CD22 is a B cell‐specific member of the immunoglobulin superfamily and binds to sialic acid. CD22 inhibits B cell receptor signaling. Mice deficient for CD22 show a largely normal B cell development. Here, we have performed a detailed analysis of the splenic B cell population and found that the subset of marginal zone (MZ) B cells was selectively reduced in CD22‐deficient mice. CD22‐deficient mice showed a lack of TNP‐ficoll capturing cells in the MZ and a reduced response to TNP‐ficoll, particularly when the antigen was applied intravenously. CD22‐deficient B cells showed both enhanced motility as well as enhanced chemotaxis to certain chemokines. The altered chemokine responsiveness or the higher signaling capacity of CD22‐deficient B cells may lead to the compromised MZ B cell compartment, as both processes have previously been shown to affect MZ composition.