphisms of catecholamine genes, COMT Val108Met and ADRA2A C1291G, previously associated with ADHD, had no impact on responses but T939C and Thr105Ile polymorphisms of the histamine Nmethyltransferase
gene (HNMT) significantly (p=0.02 and 0.04 respectively)
adversely affected responses to AFCP challenge.
Conclusion: HNMT polymorphisms impair histamine clearance and AFCP cause histamine release. The presence of Histamine 3 receptors in the brain provides a potential mechanism (and therapeutic target) to explain the effect
we observed. Many environmental factors increase histamine including infections and many foods. This would explain the frequent claim that food intolerance and infections adversely affect behaviour in some children. This
gene by environment interaction should be investigated in relation to AFCP induced urticaria, asthma and other atopic conditions.
World Allergy Organization
Warner, John O.
50630e99-8486-4859-ade3-cd2c79c5a153
Sonuga-Barke, Edmund J.S.
bc80bf95-6cf9-4c76-a09d-eaaf0b717635
McCann, Donna C.
48792fe1-241f-491b-a5a5-61c8c02c314d
Grimshaw, K.E.C.
766b6cf0-347a-447d-aeab-f07366f8ce28
Holloway, John
eae6eeb4-d729-4392-83ea-89efeac918cd
Stevenson, Jim E.
0c85d29b-d294-43cb-ab8d-75e4737478e1
November 2007
Warner, John O.
50630e99-8486-4859-ade3-cd2c79c5a153
Sonuga-Barke, Edmund J.S.
bc80bf95-6cf9-4c76-a09d-eaaf0b717635
McCann, Donna C.
48792fe1-241f-491b-a5a5-61c8c02c314d
Grimshaw, K.E.C.
766b6cf0-347a-447d-aeab-f07366f8ce28
Holloway, John
eae6eeb4-d729-4392-83ea-89efeac918cd
Stevenson, Jim E.
0c85d29b-d294-43cb-ab8d-75e4737478e1
Warner, John O., Sonuga-Barke, Edmund J.S., McCann, Donna C., Grimshaw, K.E.C., Holloway, John and Stevenson, Jim E.
(2007)
11Polymorphisms impairing histamine degradation moderate behavioural responses to food additive challenge.
In,
Abstracts of the XX World Allergy Congress.
(World Allergy Organization Journal)
World Allergy Organization.
(doi:10.1097/01.WOX.0000301528.56987.91).
Record type:
Book Section
Abstract
Background: the relationship between artificial food colouring and benzoate perservative (AFCP) intake and behaviour has hitherto been contentious. We have previously shown in a population based DBPCFC study, an adverse effect of AFCP on parentally-rated behaviour of 3 year olds and have now confirmed the observations in 144 8Y9 year olds and 153 3 year olds using objective measures of observed behaviours in a school setting. One potential mechanism is IgE independent histamine release from
circulating basophils.
Methods: from the second challenge study we have genotyped the children using buccal cells and related findings to the magnitude of the behavioural response to challenge.
Results: polymorphisms of catecholamine genes, COMT Val108Met and ADRA2A C1291G, previously associated with ADHD, had no impact on responses but T939C and Thr105Ile polymorphisms of the histamine Nmethyltransferase
gene (HNMT) significantly (p=0.02 and 0.04 respectively)
adversely affected responses to AFCP challenge.
Conclusion: HNMT polymorphisms impair histamine clearance and AFCP cause histamine release. The presence of Histamine 3 receptors in the brain provides a potential mechanism (and therapeutic target) to explain the effect
we observed. Many environmental factors increase histamine including infections and many foods. This would explain the frequent claim that food intolerance and infections adversely affect behaviour in some children. This
gene by environment interaction should be investigated in relation to AFCP induced urticaria, asthma and other atopic conditions.
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Published date: November 2007
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Abstract number 988
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URI: http://eprints.soton.ac.uk/id/eprint/146101
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Date deposited: 09 Jun 2010 10:59
Last modified: 14 Mar 2024 00:53
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Author:
John O. Warner
Author:
Edmund J.S. Sonuga-Barke
Author:
Donna C. McCann
Author:
John Holloway
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