Anti-idiotypic B cells are required for the induction of suppressor T cells

A nylon wool-adherent, B cell-enriched population is required during the in vitro induction of third order effector suppressor T cells (Ts3). This B cell population expresses IgM and IgD and is devoid of conventional T cell markers such as Thy-1, L3T4, and Lyt-1. Treatment of the B cell population with anti-NP antibodies expressing the NPb idiotype and complement specifically eliminated the ability to generate Ts cell activity, suggesting that the critical B cells expressed anti-idiotypic receptors. To independently verify the role of anti-idiotypic B cells in the generation of Ts cells, B cells were panned on antibody-coated plates. The results demonstrated that only NPb idiotype-binding B cells could induce effector suppressor cells from naive T cell populations. The combined data demonstrate the role of Ig network interactions in the generation of Ts cells.     

IgE-enhancing activity directly and selectively affects activated B cells: evidence for a human IgE differentiation factor

T cells from highly atopic individuals spontaneously secrete in vitro a factor that specifically induces IgE synthesis from normal human B cells. We investigated the effects of such T cell supernatants derived from atopic individuals (TCSN-A) on functionally distinct B cell subsets to determine at what developmental stage B cells become responsive to this IgE-enhancing activity. B cells from normal and allergic donors were separated into subsets of small resting and large activated cells by density centrifugation or unit gravity sedimentation. When stimulated by TCSN-A, large activated B cells made more IgE than small resting B cells. The difference was as much as 3300% in comparing these subsets from allergic donors. Similarly, resting B cells stimulated by Staphylococcus aureus Cowan I (SAC) made 52 to 125% more IgE in response to TCSN-A than unstimulated small resting B cells. However, IgE production from large B cells, already activated in vivo, was not enhanced by the addition of SAC. Notably, the IgE level synthesized by in vivo large activated B cells from allergic persons was markedly greater than that seen with similar cells from normal donors, whereas resting B cells purified from allergic and normal donors produced comparable levels of IgE in response to TCSN-A. These results suggest that this enhancing activity functions as an IgE differentiation factor for activated B cells. This was further confirmed by the effects of TCSN-A on the IgM- and IgE-secreting EBV-transformed human B cell line K1D5. TCSN-A specifically enhanced IgE synthesis from these cells; TCSN from normal donors, IL 2, IFN-gamma, and BCGF did not. These results confirm that this activity functions as an IgE-specific differentiation factor, directly influencing activated B cells to synthesize IgE.     

Soluble and membrane-bound forms of lipoprotein lipase in mouse lung tissue

Homogenates of mouse lungs were separated by differential centrifugation into two fractions containing lipoprotein lipase, namely, a soluble and a membrane-bound fraction. Lipoprotein lipase was specifically identified by its inhibition by both protamine sulfate (3 mg/ml) and sodium chloride (0.9 mol/l). The enzymatic activity of each fraction was enhanced when serum was preincubated with the enzyme. Both enzyme fractions showed optimum activity at alkaline pH, but the membrane-bound enzyme showed a higher pH optimum. In addition, the apparent Km of the soluble enzyme was lower than that of the membrane-bound enzyme. It is concluded that there are two different forms of lipoprotein lipase in mouse lung tissue that differ in a number of aspects.