Measurement for canine IgE using canine recombinant high affinity IgE receptor α chain (FcεRIα)

Immunoglobulin G1 subclass responses can be used to detect specific allergy to the house dust mites Dermatophagoides farinae and Dermatophagoides pteronyssinus in atopic dogs

BACKGROUND

In dogs with atopic dermatitis, intradermal testing (IDT) or allergen specific IgE serological testing are routinely employed to identify causative allergens. These allergens can then be used for allergen-specific immunotherapy and allergy management. The clinical relevance of this testing is affected by the source of allergen, and other biomarkers that are more related to specific allergens still need to be identified. The aim of this study was to investigate levels of specific IgE, total IgG, and IgG1 and IgG2 subclasses against the local house dust mites (HDM) Dermatophagoides farinae (DF) and D. pteronyssinus (DP) as biomarkers by using in-house ELISAs in healthy (n = 33) and atopic dogs (AD) (n = 44) that were either positive or negative by IDT to HDM.

RESULTS

Being over 3 years of age was a risk factor for AD (Odds Ratio (OD) = 4.10, 95% Confidence interval (CI) 1.57-10.75, p = 0.0049), but there was no relation to IDT outcomes (OR = 0.9091, 95% CI 0.22-3.74, p = 1.00). High levels of all antibody isotypes (IgE, IgG, IgG1 and IgG2) against HDM were found in aged healthy dogs (> 3 years old). In AD, HDM-IgE and IgG1 levels were higher in dogs that were IDT positive to HDM than in IDT negative animals. Levels of IgE and IgG1 could be used to distinguish the specific allergens, whereas total IgG and IgG2 levels were not different between IDT-positive and IDT-negative AD. By the receiver operating characteristic curve at a false-positive rate = 0.10, both IgE and IgG1 showed better sensitivity than IgG and IgG2. Similar to IgE, serum IgG1 concentration was also relevant to IDT outcomes.

CONCLUSIONS

Our in-house ELISAs coated with local HDM were useful for evaluating antibody levels, and we propose use of the HDM-specific IgG1 subclass as a biomarker to detect HDM specific allergens in AD, potentially together with an IgE based platform.

Effects of a selective casein kinase 1δ and ε inhibitor on FcεRI expression and IgE-mediated immediate-type cutaneous reactions in dogs

The molecular clock network in mast cells has been shown to be a factor responsible for circadian regulation of allergic inflammation. PF670462 is a selective inhibitor of casein kinase 1δ and ε (CK1δ/ε) that control the posttranslational modification of clock proteins. The aims of this study were to evaluate the effects of PF670462 on gene and protein expression of FcεRI, the high-affinity IgE receptor, in canine mast cells and on IgE-mediated immediate-type cutaneous reactions in dogs. PF670462 decreased mRNA expression of FcεRIα and β, but not γ, and protein expression of FcεRI in a canine mast cell line. Furthermore, PF670462 suppressed IgE-mediated immediate-type cutaneous erythema in dogs. These findings indicate that CK1δ/ε function as regulators for FcεRI expression and IgE-mediated cutaneous reactions in dogs.

The role of Cε2, Cε3, and Cε4 domains in human and canine IgE and their contribution to FcεRIα interaction

The Cε2 and Cε4 domains are considered as scaffolds, allowing Cε3 domains to assume an appropriate orientation to interact with FcεRI (Wurzburg and Jardetzky, 2002; Hunter et al., 2008). Human/canine IgE chimeric antibodies were expressed to assess the nature of the contribution of Cε2 and Cε4 domains to bind to and induce target cell degranulation via FcεRIα. Our results indicate that for (1) Cε3 domains in IgE of canine and human origin are the only necessary region for binding to FcεRIα. (2) The interaction of canine IgE with human sFcεRIα is significantly enhanced by contributions from both Cε2 and Cε4 domains of dog origin. (3) The canine/human IgE chimeric antibody construct rapidly dissociates from its the receptor when the canine Cε2 and Cε4 domains are replaced by the homologous human Fc domains which do not confer a conformation on the Cε3 domain to facilitate stable interaction with canine FcRIα. Kinetic constants for the binding of this chimera to the soluble extracellular domain of the receptor indicate an approximate 120-fold decrease in the affinity for canine sFcεRIα (ka=5.30 × 10(2)M(-1)s(-1)) and a 330-fold increase in the dissociation from canine sFcεRIα (KD=6.9 × 10(-6)M(-1)), compared to the wild type IgE kinetic constants (Ka=6.30 × 10(4)M(-1)s(-1); KD=2.1 × 10(-8)M(-1)). Although canine IgE does engage human FcεRIα, canine Cε2 and Cε4 do not contribute to the high-affinity of interaction with human FcεRIα. Upon replacement of human Cε2 and Cε4 domain by the canine homologues, human IgE Cε3 only retains a low affinity for the human receptor, which shows that Cε2 and Cε4 domains in human IgE Fc contribute significantly to the interaction with its cognate receptor.