Oral vaccine models: multiple delivery systems employing tetanus toxoid.

We have not yet directly examined the Th cell responses induced by using Salmonella/BRD 847 as a vector nor have we performed these experiments following immunization with microspheres. However, production of high serum levels of antigen-specific IgG1 may be indicative of a Th2-type response, whereas high serum levels of IgG2a may reflect a Th1-type response. An important issue in using various oral delivery systems is whether the system(s) employed affects the Th cell response to the same antigen.

Helper Th1 and Th2 cell responses following mucosal or systemic immunization with cholera toxin.

We have used the potent mucosal immunogen cholera toxin (CT) to assess antigen-specific CD4+ T-cell responses, including Th1- and Th2-type cells in mucosa-associated tissues, e.g. Peyer's patches (PP), and systemic tissue, e.

The common mucosal immune system: from basic principles to enteric vaccines with relevance for the female reproductive tract.

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.

Optimizing oral vaccines: induction of systemic and mucosal B-cell and antibody responses to tetanus toxoid by use of cholera toxin as an adjuvant.

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 micrograms of TT given orally with 10 micrograms of CT three times at weekly intervals induced high serum and gastrointestinal tract anti-TT and anti-CT antibody responses.

Helper T cell subsets for immunoglobulin A responses: oral immunization with tetanus toxoid and cholera toxin as adjuvant selectively induces Th2 cells in mucosa associated tissues.

Antigen-specific B cell responses to mucosally delivered proteins are dependent upon CD4-positive T helper (Th) cells, and the frequency of Th1 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.

New perspectives in mucosal immunity with emphasis on vaccine development.

In this review, we have purposely focused on five areas that are currently receiving extensive research attention and will be of major importance for development of mucosal and systemic immunity to oral vaccines. These five areas include the following: (1) helper T-cell (Th) subsets and cytokines for mucosal IgA responses; (2) Th1- and Th2-type subsets in regulation of mucosal IgA responses; (3) antigen uptake and presentation in the mucosal immune system; (4) the importance of memory in mucosal immunity to vaccines; and (5) the determination of whether oral immunization alone induces immunity in all mucosal effector tissues. It is now established that the mucosal immune system can be divided into discrete mucosal inductive sites where vaccines/antigens are encountered and taken up, processed, and presented to B and T cells, and separate areas where immune cells actually function (mucosal effector tissues).

Gingival mononuclear cells from chronic inflammatory periodontal tissues produce interleukin (IL)-5 and IL-6 but not IL-2 and IL-4.

A unique characteristic of the localized inflammatory tissue in the periodontium (e.g., adult periodontitis [AP]) is the accumulation of IgG (IgG1 > IgG2 > IgG3 > or = IgG4) followed by IgA plasma cells (IgA1 > IgA2).

Selective induction of Th2 cells in murine Peyer's patches by oral immunization.

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.

The cytokine-like action of substance P upon B cell differentiation.

B cells respond to a variety of effector molecules that can induce these cells to differentiate. One such molecule is the neuropeptide, substance P (SP). Previous studies have demonstrated the presence of SP receptors on lymphocytes while limited studies have been able to demonstrate the biological significance of their expression.

Induction of T helper cells and cytokines for mucosal IgA responses.

CD4+ Th cells and their derived cytokines play an important role in the regulation of IgA responses in the mucosal immune system. Th1 and Th2 cells induce different Ig isotype and IgG-subclass responses. Further, cytokines produced by Th2-type cells (e.

The regulation of antibody responses by mini-cytokines.

The presence of adrenocorticotropic hormone (ACTH) and substance P (SP) receptors on leukocytes is suggestive that these cells can respond to these ligands. To address this possibility, we have investigated the consequences of ACTH and SP stimulation of B cells. As a result, enhanced immunoglobulin synthesis mimicking an IL-4-like mechanism was noted.

Substance P acts directly upon cloned B lymphoma cells to enhance IgA and IgM production.

The IgA producing murine B lymphoma, CH12.LX.C4.