We describe a reporter mouse strain designed to fate-map cells that have activated IL-17A. Here we show that TH17 cells show distinct plasticity in different inflammatory settings. Chronic inflammatory conditions in EAE caused a switch to alternative cytokines in TH17 cells, whereas acute cutaneous infection with Candida albicans, did not result in deviation of TH17 to alternative cytokine production, although IL-17A production was shut off in the course of the infection. During development of EAE, IFN-γ and other pro-inflammatory cytokines in the spinal cord were produced almost exclusively by ‘ex-TH17’ cells whose conversion was driven by IL-23. Thus, this model allows relating the actual functional fate of effector T cells to TH17 developmental origin irrespective of IL-17 expression.
Bacteriophage P1 Cre/loxP based systems can be used to manipulate the genomes of mice in vivo and in vitro, allowing the generation of tissue‐specific conditional mutants. Wehave generated mouse lines expressing Cre recombinase in hematopoietic tissues using the vav regulatory elements, or in lymphoid cells using the hCD2 promoter and locus control region (LCR). The R26R‐EYFP Cre reporter mouse line was used to determine the pattern of Cre expression in each line and enabled the assessment of Cre activity at a single‐cell level. Analysis showed that the vav promoter elements were able to direct Cre‐mediated recombination in all cells of the hematopoietic system. The hCD2 promoter and LCR on the other hand were able to drive Cre‐mediated recombination only in T cells and B cells, but not in other hematopoietic cell types. Furthermore, in the appropriate tissues, deletion of the floxed target was complete in all cells, thereby excluding the possibility of variegated expression of the Cre transgene. Both of these Cre‐transgenic lines will be useful in generating tissue‐specific gene deletions within all the cells of hematopoietic or lymphoid tissues.
Interleukin 9 (IL-9) is a cytokine implicated in lung inflammation, but its cellular origin and function remain unclear. Here we describe a reporter mouse strain designed to fate map cells that have activated IL-9. We show that during papain-induced lung inflammation IL-9 production was largely restricted to innate lymphoid cells (ILC). IL-9 production by ILC was dependent on IL-2 from adaptive immune cells and was rapidly lost in favor of other cytokines, such as IL-13 and IL-5. Blockade of IL-9 production via neutralizing antibodies substantially reduced IL-13 and IL-5, suggesting that ILC provide the missing link between the well-established functions of IL-9 on the regulation of TH2 cytokines and responses.
Human CD2 locus control region (LCR) sequences are shown here to be essential for establishing an open chromatin configuration. Transgenic mice carrying an hCD2 mini-gene attached only to the 3' CD2 transcriptional enhancer exhibited variegated expression when the transgene integrated in the centromere. In contrast, mice carrying a transgene with additional 3' sequences showed no variegation even when the latter integrated in centromeric positions. This result suggests that LCRs operate by ensuring an open chromatin configuration and that a short region, with no enhancer activity, functions in the establishment, maintenance, or both of an open chromatin domain.
Summary
T helper 17 (Th17) cells are pathogenic in many inflammatory diseases, but also support the integrity of the intestinal barrier in a non-inflammatory manner. It is unclear what distinguishes inflammatory Th17 cells elicited by pathogens and tissue-resident homeostatic Th17 cells elicited by commensals. Here, we compared the characteristics of Th17 cells differentiating in response to commensal bacteria (SFB) to those differentiating in response to a pathogen (
Citrobacter rodentium
). Homeostatic Th17 cells exhibited little plasticity towards expression of inflammatory cytokines, were characterized by a metabolism typical of quiescent or memory T cells, and did not participate in inflammatory processes. In contrast, infection-induced Th17 cells showed extensive plasticity towards pro-inflammatory cytokines, disseminated widely into the periphery, and engaged aerobic glycolysis in addition to oxidative phosphorylation typical for inflammatory effector cells. These findings will help ensure that future therapies directed against inflammatory Th17 cells do not inadvertently damage the resident gut population.
To investigate the temporal regulation of the commitment of immature thymocytes to either the CD4(+) or the CD8(+) lineage in the thymus, we developed a transgenic mouse that expressed a tetracycline-inducible gene encoding the tyrosine kinase zeta chain-associated protein kinase of 70 kD (Zap70), which restored development in Zap70(-/-) thymocytes arrested at the preselection, CD4(+)CD8(+) double-positive (DP) stage. After induction of the expression of Zap70 and the production of Zap70 protein, CD4(+) single-positive (SP) cells that expressed Zbtb7b (which encodes the CD4(+) T cell-associated transcription factor ThPOK) became abundant within 30 hours, whereas CD8(+) SP cells were not detectable until day 4. We found that mature CD4(+) and CD8(+) cells arose from phenotypically distinct subsets of DP thymocytes that developed with different kinetics and contrasting sensitivities to stimulation of the T cell antigen receptor (TCR). In wild-type mice, expression of endogenous Zap70 progressively increased during maturation of the DP subsets, and the abundance of Zap70 protein determined the sensitivity of the cells to stimulation of the TCR. This temporal gradient in the amount of Zap70 protein enabled the selection of CD4(+) and CD8(+) repertoires in separate temporal windows and at different TCR signaling thresholds, thereby facilitating discrimination of distinct positive selection signals in these lineages.
Ikaros family members are important regulatory factors in lymphocyte development. Here we show that Ikaros may play an important role in CD4 versus CD8 lineage commitment decisions by demonstrating: (1) that it binds to regulatory elements in the endogenous CD8alpha locus in vivo using thymocyte chromatin immunoprecipitations, (2) that Ikaros suppresses position effect variegation of transgenes driven by CD8 regulatory elements, and (3) that mice with reduced levels of Ikaros and Aiolos show an apparent increase in CD4 populations with immature phenotype, i.e., cells that failed to activate the CD8alpha gene locus. We propose that Ikaros family members function as activators of the CD8alpha gene locus and that their associated activities are critical for appropriate chromatin remodeling transitions during thymocyte differentiation and lineage commitment.
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