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Basophils represent &lt;1% of circulating leukocytes. They play a crucial role during allergy and helminth-induced Th2 responses. However, recent data also suggest a contribution to the pathogenesis of autoimmune diseases. Basophils from patients with systemic lupus erythematosus show an activated phenotype, correlating to disease activity. Furthermore, murine basophils or their mediators enhance memory responses and plasma cell (PC) survival, suggesting that they directly modulate the function of B cells. This is highly relevant with respect to human allergy and autoimmunity because a possible modulation of B cell differentiation by basophils could point to new therapeutic targets. Therefore, the interaction between human B cells and basophils and the mechanism underlying this interaction were investigated in detail. Using two different methods to induce PC differentiation, we found that human basophils enhance B cell proliferation, class switching, differentiation into PC, maturation of PC, and production of Igs, especially IgG. Basophil supernatants enhanced the expression of the B cell markers CD23 and CD40, which are important for B cell differentiation into IgG-producing PC. This was mainly IL-4 dependent. IL-3 amplified the number of PC in vitro, and acted synergistically with basophils in enhancing Ab production. Thus, human basophils modulate B cell differentiation into Ab-producing PC. Their contribution as modulators and effectors during allergy and autoimmunity should be considered when designing new therapeutic options.

Human Basophils Modulate Plasma Cell Differentiation and Maturation