技术资料

Mesenchymal stem cells (MSC) can differentiate into osteoblasts,adipocytes,chondrocytes and myoblasts. It has been suggested that a reciprocal relationship exists between the differentiation of MSC into osteoblasts and adipocytes. Peroxisome proliferator-activated receptor gamma2 (PPARgamma2) is a key element for the differentiation into adipocytes. Activation of the nuclear protein deacetylase Sirt1 has recently been shown to decrease adipocyte development from preadipocytes via inhibition of PPARgamma2. In vitro,MSC differentiate to osteoblasts when exposed to bone-inducing medium. However,adipocytes are also developed. In the present study we have targeted Sirt1 to control adipocyte development during differentiation of MSC into osteoblasts. The finding that resveratrol and isonicotinamide markedly inhibited adipocyte and promoted osteoblast differentiation demonstrates an interesting alternative to PPARgamma antagonists. These results are important for the evolving field of cell-based tissue engineering,but may also be relevant in the search for new treatments of osteoporosis. View Publication

TFF1,a secreted protein,plays an essential role in keeping the integrity of gastric mucosa and its barrier function. Loss of TFF1 expression in the TFF1-knockout (KO) mouse leads to a pro-inflammatory phenotype with a cascade of gastric lesions that include low-grade dysplasia,high-grade dysplasia,and adenocarcinomas. In this study,we demonstrate nuclear localization of p-STATY705,with significant overexpression of several STAT3 target genes in gastric glands from the TFF1-KO mice. We also show frequent loss of TFF1 with nuclear localization of STAT3 in human gastric cancers. The reconstitution of TFF1 protein in human gastric cancer cells and 3D gastric glands organoids from TFF1-KO mice abrogates IL6-induced nuclear p-STAT3Y705 expression. Reconstitution of TFF1 inhibits IL6-induced STAT3 transcription activity,suppressing expression of its target genes. TFF1 blocks IL6R$\alpha$-GP130 complex formation through interfering with binding of IL6 to its receptor IL6R$\alpha$. These findings demonstrate a functional role of TFF1 in suppressing gastric tumorigenesis by impeding the IL6-STAT3 pro-inflammatory signaling axis. View Publication

Retinoic acid (RA) is used to treat leukemia and other cancers through its ability to promote cancer cell differentiation. Strategies to enhance the anticancer effects of RA could deepen and broaden its beneficial therapeutic applications. In this study,we describe a receptor cross-talk system that addresses this issue. RA effects are mediated by RAR/RXR receptors that we show are modified by interactions with the aryl hydrocarbon receptor (AhR),a protein functioning both as a transcription factor and a ligand-dependent adaptor in an ubiquitin ligase complex. RAR/RXR and AhR pathways cross-talk at the levels of ligand-receptor and also receptor-promoter interactions. Here,we assessed the role of AhR during RA-induced differentiation and a hypothesized convergence at Oct4,a transcription factor believed to maintain stem cell characteristics. RA upregulated AhR and downregulated Oct4 during differentiation of HL-60 promyelocytic leukemia cells. AhR overexpression in stable transfectants downregulated Oct4 and also decreased ALDH1 activity,another stem cell-associated factor,enhancing RA-induced differentiation as indicated by cell differentiation markers associated with early (CD38 and CD11b) and late (neutrophilic respiratory burst) responses. AhR overexpression also increased levels of activated Raf1,which is known to help propel RA-induced differentiation. RNA interference-mediated knockdown of Oct4 enhanced RA-induced differentiation and G(0) cell-cycle arrest relative to parental cells. Consistent with the hypothesized importance of Oct4 downregulation for differentiation,parental cells rendered resistant to RA by biweekly high RA exposure displayed elevated Oct4 levels that failed to be downregulated. Together,our results suggested that therapeutic effects of RA-induced leukemia differentiation depend on AhR and its ability to downregulate the stem cell factor Oct4. View Publication

BackgroundAllergen-specific immunotherapy (AIT) is able to restore immune tolerance to allergens in allergic patients. However,some patients do not or only poorly respond to current treatment protocols. Therefore,there is a need for deeper mechanistic insights and further improvement of treatment strategies. The relevance of the aryl hydrocarbon receptor (AhR),a ligand-dependent transcription factor,has been investigated in several inflammatory diseases,including allergic asthma. However,its potential role in AIT still needs to be addressed.MethodsA murine model of AIT in ovalbumin-induced allergic airway inflammation was performed in AhR-deficient (AhR-/-) and wild-type mice. Furthermore,AIT was combined with the application of the high-affinity AhR agonist 10-chloro-7H-benzimidazo[2,1-a]benzo[de]iso-quinolin-7-one (10-Cl-BBQ) as an adjuvant to investigate the effects of AhR activation on therapeutic outcome.ResultsAlthough AhR-/- mice suffer stronger allergic responses than wild-type mice,experimental AIT is comparably effective in both. Nevertheless,combining AIT with the administration of 10-Cl-BBQ improved therapeutic effects by an AhR-dependent mechanism,resulting in decreased cell counts in the bronchoalveolar fluid,decreased pulmonary Th2 and Th17 cell levels,and lower sIgE levels.ConclusionThis study demonstrates that the success of AIT is not dependent on the AhR. However,targeting the AhR during AIT can help to dampen inflammation and improve tolerogenic vaccination. Therefore,AhR ligands might represent promising candidates as immunomodulators to enhance the efficacy of AIT. View Publication

The aryl hydrocarbon receptor (AhR) is a ligand-activated transcription factor. Recent studies have reported the anti-tumor effects of the AhR in breast cancer. In this study,we investigated the anti-tumor effect of AhR activation based on the cancer stem cell hypothesis. We show that AhR activation suppressed mammosphere formation of MCF-7 cells and decreased the proportion of cells with high ALDH-1 (aldehyde dehydrogenase 1) activity. In addition,we also demonstrate that AhR activation regulates self-renewal signaling by down-regulating Wnt/$$-catenin and Notch. View Publication

Flt3 ligand (Flt3L) is a nonredundant cytokine in type I interferon-producing cell (IPC) and dendritic cell (DC) development,and IPC and DC differentiation potential is confined to Flt3+ hematopoietic progenitor cells. Here,we show that overexpression of human Flt3 in Flt3- (Flt3(-)Lin(-)IL-7Ralpha(-)Thy1.1(-)c-Kit+) and Flt3+ (Flt3(+)Lin(-)IL-7Ralpha(-)Thy1.1(-)c-Kit+) hematopoietic progenitors rescues and enhances their IPC and DC differentiation potential,respectively. In defined hematopoietic cell populations,such as Flt3- megakaryocyte/erythrocyte-restricted progenitors (MEPs),enforced Flt3 signaling induces transcription of IPC,DC,and granulocyte/macrophage (GM) development-affiliated genes,including STAT3,PU.1,and G-/M-/GM-CSFR,and activates differentiation capacities to these lineages. Moreover,ectopic expression of Flt3 downstream transcription factors STAT3 or PU.1 in Flt3- MEPs evokes Flt3 receptor expression and instructs differentiation into IPCs,DCs,and myelomonocytic cells,whereas GATA-1 expression and consecutive megakaryocyte/erythrocyte development is suppressed. Based on these data,we propose a demand-regulated,cytokine-driven DC and IPC regeneration model,in which high Flt3L levels initiate a self-sustaining,Flt3-STAT3- and Flt3-PU.1-mediated IPC and DC differentiation program in Flt3+ hematopoietic progenitor cells. View Publication

Pilocytic astrocytoma is commonly viewed as a benign lesion. However,disease onset is most prevalent in the first two decades of life,and children are often left with residual or recurrent disease and significant morbidity. The Hedgehog (Hh) pathway regulates the growth of higher WHO grade gliomas,and in this study,we have evaluated the activation and operational status of this regulatory pathway in pilocytic astrocytomas. Expression levels of the Hh pathway transcriptional target PTCH were elevated in 45% of tumor specimens analyzed (ages 1-22 years) and correlated inversely with patient age. Evaluation of a tissue array revealed oligodendroglioma-like features,pilomyxoid features,infiltration,and necrosis more commonly in specimens from younger patients (below the median patient age of 10 years). Immunohistochemical staining for the Hh pathway components PTCH and GLI1 and the proliferation marker Ki67 demonstrated that patients diagnosed before the age of 10 had higher staining indices than those diagnosed after the age of 10. A significant correlation between Ki67 and PTCH and GLI1 staining indices was measured,and 86% of Ki67-positive cells also expressed PTCH. The operational status of the Hh pathway was confirmed in primary cell culture and could be modulated in a manner consistent with a ligand-dependent mechanism. Taken together,these findings suggest that Hh pathway activation is common in pediatric pilocytic astrocytomas and may be associated with younger age at diagnosis and tumor growth. View Publication

C-Type lectin receptor 5A (CLEC5A) is a spleen tyrosine kinase- (Syk-) coupled pattern recognition receptor expressed on myeloid cells and involved in the innate immune response to viral and bacterial infections. Activation of the CLEC5A receptor with pathogen-derived antigens leads to a secretion of proinflammatory mediators such as TNF-$\alpha$ and IL-6 that may provoke a systemic cytokine storm,and CLEC5A gene polymorphisms are associated with the severity of DV infection. In addition,the CLEC5A receptor was mentioned in the context of noninfectious disorders like chronic obstructive pulmonary disease (COPD) or arthritis. Altogether,CLEC5A may be considered as an innate immune checkpoint capable to amplify proinflammatory signals,and this way contributes to infection or to aseptic inflammation. In this study,we determined CLEC5A receptor expression on different macrophage subsets (in vitro and ex vivo) and the functional consequences of its activation in aseptic conditions. The CLEC5A surface expression appeared the highest on proinflammatory M1 macrophages while intermediate on tumor-associated phenotypes (M2c or TAM). In contrast,the CLEC5A expression on ex vivo-derived alveolar macrophages from healthy donors or macrophages from ovarian cancer patients was hardly detectable. Targeting CLEC5A on noninflammatory macrophages with an agonistic $\alpha$-CLEC5A antibody triggered a release of proinflammatory cytokines,resembling a response to dengue virus,and led to phenotypic changes in myeloid cells that may suggest their reprogramming towards a proinflammatory phenotype,e.g.,upregulation of CD80 and downregulation of CD163. Interestingly,the CLEC5A agonist upregulated immune-regulatory molecules like CD206,PD-L1,and cytokines like IL-10,macrophage-derived chemokine (MDC/CCL22),and thymus and activation chemokine (TARC/CCL17) which are associated with an anti-inflammatory or a protumorigenic macrophage phenotype. In the absence of concomitant pathogenic or endogenous danger signals,the CLEC5A receptor activation did not amplify an autologous T cell response,which may represent a protective innate mechanism to avoid an undesirable autoimmune adaptive response. View Publication

Positive expectations contribute to the clinical benefits of the placebo effect. Such positive expectations are mediated by the brain's reward system; however,it remains unknown whether and how reward system activation affects the body's physiology and,specifically,immunity. Here we show that activation of the ventral tegmental area (VTA),a key component of the reward system,strengthens immunological host defense. We used 'designer receptors exclusively activated by designer drugs' (DREADDs) to directly activate dopaminergic neurons in the mouse VTA and characterized the subsequent immune response after exposure to bacteria (Escherichia coli),using time-of-flight mass cytometry (CyTOF) and functional assays. We found an increase in innate and adaptive immune responses that were manifested by enhanced antibacterial activity of monocytes and macrophages,reduced in vivo bacterial load and a heightened T cell response in the mouse model of delayed-type hypersensitivity. By chemically ablating the sympathetic nervous system (SNS),we showed that the reward system's effects on immunity are,at least partly,mediated by the SNS. Thus,our findings establish a causal relationship between the activity of the VTA and the immune response to bacterial infection. View Publication

Severe congenital neutropenia (SCN) is an inborn disorder of granulopoiesis that in many cases is caused by mutations of the ELANE gene,which encodes neutrophil elastase (NE). Recent data suggest a model in which ELANE mutations result in NE protein misfolding,induction of endoplasmic reticulum (ER) stress,activation of the unfolded protein response (UPR),and ultimately a block in granulocytic differentiation. To test this model,we generated transgenic mice carrying a targeted mutation of Elane (G193X) reproducing a mutation found in SCN. The G193X Elane allele produces a truncated NE protein that is rapidly degraded. Granulocytic precursors from G193X Elane mice,though without significant basal UPR activation,are sensitive to chemical induction of ER stress. Basal and stress granulopoiesis after myeloablative therapy are normal in these mice. Moreover,inaction of protein kinase RNA-like ER kinase (Perk),one of the major sensors of ER stress,either alone or in combination with G193X Elane,had no effect on basal granulopoiesis. However,inhibition of the ER-associated degradation (ERAD) pathway using a proteosome inhibitor resulted in marked neutropenia in G193X Elane. The selective sensitivity of G913X Elane granulocytic cells to ER stress provides new and strong support for the UPR model of disease patho-genesis in SCN. View Publication

Fibroblastic reticular cells (FRCs) are a subpopulation of stromal cells modulating the immune environments in health and disease. We have previously shown that activation of TLR9 signaling in FRC in fat-associated lymphoid clusters (FALC) regulate peritoneal immunity via suppressing immune cell recruitment and peritoneal resident macrophage (PRM) retention. However,FRCs are heterogeneous across tissues and organs. The functions of each FRC subset and the regulation of TLR9 in distinct FRC subsets are unknown. Here,we confirmed that specific deletion of TLR9 in FRC improved bacterial clearance and survival during peritoneal infection. Furthermore,using single-cell RNA sequencing,we found two subsets of FRCs (CD55 hi and CD55 lo ) in the mesenteric FALC. The CD55 hi FRCs were enriched in gene expression related to extracellular matrix formation. The CD55 lo FRCs were enriched in gene expression related to immune response. Interestingly,we found that TLR9 is dominantly expressed in the CD55 lo subset. Activation of TLR9 signaling suppressed proliferation,cytokine production,and retinoid metabolism in the CD55 lo FRC,but not CD55 hi FRC. Notably,we found that adoptive transfer of Tlr9 -/– CD55 lo FRC from mesenteric FALC more effectively improved the survival during peritonitis compared with WT-FRC or Tlr9 -/– CD55 hi FRC. Furthermore,we identified CD55 hi and CD55 lo subsets in human adipose tissue-derived FRC and confirmed the suppressive effect of TLR9 on the proliferation and cytokine production in the CD55 lo subset. Therefore,inhibition of TLR9 in the CD55 lo FRCs from adipose tissue could be a useful strategy to improve the therapeutic efficacy of FRC-based therapy for peritonitis. View Publication

ADP-ribosylation factors (ARFs) are members of a multigene family of 20-kDa guanine nucleotide-binding proteins that are regulatory components in several pathways of intracellular vesicular trafficking. The relatively small (approximately 180-amino acids) ARF proteins interact with a variety of molecules (in addition to GTP/GDP,of course). Cholera toxin was the first to be recognized,hence the name. Later it was shown that ARF also activates phospholipase D. Different parts of the molecule are responsible for activation of the two enzymes. In vesicular trafficking,ARF must interact with coatomer to recruit it to a membrane and thereby initiate vesicle budding. ARF function requires that it alternate between GTP- and GDP-bound forms,which involves interaction with regulatory proteins. Inactivation of ARF-GTP depends on a GTPase-activating protein or GAP. A guanine nucleotide-exchange protein or GEP accelerates release of bound GDP from inactive ARF-GDP to permit GTP binding. Inhibition of GEP by brefeldin A (BFA) blocks ARF activation and thereby vesicular transport. In cells,it causes apparent disintegration of Golgi structure. Both BFA-sensitive and insensitive GEPs are known. Sequences of peptides from a BFA-sensitive GEP purified in our laboratory revealed the presence of a Sec7 domain,a sequence of approximately 200 amino acids that resembles a region in the yeast Sec7 gene product,which is involved in Golgi vesicular transport. Other proteins of unknown function also contain Sec7 domains,among them a lymphocyte protein called cytohesin-1. To determine whether it had GEP activity,recombinant cytohesin-1 was synthesized in E. coli. It preferentially activated class I ARFs 1 and 3 and was not inhibited by BFA but failed to activate ARF5 (class II). There are now five Sec7 domain proteins known to have GEP activity toward class I ARFs. It remains to be determined whether there are other Sec7 domain proteins that are GEPs for ARFs 4,5,or 6. View Publication