Twenty Ni-reactive T-lymphocyte clones were obtained from eight different donors and analyzed for their ability to cross-react with other metals. All Ni-reactive T-lymphocyte clones were CD4+CD8- and recognized Ni in association with either HLA-DR or -DQ molecules. Based on the periodic table of the elements, the metals Cr, Fe, Co, Cu, and Zn from the same horizontal row as Ni, and Pd and Pt from the same vertical row, were selected to study T-lymphocyte clone cross-reactivity. Distinct cross-reactivity patterns were found that could be divided into three major groups: Ni-reactive T-lymphocyte clones i) cross-reacting with Cu, ii) cross-reacting with Pd, or iii) without cross-reactivity. Major histocompatibility complex class II-restriction patterns of Cu- and Pd-induced proliferative responses did not differ from those for the Ni-induced responses. In vitro cross-reactivities with Cu and Pd may be favored by their bivalency and location next to Ni in the periodic table, and the similarity of these metals to Ni in binding to histidine residues of peptides in the pocket of major histocompatibility complex class II molecules. The present findings suggest that Cu and Pd hypersensitivities, which are occasionally observed in Ni-allergic patients, may be due to cross-reactivities at the T-cell clonal level rather than to concomitant sensitization.
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