The transcription factor Krüppel-like factor 2 (KLF2) is critical for normal trafficking of T lymphocytes, but its role in B cells is unclear. We report that B cell-specific KLF2 deficiency leads to decreased expression of the trafficking molecules CD62L and β7-integrin, yet expression of sphingosine-1 phosphate receptor 1 (which is a critical target of KLF2 in T cells) was, unexpectedly, minimally altered. Unexpectedly, Klf2 deletion led to a drastic reduction in the B1 B-cell pool and a substantial increase in transitional and marginal zone B-cell numbers. In addition, we observed that KLF2-deficient B cells showed increased apoptosis and impaired proliferation after B-cell receptor cross-linking. Gene expression analysis indicated that KLF2-deficient follicular B cells display numerous characteristics shared by normal marginal zone B cells, including reduced expression of several signaling molecules that may contribute to defective activation of these cells. Hence, our data indicate that KLF2 plays a critical role in dictating normal subset differentiation and functional reactivity of mature B cells.T he Krüppel-like factor (KLF) family of transcription factors is expressed in many tissues and found to regulate differentiation, trafficking, cellular quiescence, and stem cell pluripotency (1). We and others have shown that KLF2 is critical for T-cell trafficking through regulation of the genes encoding sphingosine-1 phosphate receptor 1 (S1Pr1) and CD62L (L-selectin) (2-4), and additional studies suggest that KLF2 promotes T-cell quiescence (5-7). KLF2 is also expressed in B lymphocytes (8, 9), and both S1Pr1 and CD62L are also important for B-cell trafficking (10, 11). However, the role of KLF2 in B cells is unclear.Three main B-cell populations have been described in mice: follicular (FO), marginal zone (MZ), and B1 B cells (12). These cells display numerous differences in their tissue distribution, trafficking potential, and functional capacity. The factors regulating differentiation of these populations are still unclear, although B-cell receptor (BCR) signal strength has been proposed to play a key role in dictating B-cell subset development (12)(13)(14)(15)(16).Here, we report that KLF2 is differentially expressed in mature B-cell subsets and that KLF2 deficiency leads to overrepresentation of MZ B cells and a drastic loss of B1 B cells. In addition, we find Klf2 −/− FO B cells are functionally compromised and display some gene expression characteristics of MZ B cells. KLF2 loss leads to altered B-cell trafficking and reduced CD62L and β7-integrin expression, but expression of S1Pr1 was only modestly impaired in Klf2 KO B cells. Hence, our data indicated that KLF2 has both overlapping and distinct roles in T and B cells and that KLF2 is critical for normal B-cell tissue localization, subset differentiation, and functional reactivity.
