Enhancing Effects of Interleukin 2-Treated Peripheral Blood Mononuclear Cells on Subsequent B Cell Differentiation

Abstract

Despite an extensive literature dealing with IL2-induced cytolytic activity, noncytotoxicity-related effects of IL2 on peripheral blood mononuclear cells (PBMC) or T cell function have received less attention. We have focused on the effects of irradiated, IL2-activated PBMC (PBMC*rIL2) on anti-CD3- and formalin-fixed heat-killed Staphylococcus aureus-induced polyclonal B cell differentiation in secondary cultures. PBMC*rIL2 act directly on B cells and cross major histocompatibility complex barriers to augment polyclonal B cell differentiation as measured by plaque-forming cell (PFC) generation. These effects are preferentially mediated by T (both CD4+ and CD8+) cells, and physical contact between effector PBMC*rIL2 and target B cells is not absolutely required for enhanced PFC generation. PBMC*rIL2 must be present for the initial 24 hr of the secondary cultures, indicating that some soluble B cell differentiation factor rapidly released by PBMC*rIL2 mediates the PFC-enhancing effect. Of IL2, IL4, IL5, IL6, IL10, IFN-γ, and TNF-α, only IFN-γ mRNA is appreciably and reproducibly increased in irradiated, IL2-activated T cells (T cells*rIL2). Nevertheless, exogenous rIFN-γ cannot mimic and anti-IFN antibodies cannot block the PFC-enhancing effects of T cells*rIL2, indicating that some unidentified soluble factor(s) apart from or in addition to IFN-γ is involved. IL2-induced effects on T cell noncytolytic function may help explain certain observed immune anomalies in IL2-treated patients, and a better understanding of the IL2-induced effects on T cell noncytolytic function may have ramifications for autoimmune diseases such as SLE.