Lactobacillus helveticus SBT2171 Attenuates Experimental Autoimmune Encephalomyelitis in Mice

We recently reported that Lactobacillus helveticus SBT2171 (LH2171) inhibited the proliferation and inflammatory cytokine production of primary immune cells in vitro, and alleviated collagen-induced arthritis (CIA) in mice, a model of human rheumatoid arthritis (RA). In this study, we newly investigated whether LH2171 could relieve the severity of experimental autoimmune encephalomyelitis (EAE), a murine model of multiple sclerosis (MS), which is an autoimmune disease, but develop the symptoms by different mechanisms from RA. In MS and EAE, main cause of the disease is the abnormality in CD4+ T cell immunity, whereas in RA and CIA, is that in antibody-mediated immunity. The intraperitoneal administration of LH2171 significantly decreased the incidence and clinical score of EAE in mice. LH2171 also reduced the numbers of pathogenic immune cells, especially Th17 cells, in the spinal cord at the peak stage of disease severity. Interestingly, before the onset of EAE, LH2171 administration remarkably decreased the ratio of Th17 cells to CD4+ T cells in the inguinal lymph nodes (LNs), where pathogenic immune cells are activated to infiltrate the central nervous system, including the spinal cord. Furthermore, the expression of interleukin (IL)-6, an inflammatory cytokine essential for Th17 differentiation, decreased in the LNs of LH2171-administered mice. Moreover, LH2171 significantly inhibited IL-6 production in vitro from both DC2.4 and RAW264.7 cells, model cell lines of antigen-presenting cells. These findings suggest that LH2171 might down-regulate IL-6 production and the subsequent Th17 differentiation and spinal cord infiltration, consequently alleviating EAE symptoms

Osteopontin as a Mediator of NKT Cell Function in T Cell-Mediated Liver Diseases

AbstractBoth osteopontin (OPN) and natural killer T (NKT) cells play a role in the development of immunological disorders. We examined a functional link between OPN and NKT cells. Concanavalin A (Con A)-induced hepatitis is a well-characterized murine model of T cell-mediated liver diseases. Here, we show that NKT cells secrete OPN, which augments NKT cell activation and triggers neutrophil infiltration and activation. Thus, OPN- and NKT cell-deficient mice were refractory to Con A-induced hepatitis. In addition, a neutralizing antibody specific for a cryptic epitope of OPN, exposed by thrombin cleavage, ameliorated hepatitis. These findings identify NKT cell-derived OPN as a novel target for the treatment of inflammatory liver diseases

Consensus Statement on the Pathology of IgG4-Related Disease

IgG4-related disease is a newly recognized fibro-inflammatory condition characterized by several features: a tendency to form tumefactive lesions in multiple sites; a characteristic histopathological appearance; and—often but not always—elevated serum IgG4 concentrations. An international symposium on IgG4-related disease was held in Boston, MA, on 4–7 October 2011. The organizing committee comprising 35 IgG4-related disease experts from Japan, Korea, Hong Kong, the United Kingdom, Germany, Italy, Holland, Canada, and the United States, including the clinicians, pathologists, radiologists, and basic scientists. This group represents broad subspecialty expertise in pathology, rheumatology, gastroenterology, allergy, immunology, nephrology, pulmonary medicine, oncology, ophthalmology, and surgery. The histopathology of IgG4-related disease was a specific focus of the international symposium. The primary purpose of this statement is to provide practicing pathologists with a set of guidelines for the diagnosis of IgG4-related disease. The diagnosis of IgG4-related disease rests on the combined presence of the characteristic histopathological appearance and increased numbers of IgG4+ plasma cells. The critical histopathological features are a dense lymphoplasmacytic infiltrate, a storiform pattern of fibrosis, and obliterative phlebitis. We propose a terminology scheme for the diagnosis of IgG4-related disease that is based primarily on the morphological appearance on biopsy. Tissue IgG4 counts and IgG4:IgG ratios are secondary in importance. The guidelines proposed in this statement do not supplant careful clinicopathological correlation and sound clinical judgment. As the spectrum of this disease continues to expand, we advocate the use of strict criteria for accepting newly proposed entities or sites as components of the IgG4-related disease spectrum

Blockade of interaction of α9 integrin with its ligands hinders the formation of granulation in cutaneous wound healing

The wound healing is a complex process consisting of inflammatory reaction, proliferation of mesenchymal cells, and formation and contraction of granulation tissue. The integrin receptors play crucial roles in this process. Recently, α9 integrin has also been detected on keratinocytes within wound sites. However, its functional significance at various wound healing processes was not fully elucidated. To address the role of α9 integrin in wound healing process, we made a full-thickness skin excisional wound and treated mice with anti-α9 integrin antibody. It has been shown that wound healing process was divided into three distinct phases; first, re-epithelialization phase, second phase of granulation tissue formation, and followed by final phase of contraction of granulation tissue. We found that contraction of granulation tissue was not impaired by blocking the interaction of α9 integrin with its ligands, indicating that α9 integrin is not involved in myofibroblast differentiation. Of note, formation of granulation tissue as characterized by dense vimentin and CD31 positive area was impaired. The hindrance of granulation tissue formation is due to the inhibition of adhesion and migration of α9 integrin positive dermal fibroblasts. In conclusion, α9 integrin is involved in the formation of granulation tissue via regulating migration and adhesion of dermal fibroblasts in the full-thickness skin excisional wound model

Signal transducer and activator of transcription 3 regulation by novel binding partners.

Signal transducers and activators of transcription (STATs) mediate essential signals for various biological processes, including immune responses, hematopoiesis, and neurogenesis. STAT3, for example, is involved in the pathogenesis of various human diseases, including cancers, autoimmune and inflammatory disorders. STAT3 activation is therefore tightly regulated at multiple levels to prevent these pathological conditions. A number of proteins have been reported to associate with STAT3 and regulate its activity. These STAT3-interacting proteins function to modulate STAT3-mediated signaling at various steps and mediate the crosstalk of STAT3 with other cellular signaling pathways. This article reviews the roles of novel STAT3 binding partners such as DAXX, zipper-interacting protein kinase, Krüppel-associated box-associated protein 1, Y14, PDZ and LIM domain 2 and signal transducing adaptor protein-2, in the regulation of STAT3-mediated signaling

IL-17A plays a central role in the expression of psoriasis signature genes through the induction of I kappa B-zeta in keratinocytes

In psoriasis lesions, a diverse mixture of cytokines is up-regulated that influence each other generating a complex inflammatory situation. Although this is the case, the inhibition of IL-17A alone showed unprecedented clinical results in patients, indicating that IL-17A is a critical inducer of psoriasis pathogenesis. To elucidate IL-17A-driven keratinocyte-intrinsic signaling pathways, we treated monolayers of normal human epidermal keratinocytes in vitro with a mixture of six cytokines (IL-17A, TNF-alpha, IL-17C, IL-22, IL-36. and IFN-gamma) involved in psoriasis to mimic the inflammatory milieu in psoriasis lesions. Microarray and gene set enrichment analysis revealed that this cytokine mixture induced similar gene expression changes with the previous transcriptome studies using psoriasis lesions. Importantly, we identified a set of IL-17A-regulated genes in keratinocytes, which recapitulate typical psoriasis genes exemplified by DEFB4A, S100A7, IL19 and CSF3, based on the differences in the expression profiles of cells stimulated with six cytokines versus cells stimulated with only five cytokines lacking IL-17A. Furthermore, a specific IL-17A-induced gene, NFKBIZ, which encodes I kappa B-zeta, a transcriptional regulator for NF-kappa B, was demonstrated to have a significant role for IL-17A-induced gene expression. Thus, we present novel in vitro data from normal human keratinocytes that would help elucidating the IL-17A-driven keratinocyte activation in psoriasis

Jun Activation Domain-binding Protein 1 (JAB1) Is Required for the Optimal Response to Interferons

Degradation of IFN receptor (IFNR) protein is one of the mechanisms to limit the extent of cellular responses to interferons. Tyrosine kinase 2 (TYK2), a JAK family kinase, has been reported to bind to and stabilize IFNR, indicating that TYK2 is a fundamental component of IFNR complex. Herein, we identified Jun activation domain-binding protein 1 (JAB1) as a new TYK2 binding partner and investigated its role in the regulation of IFN responses. siRNA knockdown of JAB1 resulted in suppression of IFN-induced phosphorylation of STAT proteins and their transcriptional activation. Importantly, JAB1 knockdown induced the activation of SCF ubiquitin ligase complex containing Cullin 1 (CUL1), as judged by the enhancement of covalent modification of CUL1 with the ubiquitin-like protein NEDD8, and markedly reduced the basal protein level of IFNR. In contrast, NEDD8 knockdown or inhibition of NEDD8 modification by NEDD8-activating enzyme inhibitor resulted in increased IFNR protein concomitantly with a reduction of NEDD8-modified CUL1. Furthermore, NEDD8-activating enzyme inhibitor treatment enhanced the susceptibility to IFN-alpha in HeLa cells. These data suggest that the NEDD8 modification pathway is involved in the proteolysis of IFNR and that JAB1 acts as a positive regulator of IFN responses by stabilizing IFNR through antagonizing the NEDD8 pathway

PML suppresses IL-6-induced STAT3 activation by interfering with STAT3 and HDAC3 interaction

The promyelocytic leukemia protein PML acts as a tumor suppressor by forming transcription-regulatory complexes with a variety of repressor proteins. In the present study, we found that endogenous PML suppresses interleukin (IL)-6-induced gene expression as well as phosphorylation and transcriptional activation of STAT3 in hepatoma cells. We also found that PML-mediated suppression of IL-6-induced STAT3 activation by disrupting interactions between STAT3 and HDAC3. These results indicate that PML modulates IL-6-induced STAT3 activation and hepatoma cell growth by interacting with HDAC3. (C) 2015 Elsevier Inc. All rights reserved