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Showing 31 to 35 of 35 (0.054 seconds)Spelling suggestions: "subject:"2h2 cells"" "subject:"hh2 cells""
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Regulation of the germinal center reaction by T helper cells and T regulatory cellsWu, Hao 11 April 2016 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Germinal Centers (GCs) are transient lymphoid structures that arise in lymphoid organs in response to T cell-dependent antigen. Within the GC, follicular T helper (TFH) cells promote GC B cell differentiation and in turn the proper antibody production to protect us from invading pathogens. We wished to study the regulation of this process by transcription factors STAT3 and Bcl6. STAT3 is important for both TFH cell differentiation and IL-4 production by Th2 cells. IL-4 is a major functional cytokine produced by TFH cells. To dissect the role of STAT3 in IL-4 production by TFH cells, we generated T cell-specific conditional STAT3 knockout mice (STAT3KO). Compared to WT mice, TFH cell differentiation in STAT3KO mice was partially impaired, both in spleen following sheep red blood cells (SRBC) immunization and in Peyer's patches (PPs). In STAT3KO mice, the numbers of splenic GC B cells were markedly decreased, whereas PP GC B cells developed at normal numbers and IgG1 class switching was greatly increased. Unexpectedly, we found that STAT3 intrinsically suppressed the expression of IL-4 and Bcl6 in TFH cells. Mechanistically, in vitro repression of IL-4 expression in CD4 T cells by Bcl6 required STAT3 function. Apart from TFH cells, the GC reaction is also controlled by regulatory follicular T helper (TFR) cells, a subset of Treg cells. To study the mechanism of how TFR cells regulate the GC reaction, we generated mice specifically lacking TFR cells by specifically deleting Bcl6 in Treg cells. Following immunization, these "Bcl6FC" mice developed normal TFH and GC B cell populations. However, Bcl6FC mice produced altered antigen-specific antibody responses, with reduced titers of IgG and increased IgA. Bcl6FC mice also developed IgG antibodies with significantly decreased avidity to antigen in an HIV-1 gp120 "prime-boost" vaccine model. Additionally, TFH cells from Bcl6FC mice produced higher levels of Interferon-γ, IL-10 and IL-21. Loss of TFR cells therefore leads to highly abnormal TFH and GC B cell responses. Overall, our studies have uncovered unexpected regulatory roles of STAT3 in TFH cell function as well as the novel regulatory roles of TFR cells on cytokine production by TFH cells and on antibody production.
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Development and stability of IL-17-secreting T cellsGlosson, Nicole L. January 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / IL-17-producing T cells are critical to the development of pathogen and tumor immunity, but also contribute to the pathology of autoimmune diseases and allergic inflammation. CD8+ (Tc17) and CD4+ (Th17) IL-17-secreting T cells develop in response to a cytokine environment that activates Signal Transducer and Activator of Transcription (STAT) proteins, though the mechanisms underlying Tc17/Th17 development and stability are still unclear. In vivo, Tc17 cells clear vaccinia virus infection and acquire cytotoxic potential, that is independent of IL-17 production and the acquisition of IFN-γ-secreting potential, but partially dependent on Fas ligand, suggesting that Tc17-mediated vaccinia virus clearance is through cell killing independent of an acquired Tc1 phenotype. In contrast, memory Th cells and NKT cells display STAT4-dependent IL-23-induced IL-17 production that correlates with Il23r expression. IL-23 does not activate STAT4 nor do other STAT4-activating cytokines induce Il23r expression in these populations, suggesting a T cell-extrinsic role for STAT4 in mediating IL-23 responsiveness. Although IL-23 is important for the maintenance of IL-17-secreting T cells, it also promotes their instability, often resulting in a pathogenic Th1-like phenotype in vitro and in vivo. In vitro-derived Th17 cells are also flexible when cultured under polarizing conditions that promote Th2 or Th9 differentiation, adopting the respective effector programs, and decreasing IL-17 production. However, in models of allergic airway disease, Th17 cells do not secrete alternative cytokines nor adopt other effector programs, and remain stable IL-17-secretors. In contrast to Th1-biased pro-inflammatory environments that induce Th17 instability in vivo, during allergic inflammatory disease, Th17 cells are comparatively stable, and retain the potential to produce IL-17. Together these data document that the inflammatory environment has distinct effects on the stability of IL-17-secreting T cells in vivo.
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Elucidating the role of BCL6 in helper T cell activation, proliferation, and differentiationHollister, Kristin N. January 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / The transcriptional repressor BCL6 has been shown to be essential for the differentiation
of germinal center (GC) B cells and follicular T helper (TFH) cells. The interaction of
TFH and GC B cells is necessary for the development of high affinity antibodies specific
for an invading pathogen. Germline BCL6-deficient mouse models limit our ability to
study BCL6 function in T cells due to the strong inflammatory responses seen in these
mice. To overcome this, our lab has developed a new BCL6 conditional knockout (cKO)
mouse using the cre/lox system, wherein the zinc finger region of the BCL6 gene is
flanked by loxP sites. Mating to a CD4-Cre mouse allowed us to study the effects of
BCL6 loss specifically in T cells, without the confounding effects seen in germline
knockout models. Using this cKO model, we have reaffirmed the necessity of BCL6 for
TFH differentiation, including its role in sustained CXCR5 surface expression, a
signature marker for TFH cells. This model also allowed us to recognize the role of
BCL6 in promoting the expression of PD-1, another key surface marker for TFH cells.
Without BCL6, CD4+ T cells cannot express PD-1 at the high levels seen on TFH cells.
Our discovery of DNMT3b as a target for BCL6 suggests BCL6-deficient T cells have
increased DNA methyltransferase activity at the PD-1 promoter. This data establishes a
novel pathway for explaining how BCL6, a transcriptional repressor, can activate genes.
Experiments with the BCL6 cKO model have also established a role for BCL6 in naïve
CD4+ T cell activation. Furthermore, we did not observe increased differentiation of
other helper T cell subsets, in contrast to what has been reported elsewhere with
germline BCL6-deficient models. Unexpectedly, we found decreased T helper type 2
(Th2) cells, whereas mouse models with a germline mutation of BCL6 have increased
Th2 cells. These results indicate that BCL6 activity in non-T cells is critical for controlling
T cell differentiation. Finally, using an HIV-1 gp120 immunization model, we have, for
the first time, shown BCL6-dependent GCs to be limiting for antibody development and
affinity maturation in a prime-boost vaccine scheme.
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Control of inflammation, helper T cell responses and regulatory T cell function by Bcl6Sawant, Deepali Vijay 13 January 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Regulatory T (Treg) cells represent an important layer of immune-regulation indispensible for curtailing exuberant inflammatory responses and maintaining self-tolerance. Treg cells have translational potential for autoimmunity, inflammation, transplantation and cancer. Therefore, delineating the molecular underpinnings underlying the development, suppressor function and stability of Tregs is particularly warranted. The transcriptional repressor Bcl6 is a critical arbiter of helper T cell fate, promoting the follicular helper (Tfh) lineage while repressing Th1, Th2 and Th17 differentiation. Bcl6-deficient mice develop a spontaneous and severe Th2-type inflammatory disease including myocarditis and pulmonary vasculitis, suggesting a potential role for Bcl6 in Treg cell function. Bcl6-deficient Treg cells are competent in controlling Th1 responses, but fail to control Th2 inflammation in an airway allergen model. Importantly, mice with Bcl6 deleted specifically in the Treg lineage develop severe myocarditis, thus highlighting a critical role for Bcl6 in Treg-mediated control of Th2 inflammation. Bcl6-deficient Tregs display an intrinsic increase in Th2 genes and microRNA-21 (miR-21) expression. MiR-21 is a novel Bcl6 gene target in T cells and ectopic expression of miR-21 directs Th2 differentiation in non-polarized T cells. MiR-21 is up-regulated in mouse models of airway inflammation and also in human patients with eosinophilic esophagitis and asthma. Thus, miR-21 is a clinically relevant biomarker for Th2-type pathologies. Our results define a key function for Bcl6 in repressing Gata3 function and miR-21 expression in Tregs, and provide greater understanding of the control of Th2 inflammatory responses by Treg cells.
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Early events leading to the host protective Th2 immune response to an intestinal nematode parasite /Pesce, John Thomas. January 2005 (has links) (PDF)
Thesis (Ph. D.)--Uniformed Services University of the Health Sciences, 2005. / Typescript (photocopy).
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