IL-12, but not IFN-gamma, plays a major role in sustaining the chronic phase of colitis in IL-10-deficient mice.

IL-10-deficient (IL-10(-/-)) mice develop chronic enterocolitis mediated by CD4+ Th1 cells producing IFN-gamma. Because IL-12 can promote Th1 development and IFN-gamma production, the ability of neutralizing anti-IL-12 mAb to modulate colitis in IL-10(-/-) mice was investigated. Anti-IL-12 mAb treatment completely prevented disease development in young IL-10(-/-) mice. Treatment of adult mice resulted in significant amelioration of established disease accompanied by reduced numbers of mesenteric lymph node and colonic CD4+ T cells and of mesenteric lymph node T cells spontaneously producing IFN-gamma. In contrast, anti-IFN-gamma mAb had minimal effect on disease reversal, despite a significant preventative effect in young mice. These findings suggested that IL-12 sustains colitis by supporting the expansion of differentiated Th1 cells that mediate disease independently of their IFN-gamma production. This conclusion was supported by the finding that anti-IL-12 mAb greatly diminished the ability of a limited number of CD4+ T cells expressing high levels of CD45RB from diseased IL-10(-/-) mice to expand and cause colitis in recombination-activating gene-2(-/-) recipients, while anti-IFN-gamma mAb had no effect. Furthermore, IL-12 could support pathogenic IL-10(-/-) T cells stimulated in vitro in the absence of IL-2. While these studies show that IL-12 plays an important role in sustaining activated Th1 cells during the chronic phase of disease, the inability of anti-IL-12 mAb to abolish established colitis or completely prevent disease transfer by Thl cells suggests that additional factors contribute to disease maintenance.

Characterization of B-cell populations bearing Fc epsilon receptor II.

We have characterized the B-cell population that expresses low affinity Fc receptors for IgE (Fc epsilon RII). Fc epsilon RII+ B cells from normal adult BALB/c mice expressed high levels of surface IgD and low/medium levels of surface IgM and constituted the majority of mature splenic B cells. Fc epsilon RII+ splenic B cells expressed high levels of class II MHC antigens and medium to high levels of B220, and consisted of approximately equal numbers of J11dhigh and J11dlow cells. CD5+ B cells did not appear to be Fc epsilon RII+, and interleukin 4 did not induce Fc epsilon RII expression on CD5+ B cells. Fc epsilon RII was not expressed by B cells that had differentiated to secrete immunoglobulin but was expressed on activated B cells. These data suggest that Fc epsilon RII is a differentiation marker expressed on mature and activated B lymphocytes in the major B-cell lineage.

Murine B-cell stimulatory factor 1 (interleukin 4) increases expression of the Fc receptor for IgE on mouse B cells.

We have studied the activity of mouse B-cell stimulatory factor 1 (interleukin 4, IL-4) on resting splenic B cells and on a B-cell hybridoma. Purified T-cell-derived as well as recombinant IL-4 was shown to increase the expression of the low-affinity Fc receptor for IgE (Fc epsilon R) on a majority of B lymphocytes in a 24-hr culture period. Levels of Fc epsilon R expression increased 2- to 3-fold on splenic B cells and up to 6-fold on a B-cell hybridoma. The effect was inhibited by an anti-IL-4 monoclonal antibody and by mouse gamma-interferon. Other recombinant lymphokines exhibited no effect on either Fc epsilon R expression or the induction by IL-4. The presence of IgE during the stimulation with IL-4 resulted in an additional increase in Fc epsilon R expression. These data and results showing that IgE prevents Fc epsilon R turnover while IL-4 increases the rate of Fc epsilon R synthesis suggest that the mechanisms by which IgE and IL-4 increase Fc epsilon R expression are likely to be different. The starting population of splenic B cells expressed low levels of Fc epsilon R and was relatively uniform in size (small). After greater than 48 hr of culture with IL-4, viable B cells had not undergone DNA synthesis and consisted mainly of larger highly Fc epsilon R-positive cells (23%) and medium-sized Fc epsilon R-positive cells (60%). A possible role for Fc epsilon R in certain B-cell maturation pathways is discussed.

A microtiter plate assay for detecting IgE-binding molecules and cells bearing Fc receptors for IgE.

A microtiter plate assay is described for detecting cells bearing Fc receptors for IgE (Fc epsilon receptors) and for assaying IgE-binding molecules. Cells are bound specifically to IgE-coated wells of microtiter plates, and the bound cells are enumerated in a quantitative colorimetric assay. IgE-binding molecules and monoclonal antibodies are assayed as inhibitors of the IgE-dependent cell binding. Major advantages of the plate assay compared to rosetting assays are its ability to accommodate many test samples for replicates and titrations and the ease with which results are read out. The versatility of the assay is discussed with respect to detecting other immunoglobulin Fc receptor-bearing cells.