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Browsing by Author "Hufford, Matthew M."
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Item The development and in vivo function of T helper 9 cells(SpringerNature, 2015-05) Kaplan, Mark H.; Hufford, Matthew M.; Olson, Matthew R.; Department of Pediatrics, IU School of MedicineThe specialized cytokine secretion profiles of T helper (TH) cells are the basis for a focused and efficient immune response. On the 20th anniversary of the first descriptions of cytokine signals that act to differentiate interleukin-9 (IL-9)-secreting T cells, this review focuses on the extracellular signals and transcription factors that promote the development of what we now term TH9 cells, which are characterized by the production of this cytokine. We summarize our current understanding of the contribution of TH9 cells to both effective immunity and immunopathological disease and propose that TH9 cells could be targeted for the treatment of allergic and autoimmune disease.Item The effector T cell response to influenza infection(Springer, 2015) Hufford, Matthew M.; Kim, Taeg S.; Sun, Jie; Braciale, Thomas J.; Department of Pediatrics, IU School of MedicineInfluenza virus infection induces a potent initial innate immune response, which serves to limit the extent of viral replication and virus spread. However, efficient (and eventual) viral clearance within the respiratory tract requires the subsequent activation, rapid proliferation, recruitment, and expression of effector activities by the adaptive immune system, consisting of antibody producing B cells and influenza-specific T lymphocytes with diverse functions. The ensuing effector activities of these T lymphocytes ultimately determine (along with antibodies) the capacity of the host to eliminate the viruses and the extent of tissue damage. In this review, we describe this effector T cell response to influenza virus infection. Based on information largely obtained in experimental settings (i.e., murine models), we will illustrate the factors regulating the induction of adaptive immune T cell responses to influenza, the effector activities displayed by these activated T cells, the mechanisms underlying the expression of these effector mechanisms, and the control of the activation/differentiation of these T cells, in situ, in the infected lungs.Item ERG functionally overlaps with other Ets proteins in promoting TH9 cell expression of Il9 during allergic lung inflammation(American Association of Immunologists, 2023) Kharwadkar, Rakshin; Ulrich, Benjamin J.; Chu, Michelle; Koh, Byunghee; Hufford, Matthew M.; Fu, Yongyao; Birdsey, Graeme M.; Porse, Bo T.; Randi, Anna M.; Kaplan, Mark H.; Biochemistry and Molecular Biology, School of MedicineCD4+ TH cells develop into subsets that are specialized in the secretion of particular cytokines to mediate restricted types of inflammation and immune responses. Among the subsets that promote development of allergic inflammatory responses, IL-9-producing TH9 cells are regulated by a number of transcription factors. We have previously shown that the E26 transformation-specific (Ets) family members PU.1 and Ets translocation variant 5 (ETV5) function in parallel to regulate IL-9. In this study we identified a third member of the Ets family of transcription factors, Ets-related gene (ERG), that mediates IL-9 production in TH9 cells in the absence of PU.1 and ETV5. Chromatin immunoprecipitation assays revealed that ERG interaction at the Il9 promoter region is restricted to the TH9 lineage and is sustained during murine TH9 polarization. Knockdown or knockout of ERG during murine or human TH9 polarization in vitro led to a decrease in IL-9 production in TH9 cells. Deletion of ERG in vivo had modest effects on IL-9 production in vitro or in vivo. However, in the absence of PU.1 and ETV5, ERG was required for residual IL-9 production in vitro and for IL-9 production by lung-derived CD4 T cells in a mouse model of chronic allergic airway disease. Thus, ERG contributes to IL-9 regulation in TH9 cells.Item PU.1 expression in T follicular helper cells limits CD40L-dependent germinal center B cell development.(American Association of Immunologists, 2015-10-15) Awe, Olufolakemi; Hufford, Matthew M.; Wu, Hao; Pham, Duy; Chang, Hua-Chen; Jabeen, Rukhsana; Dent, Alexander L.; Kaplan, Mark H.; Department of Microbiology and Immunology, IU School of MedicinePU.1 is an ETS family transcription factor important for the development of multiple hematopoietic cell lineages. Previous work demonstrated a critical role for PU.1 in promoting Th9 development, and in limiting Th2 cytokine production. Whether PU.1 has functions in other T helper lineages is not clear. In this report we examined the effects of ectopic expression of PU.1 in CD4+T cells and observed decreased expression of genes involved with the function of T follicular helper (Tfh) cells, including Il21 and Tnfsf5 (encoding CD40L). T cells from conditional mutant mice that lack expression of PU.1 in T cells (Sfpi1lck−/−) demonstrated increased production of CD40L and IL-21 in vitro. Following adjuvant-dependent or adjuvant-independent immunization, we observed that Sfpi1lck−/− mice had increased numbers of Tfh cells, increased germinal center B cells, and increased antibody production in vivo. This correlated with increased expression of IL-21 and CD40L in Tfh cells from Sfpi1lck−/− mice, compared to control mice. Finally, although blockade of IL-21 did not affect germinal center B cells in Sfpi1lck−/− mice, anti-CD40L treatment of immunized Sfpi1lck−/− mice decreased germinal center B cell numbers and antigen-specific immunoglobulin concentrations. Together, these data indicate an inhibitory role of PU.1 in the function of T follicular helper cells, germinal centers, and Tfh-dependent humoral immunity.Item STAT3 Impairs STAT5 Activation in the Development of IL-9-Secreting T Cells(The American Association of Immunologists, Inc., 2016-04-15) Olson, Matthew R.; Verdan, Felipe Fortino; Hufford, Matthew M.; Dent, Alexander L.; Kaplan, Mark H.; Pediatrics, School of MedicineTh cell subsets develop in response to multiple activating signals, including the cytokine environment. IL-9-secreting T cells develop in response to the combination of IL-4 and TGF-β, although they clearly require other cytokine signals, leading to the activation of transcription factors including STAT5. In Th17 cells, there is a molecular antagonism of STAT5 with STAT3 signaling, although whether this paradigm exists in other Th subsets is not clear. In this paper, we demonstrate that STAT3 attenuates the ability of STAT5 to promote the development of IL-9-secreting T cells. We demonstrate that production of IL-9 is increased in the absence of STAT3 and cytokines that result in a sustained activation of STAT3, including IL-6, have the greatest potency in repressing IL-9 production in a STAT3-dependent manner. Increased IL-9 production in the absence of STAT3 correlates with increased endogenous IL-2 production and STAT5 activation, and blocking IL-2 responses eliminates the difference in IL-9 production between wild-type and STAT3-deficient T cells. Moreover, transduction of developing Th9 cells with a constitutively active STAT5 eliminates the ability of IL-6 to reduce IL-9 production. Thus, STAT3 functions as a negative regulator of IL-9 production through attenuation of STAT5 activation and function.