Transcript splicing optimizes the thymic self-antigen repertoire to suppress autoimmunity.

Immunological self-tolerance is established in the thymus by the expression of virtually all self-antigens, including tissue-restricted antigens (TRAs) and cell-type-restricted antigens (CRAs). Despite a wealth of knowledge about the transcriptional regulation of TRA genes, posttranscriptional regulation remains poorly understood. Here, we show that protein arginine methylation plays an essential role in central immune tolerance by maximizing the self-antigen repertoire in medullary thymic epithelial cells (mTECs).

Synchronized development of thymic eosinophils and thymocytes.

The thymus is an organ required for T cell development and is also an eosinophil-rich organ; however, the nature and function of thymic eosinophils remain unclear. Here, we characterized the gene expression and differentiation mechanism of thymic eosinophils in mice. Thymic eosinophils showed a distinct gene expression profile compared with other organ-resident eosinophils.

The transcription factor Sox4 is required for thymic tuft cell development.

Medullary thymic epithelial cells (mTECs) help shape the thymic microenvironment for T-cell development by expressing a variety of peripheral tissue-restricted antigens (TRAs). The self-tolerance of T cells is established by negative selection of autoreactive T cells that bind to TRAs. To increase the diversity of TRAs, a fraction of mTECs terminally differentiates into distinct subsets resembling atypical types of epithelial cells in specific peripheral tissues.

Rapid recovery of phytic acid from rice brans using chitosan nanofiber-based porous hydrogels.

Phytic acid (PA) is a new type of naturally occurring pharmaceutical for afflictions such as cancer, diabetes, and renal calculi. The efficient, low-cost extraction of PA from biowaste is much sought after. Herein, highly pure PA was obtained from rice bran by adsorption at low pH onto porous chitosan nanofiber hydrogels.

Fibroblasts as a source of self-antigens for central immune tolerance.

Fibroblasts are one of the most common but also neglected types of stromal cells, the heterogeneity of which underlies the specific function of tissue microenvironments in development and regeneration. In the thymus, autoreactive T cells are thought to be negatively selected by reference to the self-antigens expressed in medullary epithelial cells, but the contribution of other stromal cells to tolerance induction has been poorly examined. In the present study, we report a PDGFR gp38 DPP4 thymic fibroblast subset that is required for T cell tolerance induction.

Mice lacking all of the Skint family genes.

γδT cells develop in the thymus and play important roles in protection against infection and tumor development, but the mechanisms by which the thymic microenvironment supports γδT cell differentiation remain largely unclear. Skint1, a B7-related protein expressed in thymic epithelial cells, was shown to be essential for the development of mouse Vγ5Vδ1 γδT cells. The Skint family in mouse consists of 11 members, Skint1-11.

Fabrication and characterization of water-dispersed chitosan nanofiber/poly(ethylene glycol) diacrylate/calcium phosphate-based porous composites.

We evaluated the capacity of chitosan nanofiber (CNF)- and poly(ethylene glycol) (PEG)-based hydrogel/calcium phosphate hybrid (CNF-PEG/CaP) composites to act as scaffolding materials. CNF-PEG/CaP composites were fabricated by mineralization of CNF-PEG hydrogels using an alternate soaking method. The amount of CaP mineralized on CNF-PEG hydrogels increased as the ratio of CNF in the CNF-PEG hydrogel increased.

The thymic cortical epithelium determines the TCR repertoire of IL-17-producing γδT cells.

The thymus provides a specialized microenvironment in which distinct subsets of thymic epithelial cells (TECs) support T-cell development. Here, we describe the significance of cortical TECs (cTECs) in T-cell development, using a newly established mouse model of cTEC deficiency. The deficiency of mature cTECs caused a massive loss of thymic cellularity and impaired the development of αβT cells and invariant natural killer T cells.

Molecular building blocks and their architecture in biologically/environmentally compatible soft matter chemical machinery.

This review briefly summarizes recent developments in the construction of biologically/environmentally compatible chemical machinery composed of soft matter. Since environmental and living systems are open systems, chemical machinery must continuously fulfill its functions not only through the influx and generation of molecules but also via the degradation and dissipation of molecules. If the degradation or dissipation of soft matter molecular building blocks and biomaterial molecules/polymers can be achieved, soft matter particles composed of them can be used to realize chemical machinery such as selfpropelled droplets, drug delivery carriers, tissue regeneration scaffolds, protocell models, cell-/tissuemarkers, and molecular computing systems.

Biopolymer-based nanoparticles for drug/gene delivery and tissue engineering.

There has been a great interest in application of nanoparticles as biomaterials for delivery of therapeutic molecules such as drugs and genes, and for tissue engineering. In particular, biopolymers are suitable materials as nanoparticles for clinical application due to their versatile traits, including biocompatibility, biodegradability and low immunogenicity. Biopolymers are polymers that are produced from living organisms, which are classified in three groups: polysaccharides, proteins and nucleic acids.

Role of thymic cortex-specific self-peptides in positive selection of T cells.

During T cell development in the thymus, a virgin repertoire of diverse TCRalphabeta recognition specificities in immature thymocytes is selected through positive and negative selection to form an immunocompetent and self-tolerant repertoire of mature T cells. Positive selection supports the survival of thymocytes that receive weak signals of low-avidity TCR engagement, whereas negative selection deletes potentially harmful self-reactive thymocytes upon high-avidity TCR engagement. Early studies have highlighted the role of TCR interaction with polymorphic MHC determinants in positive selection, while negative selection imposes TCR specificity to peptide antigens displayed by MHC molecules.

Differentiation of pharyngeal endoderm from mouse embryonic stem cell.

Embryonic stem cells are considered to be a good in vitro tool to study the induction of various cell types including cardiomyocytes; however, induction of the pharyngeal endoderm (PE), the underlying heart-forming region, in vivo has been scarcely reported. In the present study, we found that many PE-related genes, such as Paxl, Pax9, Sixl, and Tbxl, were up-regulated in cardiomyocyte-rich embryoid bodies (EBs). The third pouch-related genes including Hoxa3, Foxn1, and Aire, which are crucial for thymus development and function, were also detected in later stages.

CCR7-mediated migration of developing thymocytes to the medulla is essential for negative selection to tissue-restricted antigens.

Immature double-positive thymocytes are generated in the thymic cortex, and on positive selection, are induced to differentiate into mature single-positive thymocytes and relocate to the medulla. CCR7 is pivotal for cortex-to-medulla migration of positively selected thymocytes, and CCR7-mediated migration to the medulla is essential for establishing central tolerance, thereby, preventing tissue-specific autoimmunity. However, it was unclear how CCR7-mediated migration to the medulla affects the establishment of self-tolerance.

Gene expression profile of the third pharyngeal pouch reveals role of mesenchymal MafB in embryonic thymus development.

The thymus provides a microenvironment that induces the differentiation of T-progenitor cells into functional T cells and that establishes a diverse yet self-tolerant T-cell repertoire. However, the mechanisms that lead to the development of the thymus are incompletely understood. We report herein the results of screening for genes that are expressed in the third pharyngeal pouch, which contains thymic primordium.

LC-MS/MS and centrifugal ultrafiltration method for the determination of novobiocin in chicken, fish tissues, milk and human serum.

We present a rapid and simple method for detecting novobiocin in biologic samples using a methanol-based extraction of the tissue matrix and liquid chromatography with electrospray tandem mass spectrometry (LC-ESI-MS/MS) on positive mode. The sample, prepared using centrifugal ultrafiltration with 5.0% SDS, was directly injected into the LC-MS/MS.