IL-13, IL-4Ralpha, and Stat6 are required for the expulsion of the gastrointestinal nematode parasite Nippostrongylus brasiliensis.

Although IL-4 induces expulsion of the gastrointestinal nematode parasite, Nippostrongylus brasiliensis, from immunodeficient mice, this parasite is expelled normally by IL-4-deficient mice. This apparent paradox is explained by observations that IL-4 receptor alpha chain (IL-4Ralpha)-deficient mice and Stat6-deficient mice fail to expel N. brasiliensis, and a specific antagonist for IL-13, another activator of Stat6 through IL-4Ralpha, prevents worm expulsion. Thus, N. brasiliensis expulsion requires signaling via IL-4Ralpha and Stat6, and IL-13 may be more important than IL-4 as an inducer of the Stat6 signaling that leads to worm expulsion. Additional observations made in the course of these experiments demonstrate that Stat6 signaling is not required for IL-4 enhancement of IgG1 production and actually inhibits IL-4-induction of mucosal mastocytosis.

Kinetics of cytokine expression and regulation of host protection following infection with molecularly cloned Venezuelan equine encephalitis virus.

In the mouse model, the arbovirus Venezuelan equine encephalitis virus (VEE) replicates in lymphoid tissues prior to either inducing protective immunity (attenuated VEE mutant) or progressing to lethal encephalitis (virulent parent VEE). To investigate the mechanism of the protective response, cytokine gene expression was examined during the course of the primary in vivo immune response to molecularly cloned, virulent VEE and a single-site attenuated VEE mutant, using a quantitative reverse transcriptase-polymerase chain reaction assay. VEE-induced cytokine gene expression was 100-fold elevated over that of untreated controls for IFN-gamma and IL-6 and 10-fold increased for IL-12, IL-10, and TNF-alpha. There was no qualitative difference in cytokine gene induction comparing mice infected with the attenuated and the virulent VEE; however, there were significant differences in the cytokine gene expression kinetics. In mice infected with the attenuated VEE, elevated cytokine gene expression was delayed 24 hr when compared to mice infected with the virulent parent VEE clone at the same dose. Further, IFN-gamma protein secretion by cells from the draining lymph node mimicked the pattern of IFN-gamma gene induction by cells harvested from the same site. IFN-gamma gene expression was elevated at an earlier time point in mice given virulent V3000 24 hr after attenuated V3032 injection compared to mice infected with virulent V3000 alone. The combined V3000/V3032 infection resulted in host protection. Treatment of mice with IL-12 prior to infection with virulent VEE failed to reduce the severity of infection, while anti-IL-12 antibody did not prevent the early protective effect of attenuated virus. In contrast, administration of anti-IFN-alpha/beta antibody prior to VEE infection worsened virulent VEE disease. These results indicate that the attenuated VEE strain elicits a similar but delayed cytokine response compared to the virulent strain, suggesting that the kinetics of cytokine expression and the particular cytokine produced may influence the development of a host protective response. Furthermore, IFN-alpha/beta, but not IL-12, seems to be a major factor in the induction of early protection against VEE infection and disease.

IFN inhibits inflammatory responses and protective immunity in mice infected with the nematode parasite, Nippostrongylus brasiliensis.

Mice infected with the gastrointestinal nematode parasite Nippostrongylus brasiliensis (Nb) develop responses associated with enhanced production of IL-4 (increased serum IgE levels and intestinal mucosal mastocytosis) and IL-5 (tissue and peripheral blood eosinophilia). The antagonistic effects of IFN on IL-4-mediated responses prompted an examination of the effects of IFN on the host response to Nb. Treatment with rIFN-alpha and rIFN-gamma induced a marked increase in parasite egg production (fecundity) in BALB/c mice infected with Nb and delayed intestinal expulsion of adult worms. Treatment with rIFN-alpha or rIFN-gamma also inhibited the rise in peripheral blood eosinophilia that follows inoculation with Nb, and the intensity of pulmonary perivascular tissue eosinophilia. However, Nb-induced increases in serum IgG levels and intestinal mastocytosis were only temporarily delayed by IFN. Induction of endogenous IFN production by injection of fixed Brucella abortus into mice infected with Nb also resulted in an increased worm fecundity and delayed adult worm expulsion. These effects were ablated when mice given Brucella abortus also received injections of neutralizing anti-IFN antibodies. Thus, IFN inhibit host protective immunity to Nb, perhaps by interfering with the production and effects of Th2 cytokines.

Infection with Nippostrongylus brasiliensis or injection of anti-IgD antibodies markedly enhances Fc-receptor-mediated interleukin 4 production by non-B, non-T cells.

Non-B, non-T cells from spleen and bone marrow of naive mice produce IL-4 upon stimulation by plate-bound IgE or IgG2a in the presence of IL-3. Infection of mice with Nippostrongylus brasiliensis (Nb) or injection of anti-IgD antibodies, treatments known to cause striking polyclonal IgE responses, increase the number of splenic non-B, non-T cells and cause 10-30-fold increase in IL-4 production by a standard number of these cells. In Nb-infected mice, IL-4 producing non-B, non-T cells can be found in the lungs, a site through which Nb larvae migrate. Non-B, non-T cells from anti-IgD-injected mice produce IL-4 in response to anti-IgE antibodies, indicating that these cells have been sensitized in vivo with IgE and that crosslinkage of such IgE can lead to stimulation of lymphokine production. Similarly, non-B, non-T cells from Nb-infected mice produce IL-4 upon stimulation with Nb-antigen, indicating that antigen can also crosslink receptors on in vivo sensitized non-B, non-T cells and stimulate lymphokine production. The striking increases in the IL-4-producing capacity of the splenic non-B, non-T cell population in anti-IgD-injected and Nb-infected mice and the in vivo sensitization of these cells strongly suggests that they may have an important role in lymphokine production in helminthic infections and other situations marked by striking elevations of serum IgE levels.

The role of L3T4+ and Lyt-2+ T cells in the IgE response and immunity to Nippostrongylus brasiliensis.

The role of L3T4+ and Lyt-2+ T cells in protective immunity to Nippostrongylus brasiliensis (Nb) was studied in BALB/c mice that were depleted of either the L3T4+ or Lyt-2+ T cell population by injection with rat mAb specific for the appropriate determinant. Host responses to Nb infection including spontaneous elimination of adult worms, development of intestinal mucosal mast cell hyperplasia and the generation of a polyclonal IgE response were all completely blocked by 0.5 mg anti-L3T4 antibody administered simultaneously with Nb inoculation. However, administration of 0.5 mg of anti-Lyt-2 antibody at the same time and 7 days after inoculation with Nb had no effect on any of these responses. Injection of anti-L3T4 antibody as late as 9 days after Nb inoculation interfered with spontaneous cure of Nb infection and anti-L3T4 antibody injection 11 days after Nb inoculation inhibited serum IgE levels measured on day 13 by 50%. In addition, administration of anti-L3T4 antibody at the time of the peak serum IgE response, 13 days after Nb inoculation, accelerated the decline in serum IgE levels. Injection of previously Nb-infected mice with anti-L3T4 antibody at the time of a second Nb inoculation prevented the development of a secondary IgE response but did not affect immunity to Nb infection based on finding no adult worms in the intestines of these mice. These data indicate that 1) L3T4+ T cells are required for spontaneous cure of Nb infection, development of intestinal mucosal mast cell hyperplasia, and the generation and persistence of an IgE response during primary infection with Nb and 2) L3T4+ T cells are required for a considerable time after inoculation for optimal development of these responses. However, L3T4+ T cells are not required for all protective responses in immune mice. In contrast, our data indicate that considerable depletion of the Lyt-2+ T cell population has no significant effect on either worm expulsion or the generation of serum IgE responses.

B cells that simultaneously express surface IgM and IgE in Nippostrongylus brasiliensis-infected SJA/9 mice do not provide evidence for isotype switching without gene deletion.

Recently, it has been reported that in SJA/9 mice infected with Nippostrongylus brasiliensis there are increased numbers of lymphoid cells positive for surface IgM and IgE (sIgM+ and sIgE+) even though they fail to secrete IgE, that both the sIgM and sIgE on these cells are intrinsic, and that there has been no deletion of genes for the Ig heavy chain constant region in these cells. These observations support a nondeletional model for Ig isotype switching. We have now reexamined the nature of sIgE on sIgE+ spleen and mesenteric lymph node cells of N. brasiliensis-infected SJA/9 mice, and the following observations lead us to believe that this sIgE is cytophilic rather than intrinsic: (i) Only approximately 50% of the N. brasiliensis-infected SJA/9 mice have detectable percentages of sIgE+ lymphoid cells. All mice with detectable sIgE+ lymphocytes have lymphocytes positive for intracytoplasmic IgE (cIgE+) and secrete IgE in vitro, while cIgE+ cells and IgE secretion are absent from N. brasiliensis-infected SJA/9 mice that lack sIgE+ cells. (ii) SJA/9 B lymphocytes have receptors for IgE: expression of these receptors is increased in N. brasiliensis-infected mice that have sIgE+ lymphocytes, but not in infected SJA/9 mice that lack sIgE+ lymphocytes. (iii) Treatment of sIgM+ sIgD+ sIgE+ cells for 1 min with dilute acid removes most sIgE but does not affect expression of sIgM or sIgD. (iv) The removal of mouse IgE from sIgE+ B cells facilitates the binding of exogenous rat IgE. (v) The small amount of sIgE that is reexpressed during a period of in vitro culture after acid treatment is blocked by inclusion of exogenous rat IgE in the culture medium. These observations show that most sIgM+ sIgE+ B cells in N. brasiliensis-infected SJA/9 mice do not express intrinsic sIgE; thus studies using these cells to determine mechanisms of Ig isotype switching are inconclusive.