B cells play a pathogenic or regulatory role in many autoimmune diseases through production of autoantibodies, cytokine production, and Ag presentation. However, the mechanisms that regulate these B cell functions under different autoimmune settings remain unclear. In the current study, we found that when B cells overexpress an antiapoptotic gene, Bcl(XL), they significantly increased production of IFN-gamma and enhanced Th1 response. Consistently, Bcl-x(L) transgenic mice developed more severe and sustained collagen-induced arthritis due to the enhanced Th1 response. The production of autoantibodies in Bcl(XL) transgenic mice was comparable to that in wild-type mice. Thus, our results indicate a novel role of Bcl(XL) in regulating B cell functions and immune responses. In patients with rheumatoid arthritis, arthritogenic B cells often up-regulate Bcl(XL) expression, which may not only render B cells resistant to apoptosis but also alter the ability of the autoreactive B cells to produce cytokines and modulate the inflammatory response. This may have therapeutic implications if Bcl(XL) expression can be down-regulated in autoreactive B cells.