Project description:This study profiled the epigenomes and transcriptomes of total B cell populations from adolescents with peanut-only (single food allergy- SA) and multi-food allergy (MA).
Project description:This study profiled the epigenomes and transcriptomes of total nCD4T cell populations from adolescents with peanut-only (single food allergy- SA) and multi-food allergy (MA) at quiescence and following activation with anti-CD3/antiCD28
Project description:This study profiled the epigenomes and transcriptomes of total nCD4T cell populations from adolescents with peanut-only (single food allergy- SA) and multi-food allergy (MA) at quiescence and following activation with anti-CD3/antiCD28
Project description:Genome wide DNA methylation profiling study of PBMC from 71 unique primary patient blood samples. The Illumina Human Methylation 450k array was used. 29 challenge proven food allergy, 29 sensitized but oral tolerant, 13 non food allergics Mixture of food allergy phenotypes (egg allergic (15), peanut allergic (14)), food sensitization phenotypes (egg sensitized (14), peanut sensitized (15)). 4 samples had technical replicate hybridzations. Bisulphite converted DNA from the 75 samples were hybridised to the Illumina Infinium 450k Human Methylation Beadchip v1.2. Technical replicates were combined during processing, resulting in normalized Beta values for 71 unique primary patient blood samples.
Project description:This study profiled the epigenomes and transcriptomes of total B cell populations from adolescents with peanut-only (single food allergy- SA) and multi-food allergy (MA). We found distinct epigenetic and transcriptomic differences between food allergic patients and controls, in addition to SA- and MA- group specific signatures, with
Project description:Food allergy is caused by allergen-specific IgE but little is known about the B cell memory of persistent responses. Here we describe in pediatric peanut allergy a population of CD23+IgG1 memory B cells that contains peanut-specific clones and generates IgE plasma cells on activation. Through single cell transcriptomics and B cell receptor (BCR) sequencing, we characterized FCER2/CD23+ IgG1 memory B cells co-expressing IL4R, IL13RA1, IGHE and carrying highly mutated BCRs. Further we found that peanut allergen (Ara h 2)-specific B cells were mostly IgG1 memory cells, carried highly mutated BCRs compared to diphtheria toxin-specific B cells, and expressed FCER2 and germlin IGHE. Our findings suggest that CD23+IgG1+ memory B cells transcribing IGHE are a unique memory population containing precursors for pathogenic IgE in food allergy.
Project description:Peanut protein is a remarkably potent food allergen in susceptible individuals. The frequency of peanut allergy is approximately 1% in the US population. Peanut allergy often presents with severe symptoms, and it is seldom outgrown. We sought to understand how peanut protein activates human dendritic cells, which are crucial in promoting the activation and differentiation of pathogenic peanut-specific Th2 cells that drive allergic responses.
Project description:Peanut allergy is increasingly prevalent among children in the United States and other industrialized countries and is now estimated to affect approximately 2% of children. While there are currently no approved treatment options, peanut allergy usually persists into adulthood, can be life-threatening, and accounts for most deaths related to food allergy. Here, we track peanut-reactive CD4+ T effector (pTeff) cells using the CD154 up-regulation assay. We found that CRTH2+ pTeff cells and CCR6+ pTeff cells represent two mutually exclusive, non-overlapping cellular and molecular entities involved in food allergic diseases.
Project description:Purpose: To identify IgE inhibitory bioactive compound from A.Lappa for targeted therapy on peanut specific IgE production and hypersensitivity reactions, and to investigate its underlying mechanisms. The goals of this study were to compare the transcriptome map (RNA-seq) and quantitative reverse transcriptase polymerase chain reaction (qRT-PCR) before and after PMBC in patients with food allergy, and to evaluate the most critical genes and signaling pathways which inhibit IgE production by arctigenin.
