Project description:Investigation of the role of FOXP3 in CD4+ T effector cells. FOXP3 is transiently upregulated in T effector cells under activation. This temporary expression in Teff cells is insufficient to suppress expression of reported targets of FOXP3 repressor activity. The role of FOXP3 in T effector cells remains unclear. We used microarray analysis to detail the differentially expressed genes between FOXP3 wild type and 2T>C(mut) clones and identified classes of up-regulated or down-regulated genes based upon FOXP3 expression. We used T effector cells from one IPEX disease carrier mother that consist of a mixed population ofFOXP3 wild type and 2T>C(mut) clones. We activated them using anti-CD3, anti-CD28. We compareFOXP3 wild type and 2T>Cl clones at different stages: resting phase and activated phase at 72hrs.
Project description:Investigation of the role of FOXP3 in CD4+ T effector cells. FOXP3 is transiently upregulated in T effector cells under activation. This temporary expression in Teff cells is insufficient to suppress expression of reported targets of FOXP3 repressor activity. The role of FOXP3 in T effector cells remains unclear. We used microarray analysis to detail the differentially expressed genes between FOXP3 wild type and 2T>C(mut) clones and identified classes of up-regulated or down-regulated genes based upon FOXP3 expression.
Project description:We challenge bristol strain (wild-type), metl-9 KO strain (short as KO, has a 101bp insertion, leads to a truncated protein of 258aa) and metl-9 catalytic-activity mutated strain (short as mut, has N172K, D274G mutations in full-length protein) with P.aeruginosa (P.A14), and observe a discrepant transcriptome pattern between wild-type and KO/mut strains. Plenty of innate immune response genes show different expression patterns upon P.A14 infection between the wild-type strain and KO/mut strain. It indicates the important role of metl-9 and 6mA in worm innate immune response modulation.