Project description:Since the discovery that Der p 1 is a cysteine protease, the role of proteolytic activity in allergic sensitization has been explored. There are many allergens with proteolytic activity; however, exposure from dust mites is not limited to allergens. In this paper, genomic, transcriptomic and proteomic data on Dermatophagoides pteronyssinus (DP) was mined for information regarding the complete degradome of this house dust mite. D. pteronyssinus has more proteases than the closely related Acari, Dermatophagoides farinae (DF) and Sarcoptes scabiei (SS). The group of proteases in D. pteronyssinus is found to be more highly transcribed than the norm for this species. The distribution of protease types is dominated by the cysteine proteases like Der p 1 that account for about half of protease transcription by abundance, and Der p 1 in particular accounts for 22% of the total protease transcripts. In an analysis of protease stability, the group of allergens (Der p 1, Der p 3, Der p 6, and Der p 9) is found to be more stable than the mean. It is also statistically demonstrated that the protease allergens are simultaneously more highly expressed and more stable than the group of D. pteronyssinus proteases being examined, consistent with common assumptions about allergens in general. There are several significant non-allergen outliers from the normal group of proteases with high expression and high stability that should be examined for IgE binding. This paper compiles the first holistic picture of the D. pteronyssinus degradome to which humans may be exposed.
Project description:Allergic asthma, a chronic disease-causing inflammation in the airways, is a significant public health concern. Our research team discovered that more than 80% of allergic children in central Taiwan were sensitized to various house dust mites (HDMs). This investigation focuses on how the crude extracts of HDMs affect human epithelium BEAS-2B cells to understand the early fundamental mechanisms for preventing allergic diseases. Therefore, RNA-seq analysis revealed that three Dermatophagoides HDMs allergens activate a common Toll-like receptor signaling pathway in human epithelial cells within a 4-hour treatment. During this process, the nuclear transcription factor NF-κB translocated into the cell nucleus within 30 minutes of allergen stimulation, triggering the expression of pro-inflammatory genes such as IL-6 and IL-8 over 4 hours. Additionally, treating the cells with specific Dermatophagoides microceras (Der m) allergens, there was an upregulation of genes in regulating type 1 diabetes mellitus signaling pathways, mediating IL-12A inflammation. Moreover, an increase in gene sets related to cilia function and the microtubule cytoskeleton in human epithelial cells following treatment combined with Der m allergens and Dexamethasone. Furthermore, OMICs analysis investigates the effects of HDMs allergenic stimulation on the human epidermal cells. This process aims to enhance our understanding of the cellular molecular mechanisms underlying potential targets and bioactive substances in precision medicine for treating asthma caused by HDMs allergens.