Selective IL-27 production by intestinal regulatory T cells permits gut-specific regulation of T17 cell immunity.

Regulatory T cells (T cells) are instrumental in establishing immunological tolerance. However, the precise effector mechanisms by which T cells control a specific type of immune response in a given tissue remains unresolved. By simultaneously studying T cells from different tissue origins under systemic autoimmunity, in the present study we show that interleukin (IL)-27 is specifically produced by intestinal T cells to regulate helper T17 cell (T17 cell) immunity.

miR-15/16 clusters restrict effector Treg cell differentiation and function.

Effector regulatory T cells (eTregs) exhibit distinct homeostatic properties and superior suppressor capacities pivotal for controlling immune responses mediated by their conventional T cell counterpart. While the role of microRNAs (miRNAs) in Tregs has been well-established, how miRNAs regulate eTregs remains poorly understood. Here, we demonstrate that miR-15/16 clusters act as key regulators in limiting eTreg responses.

Gut epithelial IL-27 confers intestinal immunity through the induction of intraepithelial lymphocytes.

IL-27 controls a diverse range of immune responses in many disease settings. Here, we identify intestinal epithelial cells (IECs) as one of the major IL-27 cellular sources in the gut-associated tissue. Unlike IL-27 secreted by innate immune cells, gut epithelial IL-27 is dispensable for T-bet+ regulatory T cell (T reg cell) differentiation or IL-10 induction.

miR-155 promotes T reg cell development by safeguarding medullary thymic epithelial cell maturation.

During thymocyte development, medullary thymic epithelial cells (mTECs) provide appropriate instructive cues in the thymic microenvironment for not only negative selection but also the generation of regulatory T (T reg) cells. Here, we identify that miR-155, a microRNA whose expression in T reg cells has previously been shown to be crucial for their development and homeostasis, also contributes to thymic T reg (tT reg) cell differentiation by promoting mTEC maturation. Mechanistically, we show that RANKL stimulation induces expression of miR-155 to safeguard the thymic medulla through targeting multiple known and previously uncharacterized molecules within the TGFβ signaling pathway, which is recognized for its role in restricting the maturation and expansion of mTECs.

MiR-23~27~24-mediated control of humoral immunity reveals a TOX-driven regulatory circuit in follicular helper T cell differentiation.

Follicular helper T (T) cells are essential for generating protective humoral immunity. To date, microRNAs (miRNAs) have emerged as important players in regulating T cell biology. Here, we show that loss of miR-23~27~24 clusters in T cells resulted in elevated T cell frequencies upon different immune challenges, whereas overexpression of this miRNA family led to reduced T cell responses.

Differential cell-intrinsic regulations of germinal center B and T cells by miR-146a and miR-146b.

Reciprocal interactions between B and follicular T helper (Tfh) cells orchestrate the germinal center (GC) reaction, a hallmark of humoral immunity. Abnormal GC responses could lead to the production of pathogenic autoantibodies and the development of autoimmunity. Here we show that miR-146a controls GC responses by targeting multiple CD40 signaling pathway components in B cells; by contrast, loss of miR-146a in T cells does not alter humoral responses.

A Novel miR-24-TCF1 Axis in Modulating Effector T Cell Responses.

miR-23∼27∼24 was recently implicated in restricting Th2 immunity, as well as the differentiation and function of other effector T cell lineages. Interestingly, miR-24, unlike other family members, actually promotes Th1 and Th17 responses. In this article, we show that miR-24 drives the production of IFN-γ and IL-17 in T cells at least in part through targeting TCF1, a transcription factor known for its role in limiting Th1 and Th17 immunity.

Excessive expression of miR-27 impairs Treg-mediated immunological tolerance.

MicroRNAs (miRs) are tightly regulated in the immune system, and aberrant expression of miRs often results in hematopoietic malignancies and autoimmune diseases. Previously, it was suggested that elevated levels of miR-27 in T cells isolated from patients with multiple sclerosis facilitate disease progression by inhibiting Th2 immunity and promoting pathogenic Th1 responses. Here we have demonstrated that, although mice with T cell-specific overexpression of miR-27 harbor dysregulated Th1 responses and develop autoimmune pathology, these disease phenotypes are not driven by miR-27 in effector T cells in a cell-autonomous manner.

miR-23∼27∼24 clusters control effector T cell differentiation and function.

Coordinated repression of gene expression by evolutionarily conserved microRNA (miRNA) clusters and paralogs ensures that miRNAs efficiently exert their biological impact. Combining both loss- and gain-of-function genetic approaches, we show that the miR-23∼27∼24 clusters regulate multiple aspects of T cell biology, particularly helper T (Th) 2 immunity. Low expression of this miRNA family confers proper effector T cell function at both physiological and pathological settings.

IFNγ signaling endows DCs with the capacity to control type I inflammation during parasitic infection through promoting T-bet+ regulatory T cells.

IFNγ signaling drives dendritic cells (DCs) to promote type I T cell (Th1) immunity. Here, we show that activation of DCs by IFNγ is equally crucial for the differentiation of a population of T-bet+ regulatory T (Treg) cells specialized to inhibit Th1 immune responses. Conditional deletion of IFNγ receptor in DCs but not in Treg cells resulted in a severe defect in this specific Treg cell subset, leading to exacerbated immune pathology during parasitic infections.

Function of miR-146a in controlling Treg cell-mediated regulation of Th1 responses.

Foxp3(+) regulatory T (Treg) cells maintain immune homeostasis by limiting different types of inflammatory responses. Here, we report that miR-146a, one of the miRNAs prevalently expressed in Treg cells, is critical for their suppressor function. The deficiency of miR-146a in Treg cells resulted in a breakdown of immunological tolerance manifested in fatal IFNγ-dependent immune-mediated lesions in a variety of organs.

[Therapeutic effect of combined multifunctional external fixator for treatment of tibiofibular fracture].

Objective: To study the therapeutic effect of combined multifunctional external fixator for treatment of tibiofibular fracture.

Methods: From Oct 1999 to Apr 2006, 37 patients of tibiofibular fractures were treated with combined multifunctional external fixator. There were 28 males and 9 females with an average of 47.

The in vivo function of a noncanonical TRAF2-binding domain in the C-terminus of CD40 in driving B-cell growth and differentiation.

The recruitment of tumor necrosis factor receptor-associated factors (TRAFs) 1, 2, 3, 5, and 6 to the CD40 cytoplasmic tail upon CD40 trimerization results in downstream signaling events that ultimately lead to CD40-dependent, thymus-dependent (TD) humoral immune responses. Previously, we have shown signaling through the C-terminal tail of CD40 in the absence of canonical TRAF-binding sites is capable of signaling through an alternative TRAF2-binding site. Here, we demonstrate that B cells from mice harboring CD40 with only the C-terminal tail can activate both canonical and noncanonical NFkappaB signaling pathways.

BCMA is essential for the survival of long-lived bone marrow plasma cells.

Long-lived humoral immunity is manifested by the ability of bone marrow plasma cells (PCs) to survive for extended periods of time. Recent studies have underscored the importance of BLyS and APRIL as factors that can support the survival of B lineage lymphocytes. We show that BLyS can sustain PC survival in vitro, and this survival can be further enhanced by interleukin 6.

A genetic lesion that arrests plasma cell homing to the bone marrow.

The coordinated regulation of chemokine responsiveness plays a critical role in the development of humoral immunity. After antigen challenge and B cell activation, the emerging plasma cells (PCs) undergo CXCL12-induced chemotaxis to the bone marrow, where they produce Ab and persist. Here we show that PCs, but not B cells or T cells from lupus-prone NZM mice, are deficient in CXCL12-induced migration.

CD40 signaling through a newly identified tumor necrosis factor receptor-associated factor 2 (TRAF2) binding site.

Tumor necrosis factor receptor-associated factors (TRAFs) belong to a family of adapter proteins that are involved in tumor necrosis factor receptor superfamily signaling. It has been shown that the recruitment of TRAFs to the CD40 cytoplasmic tail is essential for CD40-mediated B cell responses. However, it has also been shown that some early B cell responses, such as up-regulation of cell surface molecules and B cell proliferation are only marginally impaired by the disruption of previously defined TRAF binding sites (Ahonen, C.