Memory/effector T cells in TCR transgenic mice develop via recognition of enteric antigens by a second, endogenous TCR.

The majority of clonotypic CD4(+) T cells in the intestinal lamina propria of DO11.10 TCR transgenic mice have an activated/memory phenotype and produce effector cytokines despite the absence of prior exposure to ovalbumin (OVA), the transgene-specific antigen. A small number of splenic T cells have a similar phenotype. Clonotypic T cells from Peyer's patch are intermediate in both phenotype and effector cytokine production. Flow cytometric analysis of cells isolated from thymectomized, OVA-naive DO11.10 mice treated with continuous administration of BrdU indicated that a significant fraction of clonotype-positive T cells in the lamina propria and Peyer's patch were in the cell cycle, with significantly fewer cycling cells in the spleen. Most of the cycling cells from each anatomic site expressed low levels of CD45RB. Effector cytokine expression was enriched in the CD45RB(low) populations. These memory/effector cell populations were eliminated in DO11.10/SCID and DO11.10/RAG-2(-/-) mice, suggesting that recognition of non-OVA antigens through a second, non-clonotypic TCR was driving differentiation of memory/effector cells in naive BALB/c DO11.10 mice. Clonotypic CD4(+) T cells isolated from DO11.10, but not from DO11.10/SCID or DO11.10/RAG-2(-/-) mice, were stimulated to enter the cell cycle by antigen-presenting cells pulsed with an intestinal bacterial antigen extract. These data provide direct evidence that enteric bacterial antigens can activate transgenic T cells through a second, non-clonotypic TCR, and support the notion that the development and turnover of memory/effector cells in vivo is driven by the intestinal flora.

Heterogeneity in the clonal T cell response. Implications for models of T cell activation and cytokine phenotype development.

The T cell can be defined in the context of two properties--the recognition specificity of the T cell receptor (TCR) heterodimer and the functional response of the T cell after TCR stimulation. Once a particular TCR heterodimer is expressed and successfully selected during thymic development, the antigen specificity is fixed for all the clonal progeny of that cell. In contrast, the potential functional responses that may be generated in response to specific antigen in the postthymic environment are quite extensive. These range from programmed cell death to initiation of alternate programs of phenotype development that generate effector populations with distinct cytokine expression patterns and regulatory properties. Recent advances in analytical methods that have permitted multiparametric characterizations of the T cell response at the single cell, rather than population level, have necessitated a modified view of T cell activation and the clonal T cell response, and have generated new insights into the regulation of immunity. In this brief review, we highlight studies that have characterized heterogeneity of the CD4+ T cell clonal response based on single-cell analyses, and discuss implications for models of T cell activation and cytokine phenotype development.

Relationship-specific and global perceptions of social support: associations with well-being and attachment.

Is one's global sense of social support largely a summation of the support perceived to exist within current social relationships, or is it a trait-like construct independent of current support levels? To address this issue, 183 college students completed measures of global support, support from four different social domains, attachment style, and several measures of well-being. Hierarchical regression analyses revealed that for two well-being measures (global and social loneliness), both global and domain support displayed significant unique associations; for emotional loneliness, only domain support had a significant unique influence. For the well-being measure reflecting generalized negative affect, only global support displayed such a unique association. Thus, global and domain support appear to be, to a considerable degree, independent constructs, each with its own sphere of influence in affecting well-being.

Visualization of antigen-specific T cell activation and cytokine expression in vivo.

A transgenic TCR adoptive transfer system was used to visualize Ag-specific T cell activation and cytokine expression in vivo. After s.c. injection of peptide in adjuvant the entire Ag-specific population up-regulated IL-2 receptor alpha-chain expression, underwent blast transformation, and developed a memory-surface phenotype. A minority of the Ag-specific T cells produced predominantly IL-2 mRNA and localized at the T cell/B cell junction in draining lymph nodes. In the secondary response, a mixed cytokine pattern of both Th1 and Th2 cytokines was demonstrated. When peptide was administered i.v. without adjuvant, 50% of the Ag-specific cells expressed IL-2, but the peak of expression occurred before IL-2 receptor alpha-chain up-regulation, and only a minority of the Ag-specific T cells underwent blast transformation.

Relationship between tumor necrosis factor alpha and feline immunodeficiency virus expressions.

The presence of feline immunodeficiency virus (FIV) proviral DNA, expression of FIV p26 core protein, and production of tumor necrosis factor alpha (TNF-alpha) were assessed in sequential biopsies of spleen and lymph node sections, of mononuclear cells of the peripheral blood, and of the serum of specific-pathogen-free cats during the acute phase of FIV infection. A temporal relationship between TNF-alpha production and FIV p26 expression was noted. Two months following FIV infection, and preceding the detection of FIV viremia, levels of TNF-alpha in serum increased significantly (P = 0.04), and they remained elevated during FIV viremia in the third month postinfection. Immunoprecipitates representing expression of TNF-alpha and of FIV p26 were localized in common foci of lymph nodes of FIV-infected cats during this period of active viremia. With the advent of anti-FIV antibodies, circulating levels of TNF-alpha and p26 antigen and expression of TNF-alpha and p26 in the lymph nodes decreased during the fifth month postinfection, and p26 production became undetectable. With clearance of viremia, burden of proviral DNA in peripheral blood mononuclear cells became reduced (P = 0.041), with provirus remaining integrated principally within lymph nodes (P = 0.046). During aviremia, p26 expression was undetectable in any tissue but remained inducible in vitro. During acute FIV infection, TNF-alpha production and p26 expression are intimately linked.

Dehydroepiandrosterone inhibits replication of feline immunodeficiency virus in chronically infected cells.

Dehydroepiandrosterone (DHEA) is a steroid hormone produced by the adrenal cortex that serves as an intermediary in sex steroid synthesis. DHEA is produced in abundance by humans and most other warm-blooded animals. Based upon previous reports demonstrating the antiviral and immunostimulatory activities of DHEA and DHEA-sulfate (DHEAS) we sought to determine whether introduction of these compounds would affect replication of feline immunodeficiency virus (FIV) in chronically infected cells. When cell number, cell viability, cellular DNA synthesis, and levels of FIV reverse-transcriptase (RT) were measured in cell cultures treated with various dilutions of DHEA or DHEAS it was found that the production of FIV RT was inhibited by DHEA at levels where cellular viability and DNA synthesis were not affected. At the concentrations tested DHEAS did not inhibit FIV replication or impact on cellular viability or proliferation.