Project description:Epithelial HMGB1 delays skin wound healing and drives tumor initiation by priming neutrophils for NET formation

Project description:Solid-pseudopapillary neoplasm of pancreas (SPN), ductal adenocarcinoma (PCA), neuroendocrine tumor (NET) and non-neoplastic pancreas. comparison with gene expression of tumors and non-tumors To investigate the specific microRNA expression of SPN compared to other types of pancreatic tumor, we analyzed large-scale microRNA expressioin analysis to identify the molecular signature that may affect SPN tumorigenesis with mRNA expression profiles. Differentially expressed microRNAs were analyzed on SPNs, PCAs, NETs and Non-neoplastic tissues.

Project description:Dysregulation and abnormal expression of inflammatory mediators by keratinocytes promote the pathogenesis of the skin inflammation such as allergic contact dermatitis (ACD). High-mobility group box 1 (HMGB1) protein, a prototypical damage-associated molecular pattern (DAMP), that is expressed in the nucleus but released extracellularly upon inflammation has gained attention as an accelerator for skin inflammation. However, in vivo role of HMGB1 in ACD and other skin disorders remains to be elusive. In this study, we generated conditional knockout mice in which HMGB1 is deleted in keratinocytes and examined its role in skin inflammation models including 2,4-dinitrofluorobenezene (DNFB)-induced ACD. Unexpectedly, deletion of HMGB1 in keratinocytes exacerbated skin inflammation, accompanied by increased ear thickening. Elevated mRNA expression of interleukin-24 (IL-24), a known cytokine which promotes the pathogenesis of ACD, was also observed in the skin lesion of the mice. In accordance with above observations, both constitutive and IL-4-induced Il24 mRNA expression in vitro was augmented in hmgb1-deficient primary mouse keratinocytes and keratinocyte cell line PAM212 cells. Chromatin immunoprecipitation (ChIP) analysis revealed increased binding of tri-methyl histone H3 (lys4) (H3K4me3), a well-known histone mark for transcription active genes, to the promoter region of the Il24 gene in the hmgb1-deficient cells. ChIP-sequencing data also showed broad changes of H3K4me3 mark in the cells. Thus, HMGB1 in the nucleus dictates histone modifications. In conclusion, our study demonstrated a key role for HMGB1 in keratinocytes in the maintenance of chromatin modification status to protect from exuberant skin inflammation.

Project description:To investigate the function of the NET-AIM2 axis on keratinocyte activation during psoriasis, we established psoriatic NETs-treated primary human keratinocytes in which AIM2 has been knocked down by siRNA

Project description:Neutrophil extracellular traps (NETs) promote inflammation and atherosclerosis progression. In diabetes they are increased and impair wound healing, during which inflammation normally resolves. Atherosclerosis regression, a process resembling wound healing, is also impaired in diabetes. Thus, we hypothesized that NETs impede atherosclerosis regression in diabetes through unresolved inflammation. Objective: To investigate in diabetes the effect of NETs on plaque macrophage inflammation and whether NETs reduction improves atherosclerosis regression. Findings: Transcriptomic profiling of plaque macrophages from NET positive and negative areas in Ldlr-/- mice revealed inflammasome and glycolysis pathway upregulation, indicating a pro-inflammatory phenotype. During atherosclerosis regression in non-diabetic mice, plaque NET content decreased. In contrast, in diabetic mouse plaques NETs were enriched and persisted after lipid-lowering. DNase1 treatment (to degrade NETs) of diabetic mice reduced plaque NETs and macrophage inflammation and improved atherosclerosis regression after lipid-lowering. Conclusions: NETs decline during atherosclerosis regression in non-diabetic mice, but persist in diabetes and impair regression by exacerbating macrophage inflammation. DNase1 reduced diabetic plaque NETs and macrophage inflammation, and restored atherosclerosis resolution after lipid-lowering, despite ongoing hyperglycemia. Given that humans with diabetes also exhibit impaired atherosclerosis resolution with lipid-lowering, these data suggest that NETs contribute to the increased CVD risk in this population.

Project description:Solid-pseudopapillary neoplasm of pancreas(SPN), ductal adenocarcinoma(PCA), neuroendocrine tumor(NET) and non-neoplastic pancreas. To investigate the specific gene expression of SPN compared to other types of pancreatic tumor, we analyzed large-scale gene expressioin analysis to identify the molecular signature that may affect SPN tumorigenesis. Differentially expressed genes were analyzed on SPNs, PCAs, NETs and Non-neoplastic tissues.

Project description:Solid-pseudopapillary neoplasm of pancreas(SPN), ductal adenocarcinoma(PCA), neuroendocrine tumor(NET) and non-neoplastic pancreas. To investigate the specific gene expression of SPN compared to other types of pancreatic tumor, we analyzed large-scale gene expressioin analysis to identify the molecular signature that may affect SPN tumorigenesis. Differentially expressed genes were analyzed on SPNs, PCAs, NETs and Non-neoplastic tissues. Solid-pseudopapillary neoplasm (SPN) is an uncommon pancreatic tumor with distinct clinicopathologic features. SPNs are characterized by mutations in exon 3 of CTNNB1. However, little is known about the gene and microRNA expression profiles of SPNs. Thus, we sought to characterize SPN-specific gene expression and identify the signaling pathways activated in these tumors. The mRNA expression profile of 14 SPNs, 6 pancreatic adenocarcinomas (PCAs), 6 pancreatic neuroendocrine tumors (NETs), and five non-neoplastic pancreatic tissues were analyzed.

Project description:Integrin α3β1 in hair bulge population affects the tumor formation following DMBA/TPA carcinogenesis protocol, however linage tracing showed that hair bulge cells do not largely contributre to tumor mass. To investigate whether α3β1 might affect tumor promoting environment and to better understand its role in hair bulge population during skin tumorigenesis, we determined the expresison profile of hair bulge-originating keratinocytes isolted from α3β1KO and WT mice during initiation of tumorigenesis.

Project description:Diabetic kidney disease (DKD) is the leading cause of end-stage renal disease. Neutrophil extracellular traps (NETs) are a network structure composed of loose chromatin and embedded with multiple proteins. Here, we observed increased NETs deposition in the glomeruli of DKD patients and diabetic mice (streptozotocin-induced or db/db mice). After degrading NETs with DNase I, diabetic mice exhibited attenuated glomerulopathy and glomerular endothelial cell (GEC) injury. We also observed alleviated glomerulopathy and GEC injury in peptidylarginine deiminase 4 (PAD4)-knockout mice with streptozotocin-induced diabetes. In vitro, NET-induced GEC pyroptosis was characterized by pore formation in the cell membrane, dysregulation of multiple genes involved in cell membrane function, and high expression of pyroptosis-related proteins. Strengthening the GEC surface charge by oleylamine significantly inhibited NET-induced GEC pyroptosis. These results indicate that NET-induced alterations in GEC charge are associated with GEC pyroptosis in the pathogenesis of DKD and suggest that NETs are a potential therapeutic target for DKD.

Project description:Neutrophil extracellular traps (NETs) contribute to inflammatory pathogenesis, especially in infectious and cardiovascular diseases. H2 gas acts as an antioxidant and has been clinically and experimentally proven to ameliorate inflammation. Therefore, we investigated whether H2 gas could inhibit NET formation associated with excessive neutrophil activation. Phorbol-12-myristate-13-acetate (PMA)-stimulated human neutrophils exposed to H2 exhibited reduced citrullination of histones, membrane disruption by chromatin complexes, and release of NET components over controls. Mechanistically, H2 suppressed the phosphorylation of Ser-139 residue in H2AX, a marker of DNA damage, thereby reducing the expression of CXC-chemokine receptor 4 (CXCR4) in PMA-stimulated neutrophils. Along with the upregulation of CXCR4, the intracellular content of myeloperoxidase (MPO) and the production of MPO-derived hypochlorous acid (HOCl) was increased; however, these effects were markedly suppressed in H2-exposed cultures. Thus, H2 neutralized HOCl produced by the oxidative burst, inhibited DNA damage, and subsequently inhibited NET formation. We further confirmed that inhalation of H2 inhibited the formation and release of NET components in the blood and bronchoalveolar lavage of a lipopolysaccharide-induced sepsis model in mice and aged minipigs. Therefore, H2 therapy has the potential to be a new therapeutic agent for inflammatory diseases involving NETs associated with excessive neutrophil activation.