Determining inflammation and itch pathway activation in patients with atopic dermatitis (AD) is fraught with the inability to precisely assess the age of skin lesions, thus affecting the analysis of time-dependent mediators. To characterize inflammatory events occurring during early experimental acute AD lesions, biopsy samples were collected 6, 24, and 48 hours after epicutaneous application of Dermatophagoides farinae house dust mites to sensitized atopic dogs. The skin transcriptome was assessed using a dog-specific microarray and quantitative PCR. Acute canine AD skin lesions had a significant up-regulation of genes encoding T helper (Th) 2 (e.g., IL4, IL5, IL13, IL31, and IL33), Th9 (IL9), and Th22 (IL22) cytokines as well as Th2-promoting chemokines such as CCL5 and CCL17. Proinflammatory (e.g., IL6, LTB, and IL18) cytokines were also up-regulated. Other known pruritogenic pathways were also activated: there was significant up-regulation of genes encoding proteases cathepsin S (CTSS), mast cell chymase (CMA1), tryptase (TPS1) and mastin, neuromedin-B (NMB), nerve growth factor (NGF), and leukotriene-synthesis enzymes (ALOX5, ALOX5AP, and LTA4H). Experimental acute canine house dust mite-induced AD lesions exhibit an activation of innate and adaptive immune responses and pruritogenic pathways similar to those seen in humans with acute AD, thereby validating this model to test innovative therapeutics modalities for this disease.
Highlights d Periostin induces itch behavior in mice, dogs, and nonhuman primates d Periostin directly activates sensory neurons through its integrin a V b3 receptor d TSLP induces the secretion of periostin in keratinocytes via the JAK/STAT pathway d A TSLP-periostin mutual activation loop might be involved in chronic allergic itch
In humans with atopic dermatitis and in mouse models of IgE-mediated allergic diseases, evidence is mounting that the stratum corneum (SC) provides an important barrier against environmental allergens. At this time, it is not known whether the SC has a similar role in dogs, especially in those with atopic dermatitis. The objectives of this pilot study were to determine whether SC removal led to earlier and stronger sensitization of atopic dogs to Dermatophagoides farinae (Df) house dust mites. Five Maltese-beagle atopic (MBA) dogs were sensitized epicutaneously after the SC was removed with ten tape strips (TS group), while sensitization was done without tape strips in five other MBA dogs (nontape stripping; NTS group). During this 16 week study, sensitization was assessed with allergen-specific IgE serology, intradermal testing with Df allergens and determination of stimulation indices of blood mononuclear cells cultured with Df and stained for CD4 and the activation markers CD25 or CD30. Compared with dogs from the NTS group, those of the TS group exhibited earlier rises in Df-specific IgE serum levels, usually had higher allergen-specific IgE titres, showed higher intradermal test reactivity and had earlier increases and higher percentages of CD25- or CD30-positive activated allergen-specific peripheral CD4-positive T lymphocytes. These observations implicate a role of the SC as a barrier limiting sensitization to exogenous allergens in this experimental atopic dog model.
The inhibitory effect of 0.0584% hydrocortisone aceponate spray on immediate- and late-phase skin reactions and the duration of inhibition after medication withdrawal were studied in 10 Maltese-beagle atopic dogs. All subjects were sprayed on axillary and inguinal regions and on one randomly chosen side of the thorax once daily for 14 (phase 1) or 7 days (phase 2). Intradermal injections (IDT) of histamine and anticanine IgE antiserum were performed bilaterally on the thorax before, 7 and 14 days after treatment. During phase 2, IDT was performed once weekly for 5 weeks. Each IDT was evaluated by an investigator blinded to the site of active treatment. Skin biopsies of 24-h anti-IgE-associated late-phase reactions were collected from both thoracic sides before and 14 days after treatment to determine the number of inflammatory cells and dermal thickness. Phase 1: Histamine and anti-IgE-induced global wheal scores at treated sites were significantly lower after 7 and 14 days with negative reactions present in >90% of dogs. Late-phase reactions at both sides were also significantly decreased compared with that at baseline, and this was associated with reduced inflammatory cell influx. Moreover, a significant decrease in dermal thickness was recorded at treated sides after 14 days. Phase 2: Histamine reactions became positive at untreated sides in all dogs 2 weeks after treatment. In conclusion, the 0.0584% hydrocortisone aceponate spray significantly decreased immediate- and late-phase IDT reactions, and prolonged application caused skin atrophy at treated sites. A 2-week withdrawal period prior to IDT is proposed.
As there is evidence for an anti-inflammatory efficacy of histamine H(4) receptor (H4R) selective antagonists, we aimed at testing the efficacy of the H4R antagonists JNJ7777120 and JNJ28307474 in comparison with histamine H(1) receptor (H1R) antagonists hydroxyzine and cetirizine for skin lesion prevention in a canine model of acute atopic dermatitis. Six atopic Maltese-beagle dogs experimentally sensitized to Dermatophagoides farinae (Df) house dust mites were selected for this study. Twenty-four hours after challenge by epicutaneous application of Df, erythematous skin lesions were scored. In this blinded, placebo and active controlled study, topical JNJ7777120 or JNJ28307474 was applied as a 1% solution before allergen challenge. The latter was also given orally at 15 mg/kg before and after allergen challenge. A 0.015% triamcinolone acetonide solution was used as a positive control. The H1R antagonists hydroxyzine and cetirizine were administered orally before challenge in a second experiment. Twenty-four hours after challenge, placebo-treated animals had a median lesional score of 2. Treatment with topical and oral JNJ28307474 resulted in a median score of 2.5. After topical administration of JNJ7777120, the median lesional score was 2. Hydroxyzine and cetirizine did also not reduce the median score of the placebo treatment. Triamcinolone acetonide prevented all dogs from having any lesions. Determination of histamine in lesions revealed that only during the initiation increased concentrations of histamine were detected. In conclusion, the preventive administration of H1R or H4R antagonists has no impact on the development of acute skin lesions in this experimental canine atopic dermatitis model.
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