Abstract
BackgroundAllergic contact dermatitis (ACD) is a common skin condition characterized by contact hypersensitivity to allergens, accompanied with skin inflammation and a mixed itch and pain sensation. The itch and pain dramatically affects patients’ quality of life. However, still little is known about the mechanisms triggering pain and itch sensations in ACD.MethodsWe established a mouse model of ACD by sensitization and repetitive challenge with the hapten oxazolone. Skin pathological analysis, transcriptome RNA sequencing (RNA-seq), qPCR, Ca2+ imaging, immunostaining, and behavioral assay were used for identifying gene expression changes in dorsal root ganglion innervating the inflamed skin of ACD model mice and for further functional validations.ResultsThe model mice developed typical ACD symptoms, including skin dryness, erythema, excoriation, edema, epidermal hyperplasia, inflammatory cell infiltration, and scratching behavior, accompanied with development of eczematous lesions. Transcriptome RNA-seq revealed a number of differentially expressed genes (DEGs), including 1436-DEG mRNAs and 374-DEG-long noncoding RNAs (lncRNAs). We identified a number of DEGs specifically related to sensory neuron signal transduction, pain, itch, and neuroinflammation. Comparison of our dataset with another published dataset of atopic dermatitis mouse model identified a core set of genes in peripheral sensory neurons that are exclusively affected by local skin inflammation. We further found that the expression of the pain and itch receptor MrgprD was functionally upregulated in dorsal root ganglia (DRG) neurons innervating the inflamed skin of ACD model mice. MrgprD activation induced by its agonist β-alanine resulted in exaggerated scratching responses in ACD model mice compared with naïve mice.ConclusionsWe identified the molecular changes and cellular pathways in peripheral sensory ganglia during ACD that might participate in neurogenic inflammation, pain, and itch. We further revealed that the pain and itch receptor MrgprD is functionally upregulated in DRG neurons, which might contribute to peripheral pain and itch sensitization during ACD. Thus, targeting MrgprD may be an effective method for alleviating itch and pain in ACD.
Highlights
Allergic contact dermatitis (ACD) is a common skin condition characterized by contact hypersensitivity to allergens, accompanied with skin inflammation and a mixed itch and pain sensation
We further focused on the genes that belong to functional categories related to sensory neuron signal transduction, itch, pain, and inflammation, as well as uncharacterized receptors and ion channels
We further identified a number of Differentially expressed gene (DEG) related to sensory neuron signal transduction, itch, pain, and neuroinflammation
Summary
Allergic contact dermatitis (ACD) is a common skin condition characterized by contact hypersensitivity to allergens, accompanied with skin inflammation and a mixed itch and pain sensation. Allergic contact dermatitis is a type of skin disease involving overreactivity of skin to contact allergens, accompanied with skin inflammation and mixed pain and itch sensations [1–4]. The repetitive pain and itch sensation usually triggers constant scratching towards the affected skin, which may disrupt the skin barrier and promotes invasion of allergens and pathogens and further exacerbates skin inflammation [8]. CXCL10, which is released by neutrophils under conditions of ACD and atopic dermatitis, acts upon neuronal CXCR3 receptor to promote itch via activation of sensory neurons [15, 16]. The inflammatory mediators released from immune or skin cells upon inflammation may sensitize the sensory nerve and further exacerbate pain and itch sensation [17]
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