SummaryAntigen-specific B cell responses to mucosally delivered proteins are dependent upon CD4-positive T helper (Th) cells, and the frequency of Thl and Th2 cell responses after oral immunization may determine the level and isotype of mucosal antibody responses. We have used a protein-based vaccine, tetanus toxoid (TT), together with the mucosal adjuvant cholera toxin (CT), for oral immunization of mice to study the nature of antigen-specific Th cell subsets induced in Peyer's patches (PP) of the gastrointestinal (GI) tract and in the spleen (SP) during peak antibody responses. Mice orally immunized with TT and CT responded with antigen-specific secretory immunoglobulin A (S-IgA) antibodies in the GI tract, and with both IgG and IgA antibody responses in serum. PP and SP CD4 + T cells from mice orally immunized with TT plus CT were cultured with antigen-coated latex microspheres for induction of proliferative responses and for enumeration of cytokine producing CD4 + T cells. Interestingly, both PP and SP CD4 + T cell cultures showed increased numbers of IL-4-and IL-5 (Th2-type)-producing, spot-forming cells (SFCs) after 21 d of immunization, while essentially no intefferon-3~ (IFN-'y) or IL-2 (Thl-type) SFCs were noted. Cytokine-spedfic Northern blots and RT-PCR also revealed that significant IL-4 and IL-5 mRNA levels, but not IFN-3, or IL-2 mRNA, were present in CD4 + T cells isolated from antigen-stimulated cultures. However, systemic immunization with TT and CT induced antigen-specific IgG and IgM but not IgA antibodies in serum. Further, both IL-2-and IFN-3,-producing Thl-type cells as well as IL-4-and IL-5-secreting Th2-type cells were generated in SP. Our results show that oral immunization with TT and the mucosal adjuvant CT selectively induced antigen-specific Th2-type responses which may represent the major helper cell phenotype involved in mucosal IgA responses in the GI tract.
Cholera toxin (CT) is an effective mucosal antigen and acts as an adjuvant when given orally with various antigens; however, few studies have compared the levels of antibody responses to CT and coadministered protein in systemic and mucosal tissues. In this study, we used tetanus toxoid (TT) for assessment of immune responses. Time course and dose-response studies established that 250 jg of TT given orally with 10 ,ug of CT three times at weekly intervals induced high serum and gastrointestinal tract anti-IT and anti-CT antibody responses. Oral immunization with TT alone induced no detectable mucosal immunoglobulin A (IgA) antibodies in fecal extracts and only weak serum IgG anti-TT responses. The coadministration of CT and TT induced peak serum IgG anti-TT responses following two oral doses that remained constant after the third oral immunization, while optimal mucosal IgA responses were seen after the third oral immunization. The serum anti-TT response obtained with CT and TT proved protective against TT challenge (100 minimum lethal doses), whereas mice orally given CT or TT alone died. Antigen-specific B-cell responses were assessed with an isotype-specific Elispot assay of isolated lymphoid cells from the spleen, Peyer's patches, and the small intestinal lamina propria. Interestingly, approximately fourfold-higher numbers of IgA anti-CT than of anti-TT antibody-producing (spot-forming) cells occurred in lymphocytes from the lamina propria of mice orally immunized with both TT and CT. The adjuvant CT did not induce polyclonal B-cell responses in mice given CT by the oral route, since no significant differences in total numbers of B cells producing IgA, IgG, or * Corresponding author.
We have used three different methods to determine the T helper (Th) cell response, including Th1 and Th2 types, in murine Peyer's patches (PP) following oral immunization with sheep red blood cells (SRBC). These include: (i) use of cytokine-specific (IFN-gamma and IL-5), single cell assays to estimate the frequencies of Th1 and Th2 cells respectively, (ii) cytokine-specific mRNA--cDNA dot blot and Northern gel hybridizations to detect levels of specific mRNA, and (iii) T cell cloning techniques to determine the frequency of Th1 and Th2 clones. Mice were immunized with SRBC by either the oral or i.p. route. The PP and splenic (SP) CD3+ and CD3+ CD4+ T cell subsets were isolated and cultured with antigen, feeder cells, and IL-2, and were assessed at various intervals (days 0, 1, 3, and 6) for numbers of T cells producing either IFN-gamma or IL-5 by use of an enzyme-linked immunospot (ELISPOT) procedure. Cultures of T cells from PP or SP of mice given SRBC by the oral route had a high frequency of IL-5 spot forming cells (SFC), with lower numbers of IFN-gamma SFC. However, cultures of CD3+ T cells and CD3+ CD4+ Th cells from spleens of i.p. immunized mice exhibited predominantly IFN-gamma SFC, with smaller but significant numbers of IL-5 SFC. This distinct pattern of cytokine production was supported by mRNA analysis where high IL-5 specific mRNA levels were noted in PP T cell cultures of orally primed mice, while IFN-gamma mRNA was predominant in the SP CD3+ T cell and CD3+ CD4+ Th cell cultures from i.p. immunized mice. When the frequencies of IFN-gamma or IL-5 SFC were assessed among cloned Th cells from orally- or systemically-immunized mice, 74% of Th cell clones from PP of mice orally immunized with SRBC were IL-5 producers (Th2 type), while 67% of Th cell clones from SP of mice immunized by the i.p. route were IFN-gamma producers (Th1 type). Our studies show that higher frequencies of IFN-gamma producing Th1-type cells occur in SP of mice given antigen by the systemic route, while oral immunization results in predominantly IL-5 producing, Th2-type cells in PP.
The realization that induction of immune responses at mucosal surfaces may prevent colonization, invasion or dissemination of pathogenic microorganisms has spurred intensive efforts to develop vaccines which elicit effective mucosal immunity. In this paper, recent results are discussed for mice given cholera toxin as both an immunogen and as an adjuvant for inducing both humoral and gastrointestinal mucosal immune responses. Oral administration of cholera toxin alone or with a co-administered protein vaccine tetanus toxoid induces a strong T helper type 2 (TH2) cell response in both Peyer's patches and spleen. Both serum IgG and secretory IgA antibodies specific for cholera toxin or for the co-administered protein tetanus toxoid were induced. When administered parentally, however, no mucosal antibody responses were evident and a mixed TH1- and TH2-type CD4+ T cell response was noted in the spleen. Various vectors are being employed in an effort not only to induce mucosal immune responses but also to direct the response to a TH1-type response, thought to promote strong cell-mediated immune responses, or to a TH2-type response for maximum B cell antibody responses. The ability to manipulate the TH cell responses may provide a more rational approach for the design of vaccines. Although lymphoid tissues of the female reproductive tract differ from that of the gut, many of the strategies and evolving principles may be directly applicable to the development of vaccines designed to prevent sexually transmitted diseases.
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