Faculty Bibliography

Recent work has identified a new subset of effector T cells that produces interleukin (IL)-17 known as T helper 17 (Th17) cells, which is involved in the pathophysiology of inflammatory diseases and is thought to be developmentally related to regulatory T (Treg) cells. Because of its importance for Treg cells, we examined the role of IL-2 in Th17 generation and demonstrate that a previously unrecognized aspect of IL-2 function is to constrain IL-17 production. Genetic deletion or antibody blockade of IL-2 promoted differentiation of the Th17 cell subset. Whereas STAT3 appeared to be a key positive regulator of RORgammat and IL-17 expression, absence of IL-2 or disruption of its signaling by deletion of the transcription factor STAT5 resulted in enhanced Th17 cell development. We conclude that in addition to the promotion of activation-induced cell death of lymphocytes and the generation of Treg cells, inhibition of Th17 polarization appears to be an important function of IL-2.

The human pathogen Schistosoma mansoni exhibits a highly evolved and intricate relationship with its host, evading immune destruction while co-opting CD4(+) T cell-driven mechanisms to facilitate parasite development and egg excretion. Because the common gamma ( gamma (c)) chain cytokine interleukin (IL)-7 is also implicated in modulating schistosome development, we investigated whether this effect is mediated indirectly through the essential role that IL-7 plays in CD4(+) T cell growth and survival. We demonstrate that attenuated schistosome development in the absence of IL-7 results from dysregulated T cell homeostasis and not from disruption of direct interactions between schistosomes and IL-7. We also identify an indirect role that another gamma (c) chain cytokine plays in schistosome development, demonstrating that IL-2 expression by CD4(+) T cells is essential for normal parasite development. Thus, cytokines critical for CD4(+) T cell survival and function can mediate indirect but potent effects on developing schistosomes and underscore the importance of CD4(+) T cells in facilitating schistosome development.

This review discusses the roles played by natural CD4+ CD25+ regulatory T cells (natural Tregs) during parasitic infections. Natural Tregs may limit the magnitude of effector responses, which may result in failure to adequately control infection. However, natural Tregs also help to limit collateral tissue damage caused by vigorous antimicrobial immune responses. We discuss the hypothesis that parasites have evolved means to manipulate the host's natural Treg population, thereby generating conditions that secure survival in their vertebrate host for an extended period of time.

Alpha2-macroglobulin is a major serum protein with diverse functions, including inhibition of protease activity and binding of growth factors, cytokines, and disease factors. We have cloned and characterized Panza, a new Xenopus laevis alpha2-macroglobulin. Panza has 56-60% amino acid similarity with previously identified Xenopus, mouse, rat and human alpha2-macroglobulins, indicating that Panza is a new member of the alpha2-macroglobulin family. Panza mRNA is first detected at the beginning of neurulation in the dorsal endoderm lining the primitive gut (archenteron roof). At the completion of neurulation and continuing through the late tadpole stage, Panza is restricted to a dorsal domain of the gut endoderm adjacent to the notochord and extending along the entire anterior-posterior axis. With outgrowth of the tailbud, Panza expression persists in the chordaneural hinge at the posterior end of the differentiating notochord and extends into the floor plate of the posterior neural tube. As gut coiling commences, Panza expression is initiated in the liver, and the dorsal domain of Panza expression becomes limited to the midgut and hindgut. With further gut coiling, strong Panza expression persists in the liver, but is lost from other regions of the gut. The expression of Panza in endodermal cells adjacent to the notochord points to a potential role for Panza in signal modulation and/or morphogenesis of the primitive gut.

Identification and analysis of Clan CA (papain) cysteine proteases in primitive protozoa and metazoa have suggested that this enzyme family is more diverse and biologically important than originally thought. The protozoan parasite Trypanosoma brucei is the etiological agent of African sleeping sickness. The cysteine protease activity of this organism is a validated drug target as first recognized by the killing of the parasite with the diazomethane inhibitor Z-Phe-Ala-CHN(2) (where Z is benzyloxycarbonyl). Whereas the presumed target of this inhibitor was rhodesain (also brucipain, trypanopain), the major cathepsin L-like cysteine protease of T. brucei, genomic analysis has now identified tbcatB, a cathepsin B-like cysteine protease as a possible inhibitor target. The mRNA of tbcatB is more abundantly expressed in the bloodstream versus the procyclic form of the parasite. Induction of RNA interference against rhodesain did not result in an abnormal phenotype in cultured T. brucei. However, induction of RNA interference against tbcatB led to enlargement of the endosome, accumulation of fluorescein isothiocyanate-transferrin, defective cytokinesis after completion of mitosis, and ultimately the death of cultured parasites. Therefore, tbcatB, but not rhodesain, is essential for T. brucei survival in culture and is the most likely target of the diazomethane protease inhibitor Z-Phe-Ala-CHN(2) in T. brucei.

CD4(+) T cell responses and macrophage activation are essential components of schistosome egg-induced granuloma formation. Previous studies implicated tumour necrosis factor (TNF) as a potential mediator of macrophage recruitment and activation during schistosome infection. Here we demonstrate that signalling by TNF and its receptors can influence granuloma formation, but is ultimately dispensable for granuloma formation in this system. However, we identify a previously unrecognised role for TNF in limiting hepatocellular damage in response to schistosome eggs. Further, we show that this activity of TNF is independent of TNF receptors (TNFR1 and TNFR2). Taken together, these data suggest that additional, as yet unrecognised receptors exist for TNF and that these receptors are capable of mediating important pathological effects in the liver. Finally, we provide evidence that TNF plays an unexpected role in maintaining adult schistosome viability in the portal system.