The clinical impact of cross-reactions between allergens on allergic skin diseases.

PURPOSE OF REVIEW: The route of allergen sensing via the skin appears to influence the immune system towards mounting a type 2 response, especially in genetically predisposed individuals. Allergens recognized this way may derive from microbial, animal, food, or other plant sources and trigger atopic dermatitis. Allergens can be grouped into families depending on their structure and function, harboring significant structural and sequence similarities. Cross-reactivity between allergens is believed to arise as a consequence, and to underlie the development of further atopic diseases. RECENT FINDINGS: Especially for the plant allergens of the families of PR10-related proteins and profilins, immune cross-reactions have been described. Actual studies support that food and pollen allergens can aggravate skin lesions in patients suffering from atopic dermatitis. Further on, allergens derived from air-borne or skin-borne fungi belong to common allergen families and bear cross-reactivity potential. Cross-reactivity to human homologous proteins, so-called autoallergens, is discussed to contribute to the chronification of atopic dermatitis. SUMMARY: Due to high evolutionary conservation, allergic reactions can be triggered by highly homologous members of allergen families on the humoral as well as on the cellular level.

Common and different roles of IL-4 and IL-13 in skin allergy and clinical implications.

PURPOSE OF REVIEW: This review summarizes the mode of action of IL-4 and IL-13 in skin allergy, upcoming therapeutics and depicts key outcomes of the latest clinical trials. RECENT FINDINGS: Atopic dermatitis is considered to be one of the most common inflammatory skin disease in industrialized countries. Accompanied by strong pruritus, atopic dermatitis has a significant impact on quality of life in severely affected individuals. Aside from unspecific immunosuppressant medications, therapeutics targeting the key cytokines IL-4 and IL-13 and their downstream mediators are under development or have been approved just recently with outstanding potential. SUMMARY: The recent development of several biologics and small compounds has the potential to revolutionize the treatment of atopic dermatitis, and applying this set of state-of-the-art drugs will provide a unique chance to gain insights into this skin disorder, patient subgroups, and key inflammatory mediators.