Stability and commitment in T helper cell development.

Specialized effector activities that are required to eliminate various pathogens involve cytokines produced by specialized CD4(+) T cells subsets, dogmatically termed Th1 and Th2 cells. Despite some oversimplifications, this paradigm is useful for organizing the complex pathways that control forward and backward movements along the road of T cell differentiation. Effective immune memory relies, in part, on the maintenance of the T helper phenotype. This review will address basic issues that relate to the maintenance or reversibility of Th1/Th2 states within the CD4(+) T cell lineage.

Signaling and transcription in T helper development.

The recognition of polarized T cell subsets defined by cytokine production was followed by a search to define the factors controlling this phenomenon. Suitable in vitro systems allowed the development of cytokine "recipes" that induced rapid polarization of naïve T cells into Th1 or Th2 populations. The next phase of work over the past several years has begun to define the intracellular processes set into motion during Th1/Th2 development, particularly by the strongly polarizing cytokines IL-12 and IL-4. Although somewhat incomplete, what has emerged is a richly detailed tapestry of signaling and transcription, controlling an important T cell developmental switch. In addition several new mediators of control have emerged, including IL-18, the intriguing Th2-selective T1/ST2 product, and heterogeneity in dendritic cells capable of directing cytokine-independent Th development.

Consequences of intrathymic TCR engagement by partial agonist on selection events and peripheral T cell activation program.

Functions elicited from mature T cells depend on the nature of the Ag. Thus, an agonist induces a larger set of cytokine responses than a partial agonist. Additionally, Ags present in the thymus influence both the selection of TCRs generated by gene rearrangement and the potential functional program of developing thymocytes. This can be approached by analysing the development of T cells in mice expressing the same transgenic TCR (tgTCR) under different conditions of intrathymic selection. H-2Kbm8 was found to act as a partial agonist for CD8+ T cells expressing a tgTCR specific for the H-2Kb alloantigen. Intrathymic exposure to full or to partial agonist affected the development of thymocytes at different stages, consistent with the respective CD8-independent and -dependent characteristic of the tgTCR/Ag interaction. The presence of the partial agonist led to the accumulation of a major population of thymocytes (tgTCR(high) CD4- CD8(low)) originating from TCR engagement at the immature single-positive CD8(low) stage as evidenced by: 1) results from reaggregated thymic organ culture in the presence of H-2(k/bm8) thymic stromal cells; 2) the absence of CD4+ thymocytes, the development of which depends on rearrangements of endogenous TCR alpha genes; and 3) the identification of the CD8(low) thymocytes as cycling cells. Peripheral CD8(low) T cells selected in an H-2(k/bm8) thymus expressed a partial functional program in response to H-2Kb, akin to the response of CD8(high) T cells to a partial agonist. The analysis of the molecular bases for partial reactivity revealed a correlation with inefficient AP-1, but efficient NF-kappaB transactivation.

Class I- and class II-reactive TCRs coexpressed on CD4+ T cells both trigger CD4/CD8-shared and CD4-unique functions.

CD4+ and CD8+ T cells emerge from thymic selection expressing a TCR restricted by MHC class II (TCRII) and MHC class I (TCRI), and upon Ag stimulation develop respectively into Th and CTL effector cells. The influence of thymic differentiation and antigenic stimulation on the determination of T cell functions was studied, with CD4+ T cells expressing a transgenic TCRI that reacts with the class I alloantigen H-2K(b) in a CD8-independent fashion. Such T cells additionally express a TCR, probably TCRII, in which the transgenic TCR beta-chain is associated with endogenously rearranged TCR alpha-chains. Upon in vitro stimulation with H-2K(b)-expressing cells, both CD8+ and CD4+ transgenic TCR+ T cells developed into CTL capable of killing Ag-expressing target cells through a perforin-dependent mechanism, and secreted IL-2 and IFN-gamma. Fas ligand-dependent killing could also be induced in both CD8+ and CD4+ in vitro stimulated T cells. The capacity to secrete IL-4 was restricted to the CD4+ T cells, however, suggesting that both CD8/CD4-shared and CD4-unique programs can be elicited by stimulation of CD4 T cells through a TCRI. Acquisition of CTL function was also induced upon class II alloantigen stimulation through the endogenously rearranged TCRII, which represents a polyclonal set of TCRs. IL-2, IFN-gamma, and after restimulation, IL-4, were also produced. Thus: 1) events associated with intrathymic selection influence the gene program activated in response to the same TCRI/APC interaction; and 2) CD4+ T cells expressing a TCRI and a TCRII can activate the same gene program after engagement of either one of these TCRs.