TCRbeta enhancer activation in early and late lymphoid progenitors.

An earlier report from our laboratory indicates that the activation of the T cell receptor (TCR) beta enhancer (Ebeta) is not always an indicator of T lineage potential in bone marrow-resident pre-lymphocytes. In order to more precisely investigate the consequences of Ebeta activation in lymphopoiesis, a genetic reporter animal, in which the expression of green fluorescent protein (GFP) is controlled by Ebeta, was used to examine two well-defined lymphopotent populations. Adoptive transfer experiments suggest that primitive lymphoid precursor populations (specifically, hematopoietic stem cells) consist of two discrete-populations discernible by Ebeta-GFP activation, although the two populations display no overt differences in lineage potential. In contrast, subsets of more differentiated pre-lymphocytes (specifically, common lymphoid progenitors), while also discernible by Ebeta-GFP activation, display different capacities for reconstituting lymphoid compartments. Interestingly, late lymphoid progenitors containing inactive Ebeta elements generated both T and B cells in vivo, in accord with the original description of this population; however, progenitors containing active Ebeta elements displayed an unexpected bias toward the B lineage. Our findings suggest that Ebeta activation is an indicator of B lineage specification in late, but not early lymphoid precursors.

Inhibitory receptor gp49B regulates eosinophil infiltration during allergic inflammation.

gp49B, an Ig-like receptor, negatively regulates the activity of mast cells and neutrophils through cytoplasmic immunoreceptor tyrosine-based inhibition motifs. To characterize the role of gp49B further in vivo, gp49B-deficient mice were tested in two allergic models. Responses to ragweed (RW) challenge in the lung and conjunctiva were assessed in models of allergic inflammation and during an infection with parasitic larvae of the nematode Ascaris suum. Infiltration by inflammatory cells into the lung during allergic responses was under negative control of the inhibitory receptor gp49B. Furthermore, an increase in conjunctival inflammation with a predominance of eosinophils, neutrophils, and degranulated mast cells was observed in RW-sensitized, gp49B-deficient mice, which had been challenged in the eye, as compared with C57BL/6 wild-type (WT) controls. Finally, an increase in allergic inflammation in the lungs of A. suum-infected, RW-sensitized mice was observed upon RW challenge, as compared with C57BL/6 WT controls. The observed influx of eosinophils into mucus membranes is characteristic of allergic asthma and allergic conjunctivitis and may contribute to airway hyper-responsiveness, airway remodeling, and mucus production. Expression of gp49B was detected on peripheral eosinophils of control mice and on eosinophils from lungs of mice treated with RW, suggesting a role for gp49B on eosinophils in dampening allergic inflammatory responses.

Ascaris suum-derived products suppress mucosal allergic inflammation in an interleukin-10-independent manner via interference with dendritic cell function.

We have previously demonstrated that protection from allergic inflammation by Ascaris suum infection was characterized by a global increase in interleukin-10 (IL-10) and the development of protective CD4(+)/CD25(+) T cells (L. Schopf, S. Luccioli, V. Bundoc, P. Justice, C. C. Chan, B. J. Wetzel, H. H. Norris, J. F. Urban, Jr., and A. Keane-Myers, Investig. Ophthalmol. Vis. Sci. 46:2772-2780, 2005). Here, we used A. suum pseudocoelomic fluid (PCF) in lieu of infection to define molecular mechanisms of allergic protection in a mouse model of allergic inflammation. Mice were sensitized with ragweed (RW) and PCF (RW/PCF), PCF alone, or RW alone and then challenged intratracheally, intranasally, and supraocularly with RW. Histological examination of the eyes and lungs, analysis of the bronchoalveolar lavage fluid (BALF), and characterization of ex vivo cytokine responses were performed to determine allergic inflammatory responses. RW/PCF-treated mice had suppressed allergic immune responses compared to mice given RW alone. To investigate whether IL-10 was involved in PCF-mediated allergic protection, similar experiments were performed using mice genetically deficient for IL-10. Persistent protection from allergic disease was observed in the absence of IL-10, indicating the primary mechanism of PCF protection is IL-10 independent. Ex vivo and in vitro analysis of PCF-treated dendritic cells (DC) demonstrated reduced activation receptor expression and cytokine production in response to either RW or lipopolysaccharide stimulation. These findings extend previous studies that showed infection with A. suum alters expression of allergic disease and suggest that PCF can contribute to this effect by interference with DC function.

Differential modulation of allergic eye disease by chronic and acute ascaris infection.

PURPOSE: To assess alterations in allergic ocular responses to nonparasite antigens in an experimental system in which mice were skewed toward a Th2 cytokine profile by helminth infection. METHODS: Mice were inoculated with Ascaris suum (A. suum) eggs concurrent with ragweed (RW) sensitization (RW/acute) or by repeated inoculation before RW sensitization (RW/chronic). Control subjects were divided into RW, A. suum, and sham-sensitized groups. Animals were RW-challenged in the eye and examined for changes in ocular responses, inflammatory cell infiltrates, and in vitro assessment of cytokines after antigen restimulation. In subsequent experiments, CD4(+)/CD25+ T regulatory and CD4(+)/CD25- control T cells were adoptively transferred into mice before ocular challenge. RESULTS: RW sensitization and challenge increased ocular symptoms and eosinophil infiltration into the conjunctiva over PBS control eyes. Acute A. suum infection significantly increased RW-induced clinical symptoms and eosinophil infiltrates in the conjunctiva (P = 0.0001) and resulted in the development of anterior uveitis. In contrast, RW/chronic infection provided protection from allergic responses to RW with significantly fewer eosinophils in the eye and reduced eotaxin levels. Transfer of CD4(+)/CD25+ T cells from RW/chronic mice into RW/acute animals also decreased disease intensity, suggesting that T regulatory cells may contribute to protection from allergic eye disease. CONCLUSIONS: The current studies suggest acute parasitic infections exacerbate allergic symptoms, whereas chronic infections offer protection and provide possible explanations for the role of parasitic infection in susceptibility and resistance to nonparasite allergens.

Regulation of chronic colitis in athymic nu/nu (nude) mice.

The objective of this study was to assess the roles of NK cells, B cells and/or intraepithelial lymphocytes (IEL) in suppressing the development of colitis in nude mice reconstituted with CD4(+)CD45RB(high) T cells. BALB/c nude mice were lethally irradiated and reconstituted with bone marrow from different immunodeficient mice to generate athymic chimeras devoid of one or more lymphocyte populations. Transfer of CD4(+)C45RB(high) T cells into chimeric recipients devoid of B cells, T cells and IEL produced severe colitis within 6-8 weeks, whereas transfer of these same T cells into B cell- and T cell-deficient or T cell-deficient chimeras produced little to no gut inflammation. In addition, we found that nude mice depleted of NK cells or RAG-1(-/-) mice reconstituted with IEL failed to develop colitis following transfer of CD45RB(high) T cells. Severe colitis could, however, be induced in nude mice by transfer of activated/T(h)1 CD4(+)CD45RB(low) T cells. Taken together, our data suggest that IEL, but not B cells or NK cells, play an important role in suppressing the development of chronic colitis in this model. In addition, our data demonstrate that suppression of disease may be due to polarization of naive CD4(+) cells toward a non-pathogenic and/or regulatory phenotype.

TCRbeta enhancer activation occurs in some but not all cells with T cell lineage developmental potential.

Previous studies have shown that murine bone marrow contains a fraction of CD3(-)/B220(-)/Thy1(lo) cells that have pre T cell activity following adoptive transfer and produce sterile transcripts of the T cell receptor beta chain gene. The relationship between progenitors and TCRbeta transcription has not been examined. Transgenic mice were generated that express green fluorescent protein under the control of the TCRbeta enhancer (Ebeta). Phenotypic analysis of the founders revealed faithful expression of GFP in populations that express TCRbeta transcripts. Examination of the bone marrow showed two populations, CD3(-)/B220(-)/Thy1(-) and CD3(-)/B220(-)/Thy1(lo), which were GFP(+). Both populations were analyzed for their developmental potential following intrathymic transfer into recipient mice. Surprisingly, the GFP(+)/CD3(-)/B220(-)/Thy1(lo) cells failed to reconstitute; however, the GFP(+)/CD3(-)/B220(-)/Thy1(-) cells exhibited thymic repopulation. These data demonstrate that Ebeta is active pre-thymically; however, pre-thymic transcription of the TCRbeta chain gene is neither required for T cell development, nor is it limited to pre T cells.