Abstract
SUMMARYNickel (Ni) allergy has been reported in contact dermatitis Type IV (Ni-specific T cells mediated) and asthmatic Type I (IgE-mediated) hypersensitivities. Associations between the two hypersensitivities have been found in some patients, but the underlying mechanisms remain enigmatic. Using Her2-specific IgEs as models, we found additional binding to Ni-NTA without observable changes in binding to Her2 and that glutamine, together with the canonical Ni2+-binding histidine, could form Ni2+ binding signatures. This mechanism may underlie Type I hypersensitivity in the selection of anti-Ni2+ IgEs. This mechanism may also underlie Type IV hypersensitivity and the interaction of immunoglobulin proteins with other heavy metal ions. Our findings shed light to how Ni hypersensitivities can occur and how they can be avoided in therapeutics design, or even incorporated for biotechnological purification purposes.
Publisher
Cold Spring Harbor Laboratory
Reference61 articles.
1. Abraham, D. , Lindahl, E. , Hess, B. , and Van der Spoel, D. (2019). GROMACS 2019.3 Source code.
2. Nickel allergy and allergic contact dermatitis: A clinical review of immunology, epidemiology, exposure, and treatment;Contact Dermatitis,2019
3. Clinical characteristics of 140 patients infected with SARS‐CoV‐2 in Wuhan, China
4. Bennike, N.H. , and Foss-Skiftesvik, M.H. (2018). Metal allergy and contact urticaria. In Metal Allergy , T.J.e. Chen J. , ed. (Springer, Cham).
5. Nickel acts as an adjuvant during cobalt sensitization;Experimental Dermatology,2015