Your search keyword '"Tiemessen MM"' showing total 2 results

1. Decreased Histone Acetylation Levels at Th1 and Regulatory Loci after Induction of Food Allergy.

Author

Alashkar Alhamwe B, Meulenbroek LAPM, Veening-Griffioen DH, Wehkamp TMD, Alhamdan F, Miethe S, Harb H, Hogenkamp A, Knippels LMJ, Pogge von Strandmann E, Renz H, Garssen J, van Esch BCAM, Garn H, Potaczek DP, and Tiemessen MM

Subjects

Acetylation, Animals, B-Lymphocytes immunology, Disease Models, Animal, Epigenomics, Female, Gene Expression, Immunoglobulin E blood, Mast Cells immunology, Mice, Inbred C3H, Milk Hypersensitivity genetics, STAT6 Transcription Factor, T-Lymphocytes, Regulatory immunology, Th17 Cells immunology, Whey immunology, Histones metabolism, Immunoglobulin E immunology, Milk Hypersensitivity immunology, Th1 Cells

Abstract

Immunoglobulin E (IgE)-mediated allergy against cow's milk protein fractions such as whey is one of the most common food-related allergic disorders of early childhood. Histone acetylation is an important epigenetic mechanism, shown to be involved in the pathogenesis of allergies. However, its role in food allergy remains unknown. IgE-mediated cow's milk allergy was successfully induced in a mouse model, as demonstrated by acute allergic symptoms, whey-specific IgE in serum, and the activation of mast cells upon a challenge with whey protein. The elicited allergic response coincided with reduced percentages of regulatory T (Treg) and T helper 17 (Th17) cells, matching decreased levels of H3 and/or H4 histone acetylation at pivotal Treg and Th17 loci, an epigenetic status favoring lower gene expression. In addition, histone acetylation levels at the crucial T helper 1 (Th1) loci were decreased, most probably preceding the expected reduction in Th1 cells after inducing an allergic response. No changes were observed for T helper 2 cells. However, increased histone acetylation levels, promoting gene expression, were observed at the signal transducer and activator of transcription 6 ( Stat6 ) gene, a proallergic B cell locus, which was in line with the presence of whey-specific IgE. In conclusion, the observed histone acetylation changes are pathobiologically in line with the successful induction of cow's milk allergy, to which they might have also contributed mechanistically., Competing Interests: L.M., D.H.V.-G., T.M.D.W., L.M.J.K., J.G., B.C.A.M.v.E., and M.M.T. are/were (partly) employed at Danone Nutricia Research. D.H.V.-G reports personal fees from Merck Sharp & Dohme outside of the submitted work. All other authors report no potential conflict of interest.

Published

2020

2. Management of Cow's Milk Allergy from an Immunological Perspective: What Are the Options?

Author

Knol EF, de Jong NW, Ulfman LH, and Tiemessen MM

Subjects

Adult, Animals, Cattle, Child, Humans, Immunoglobulin E, Infant, Infant Formula, Milk Hypersensitivity immunology, Milk Hypersensitivity therapy

Abstract

The immunological mechanism underlying Immunoglobuline E (IgE)-mediated cow's milk allergy has been subject to investigations for many years. Identification of the key immune cells (mast cells, B cells) and molecules (IgE) in the allergic process has led to the understanding that avoidance of IgE-crosslinking epitopes is effective in the reduction of allergic symptoms but it cannot be envisioned as a treatment. For the treatment and prevention of IgE-mediated cow's milk allergy, it is thought that the induction of a sustained state of immunological tolerance is needed. In this review, we will discuss various approaches aimed at achieving immunological tolerance and their success. Furthermore, we will speculate on the involved immunological mechanism., Competing Interests: The authors declare no conflict of interest..

Published

2019