Abstract
CD19 and CD22 are B lymphocyte cell-surface molecules that positively and negatively regulate antigen receptor signal transduction, respectively. Biochemical studies with B cells from CD19-deficient and CD22-deficient mice indicated that these two regulatory molecules influenced each other's functions: CD22 expression negatively regulated CD19 tyrosine phosphorylation, while optimal CD22 function was dependent on CD19 expression. Functional CD19 and CD22 interactions were also assessed in vivo by generating CD19/CD22 double-deficient mice. Remarkably, the CD19 mutation was dominant to the CD22 mutation in most instances. B lymphocytes from CD19/CD22-deficient and CD19-deficient mice were functionally equivalent despite the negative influence normally provided by CD22 expression. These data collectively suggest that CD19 activates the CD22/SHP1 inhibitory pathway that then acts primarily on CD19.
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