Alan S. Graeff

The NCBI dbGaP database of genotypes and phenotypes

The National Center for Biotechnology Information has created the dbGaP public repository for individual-level phenotype, exposure, genotype and sequence data and the associations between them. dbGaP assigns stable, unique identifiers to studies and subsets of information from those studies, including documents, individual phenotypic variables, tables of trait data, sets of genotype data, computed phenotype-genotype associations, and groups of study subjects who have given similar consents for use of their data.

Mucosal T cells provide helper function but do not proliferate when stimulated by specific antigen in lymphogranuloma venereum proctitis in nonhuman primates

To study antigen-specific immune responses of gut-associated T lymphocytes after gastrointestinal infection, Cynomolgus monkeys were inoculated rectally with Chlamydia trachomatis of the L2 [lymphogranuloma venereum (LGV)] strain. Infected monkeys developed a chronic proctitis with the appearance of LGV-specific immunoglobulin G-antibodies in the serum. Lymphocytes isolated from the peripheral blood, the spleen, and draining lymph nodes had a vigorous antigen-specific proliferative response to LGV in vitro. Both T and B cells proliferated in response to stimulation with LGV, but B-cell proliferation was T-cell-dependent, as shown by cell separation techniques and cell-cycle analysis with dual-laser flow cytometry. Lymphocytes isolated from both involved and uninvolved lamina propria did not proliferate in response to LGV stimulation, whereas mitogen-induced proliferation was not different in lamina propria lymphocytes and the other lymphocyte populations. This lack of antigen-specific proliferation was not caused by a suppressor effect of mucosal T cells or monocytes or the absence of antigen-presenting cells. In contrast, lamina propria T lymphocytes from infected animals were able to provide antigen-specific help for polyclonal immunoglobulin synthesis by immune B lymphocytes after stimulation with LGV. Thus, in LGV proctitis in monkeys, mucosal antigen-reactive T cells differ from lymphocytes in other sites in that they can provide helper function, but are not able to proliferate in response to LGV antigens.

Antigen presentation by macrophage-enriched cells from the mouse Peyer's patch

Abstract Macrophage-enriched cells derived from Peyers patches were prepared with or without preincubation of whole patches in collagenase-containing medium. The cells thus obtained were pulsed with ovalbumin (OVA), added to OVA-primed whole lymph node (LN) cells or LN T cells and proliferative responses stimulated in the latter cells were assessed after 5 days by thymidine incorporation. Macrophage-enriched cells obtained from Peyers patches (PP) preincubated with collagenase presented antigen as well or better than macrophage-enriched cells obtained from spleens. In contrast, macrophage-enriched cells obtained from PP which were not preincubated with collagenase were frequently unable to function as antigen-presenting cells. In further studies, macrophage-enriched cells obtained from mice which had been fed OVA were found to be capable of stimulating antigen-primed LN T cells in an antigen-specific manner without further exposure to antigen in vitro . These results indicate PP macrophage-enriched cells are fully capable of supporting the induction of immune responses in vitro and that macrophages from PP of orally primed mice may present antigen without further antigen exposure. Thus macrophages in PP may participate in the induction of immune responses to gastrointestinal antigens in vivo .

Predominance of helper-inducer T cells in mesenteric lymph nodes and intestinal lamina propria of normal nonhuman primates

To define the characteristics of T cells associated with the gastrointestinal tract, the phenotypes and immunoregulatory function of T cells from mesenteric lymph node (MLN) and lamina propria lymphocytes (LPL) were compared to peripheral blood (PBL) and spleen lymphocytes in normal nonhuman primates. Mesenteric lymph node lymphocytes were characterized by a higher proportion of Leu-3+(CD4+) and 9.3+(alpha-Tp44) lymphocytes and a lower proportion of Leu-2+(CD8) lymphocytes than lymphocytes in other sites. LPL and MLN lymphocytes were both characterized by a higher proportion of cells having the helper-inducer phenotypes (Leu-3+, Leu-8+, Leu-3+, 2H4+) compared to PBL. A lower proportion of cells with the suppressor-inducer phenotypes (Leu-3+, Leu-8+, Leu-3+, 2H4+) was found in LPL, but not in MLN lymphocytes compared to PBL. In studies of the Leu-2+ T cells, it was found that whereas PBL, spleen, and LPL contained approximately equal proportions of Leu-2+, Leu-15+ (suppressor phenotype) and Leu-2+, 9.3+ lymphocytes (cytolytic T-cell phenotype), the MLN T cells were predominantly Leu-2+, 9.3+. Furthermore, the Leu-3/Leu-2 ratio was significantly higher in MLN compared to other sites. In pokeweed mitogen-stimulated cultures, the highest helper function for Ig synthesis was found in MLN. Cells from none of the sites studied showed evidence of increased suppressor cell activity. These results show that MLN and LPL T cells in normal nonhuman primates differ from T cells in peripheral blood and spleen. While both MLN and LPL have a high proportion of T cells with the helper-inducer phenotype, cells with the suppressor-effector phenotype are infrequent in MLN, while cells with the suppressor-inducer phenotype are infrequent in LPL.

Spontaneous and lymphokine-induced cytotoxic activity of monkey intestinal mucosal lymphocytes

We determined the capacity of primate (macaque monkey) intestinal mucosal lymphocytes to mediate natural killer cytotoxicity, and characterized the nature of cells mediating this form of cytotoxicity in the intestine. Isolated macaque monkey intestinal mucosal lymphocytes were found to have intermediate levels of spontaneous cytotoxicity against K562 target cells compared to higher values found in lymphocytes of peripheral blood (PBL) and spleen and low values for mesenteric lymph node (MLN) lymphocytes. Intestinal lymphocytes were similar to PBL in having the same range of target cell specificites, in having augmentation of activity by interferon or interleukin 2, and in demonstrating specificity in cold target inhibition studies. Both intestinal and PBL spontaneous cytotoxic function in primates was mediated predominantly by cells bearing antigens cross-reactive with the anti-human monoclonal antibody Leu-11. The percentage of Leu-11+ lymphocytes was significantly lower in isolated intestinal, spleen, and MLN lymphocytes compared to peripheral blood. Furthermore, isolated intestinal lymphocytes differed from PBL in that intestinal Leu-11+ were predominantly Leu-15-, while Leu-11+ PBL were predominantly Leu-15+. These studies demonstrate that the lower spontaneous cytotoxic function of intestinal mucosal lymphocytes compared to PBL is associated with a lower number of effector cells and with effector cells which differ qualitatively in expression of the Leu-15 antigen.

Oral administration of cyclosporin does not prevent expansion of antigen-specific, gut-associated, and spleen lymphocyte populations duringChlamydia trachomatis proctitis in nonhuman primates

To study the effects of oral cyclosporin (CsA) administration on immune responses in the gastrointestinal tract, humoral and cellular immune responses were studied in CsA-treated nonhuman primates having Chlamydia trachomatis proctitis (lymphogranuloma venereum, LGV). There was no apparent effect of CsA treatment on the gross or microscopic appearance of LGV proctitis, but CsA-treated animals, with or without LGV infection, had lymphoid hyperplasia of spleen and mesenteric lymph nodes. CsA treatment inhibited the primary antibody response to LGV, inhibited peripheral blood lymphocyte mitogen-induced proliferation and IL-2 production, and inhibited LGV-specific proliferation of peripheral blood lymphocytes. In contrast, mitogen-stimulated proliferation of spleen, mesenteric lymph node, and lamina propria lymphocytes was not significantly inhibited in CsA-treated animals. In addition, LGV-specific proliferation of spleen and mesenteric lymph node lymphocytes was not inhibited. High mitogen-stimulated IL-2 production of lamina propria lymphocytes was only partially inhibited in CsA-treated animals. In vitroCsA treatment had the expected inhibitory effects on mitogen- and antigen-induced proliferation of spleen and mesenteric lymph node lymphocytes. Thus, although oral cyclosporin inhibits the antibody and proliferative responses of peripheral blood lymphocytes to antigens and mitogens in animals having Chlamydia trachomatis proctitis, it does not prevent the expansion of antigen-specific, gut-associated, and spleen lymphocyte populations.