Project description:Purpose:The present study investigated the influence of IL-18/18R genetic variants on cytokine expression in patients with stable coronary artery disease (CAD). Materials and methods:The polymorphisms rs1946518, rs187238, rs326, rs1169288, and rs183130 were determined in patients with and without CAD. Circulating cytokine levels were measured immunologically. Results:The rs1946518-GG genotype shows higher IL-18 concentration in the group with CAD, but still not significant. The TG genotype from rs1946518 in carriers with CAD showed a significant decrease in relation to the pro-inflammatory cytokines IL-6, IL-8, and IL-18. The decreases of IL-6 and IL-8 were also specific for rs187238 CAD carriers with the GC genotype. The CAD carriers with the AA genotype from rs326 in the IL-18R gene showed significant increase in IL-8 and IL-18 in comparison with those without CAD. Regarding rs1169288 from the IL-18R gene, IL-8 showed a T allele-dependent increase. In the last rs183130 polymorphism of the IL-18R gene, the pro-inflammatory onset showed a C allele-dependent disease-associated decrease in IL-8 CC and IL-6 CT carriers. In contrast, the CAD CT carriers in relation to IL-8 showed significant increase. Conclusions:Most of the IL-18/18R single-nucleotide polymorphisms were mainly associated with pro-inflammatory cytokines. It is surmised that these associations between some pro-inflammatory cytokines (mainly IL-8) and some IL-18R genotypes in the subjects with CAD from this study are most likely based on inflammatory-induced upregulation of IL-18R expression.

Project description:IntroductionThe proinflammatory cytokine IL-18 is involved in the pathogenesis of metabolic syndrome. While the changes in IL-18 are known, IL-18R expression and relationship with IL-18 and other inflammatory markers in the adipose tissue in obesity/type-2 diabetes (T2D) remain unclear.MethodsWe, therefore, determined the adipose tissue expression of IL-18R and IL-18 mRNA/protein in lean, overweight, and obese individuals with and without T2D, 15 each, using qRT-PCR, immunohistochemistry, and confocal microscopy. Data (mean?±?SEM) were analyzed using unpaired t-test and Pearson's correlation (r); all P values ?0.05 were considered statistically significant.ResultsWe found the upregulated gene/protein expression of IL-18R and IL-18 in non-diabetic obese/overweight as compared with lean individuals (P?<?0.05). BMI correlated positively (P?<?0.05) with the adipose tissue expression of IL-18R (mRNA: r?=?0.90 protein: r?=?0.84) and IL-18 (mRNA: r?=?0.84 protein: r?=?0.80). Similarly, in T2D individuals, gene and protein expression of IL-18R/IL-18 was significantly higher in obese as compared with overweight/lean individuals. The BMI was associated with the changes in both IL-18R (mRNA: r?=?0.55 protein: r?=?0.50) and IL-18 (mRNA: r?=?0.53 protein: r?=?0.57) expression. IL-18R/IL-18 gene expression in the adipose tissue was positively associated (P?<?0.05) with local gene expression of other inflammatory markers including CD11c, CD86, CD68, CD163, TNF-?, and CCL5. Homeostatic model assessment of insulin resistance (HOMA-IR) was higher in diabetic/non-diabetic obese and it correlated with BMI (P?<?0.05). IL-18R and IL-18 mRNA/protein expression in obesity was associated with HOMA-IR only in non-diabetics.ConclusionsThe adipose tissue IL-18R/IL-18 expression is enhanced in obesity which associates with proinflammatory gene signature and insulin resistance in these individuals.

Project description:Pressure overload-induced cardiac hypertrophy was examined in IL-18 knockout and littermate control mice. Keywords: genetic modification / disease model

Project description:We investigated the role of TRAF3 interacting protein 2 (TRAF3IP2), a redox-sensitive adapter protein and an upstream regulator of IKK and JNK in interleukin (IL)-18 induced smooth muscle cell migration, and the mechanism of its inhibition by simvastatin. The pleiotropic cytokine IL-18 induced human coronary artery SMC migration through the induction of TRAF3IP2. IL-18 induced Nox1-dependent ROS generation, TRAF3IP2 expression, and IKK/NF-κB and JNK/AP-1 activation. IL-18 induced its own expression and that of its receptor subunit IL-18Rα. Using co-IP/IB and GST pull-down assays, we show for the first time that the subunits of the IL-18R heterodimer physically associate with Nox1 under basal conditions, and IL-18 appears to enhance their binding. Importantly, the HMG-coA reductase inhibitor simvastatin attenuated IL-18-induced TRAF3IP2 induction. These inhibitory effects were reversed by mevalonate and geranylgeranylpyrophosphate (GGPP), but not by farnesylpyrophosphate (FPP). Interestingly, simvastatin, GGPP, FPP, or Rac1 inhibition did not modulate ectopically expressed TRAF3IP2. These results demonstrate that the promigratory effects of IL-18 are mediated through TRAF3IP2 in a redox-sensitive manner, and this may involve IL-18R/Nox1 physical association. Further, Simvastatin inhibits inducible, but not ectopically-xpressed TRAF3IP2. Targeting TRAF3IP2 may blunt progression of hyperplastic vascular diseases in vivo.

Project description:The oncolytic adenovirus (Ad) is currently being advanced as a promising antitumor remedy as it selectively replicates in tumor cells and can transfer and amplify therapeutic genes. Interleukin (IL)-12 induces a potent antitumor effect by promoting natural killer (NK) cell and cytotoxic T cell activities. IL-18 also augments cytotoxicity of NK cells and proliferation of T cells. This effect further enhances the function of IL-12 in a synergistic manner. Therefore, we investigated for the first time an effective cancer immunogene therapy of syngeneic tumors via intratumoral administration of oncolytic Ad co-expressing IL-12 and IL-18, RdB/IL-12/IL-18. Intratumoral administration of RdB/IL-12/IL-18 improved antitumor effects, as well as increased survival, in B16-F10 murine melanoma model. The ratio of T-helper type 1/2 cytokine as well as the levels of IL-12, IL-18, interferon-? and granulocyte-macrophage colony-stimulating factor was markedly elevated in RdB/IL-12/IL-18-treated tumors. Mice injected with RdB/IL-12/IL-18 also showed enhanced cytotoxicity of tumor-specific immune cells. Consistent with these results, immense necrosis and infiltration of NK cells, as well as CD4+ and CD8+ T cells, were observed in RdB/IL-12/IL-18-treated tumor tissues. Importantly, tumors treated with RdB/IL-12/IL-18 showed an elevated number of T cells expressing IL-12R?2 or IL-18R?. These results provide a new insight into therapeutic mechanisms of IL-12 plus IL-18 and provide a potential clinical cancer immunotherapeutic agent for improved antitumor immunity.

Project description:ObjectiveIn asthma, genome-wide association studies have shown that interleukin-18 (IL-18) receptor 1 gene (IL-18R1) and sputum IL-18 are increased during exacerbations. However, the role of the IL-18 axis in bronchial epithelial function is unclear. To investigate IL-18, IL-18 binding protein (BP) and IL-18R expression in bronchial biopsies and sputum samples from patients with asthma, and to determine its functional role using in vitro bronchial epithelial cells.MethodsThe expression of IL-18, IL-18BP and IL-18Rα was examined in subjects with asthma and healthy controls in bronchial biopsies by immunohistochemistry and IL-18 and IL-18BP release in sputum. In epithelial cells, the mRNA and protein expression of IL-18, IL-18BP, IL-18Rα and IL-18Rβ was assessed by qPCR, flow cytometry, Western blotting and immunofluorescence respectively. IL-18 function in epithelial cells was examined by intracellular calcium, wound repair, synthetic activation and epithelial differentiation changes.ResultsIn biopsies from subjects with asthma, the IL-18 expression was not different in the lamina propria compared with controls but was decreased in the epithelium. In contrast, the IL-18BP was decreased in the lamina propria in asthma and was absent in the bronchial epithelium. IL-18 was released in sputum with IL-18BP elevated in patients with asthma. The IL-18Rα expression was not different between health and disease. In vitro, IL-18-stimulated bronchial epithelial cells increased intracellular calcium, wound repair, metabolic activity, morphological changes and epithelial cellular differentiation.ConclusionIn asthma, the dynamic interaction between IL-18, its cognate receptor and natural inhibitor is complex, with differences between airway compartments. Upregulation of IL-18 can promote epithelial activation and cellular differentiation.

Project description:Induction of the cell cycle is emerging as an intervention to treat heart failure. Here, we tested the hypothesis that enhanced cardiomyocyte renewal in transgenic mice expressing cyclin D2 would be beneficial during hemodynamic overload. We induced pressure overload by transthoracic aortic constriction (TAC) or volume overload by aortocaval shunt in cyclin D2-expressing and WT mice. Although cyclin D2 expression dramatically improved survival following TAC, it did not confer a survival advantage to mice following aortocaval shunt. Cardiac function decreased following TAC in WT mice, but was preserved in cyclin D2-expressing mice. On the other hand, cardiac structure and function were compromised in response to aortocaval shunt in both WT and cyclin D2-expressing mice. The preserved function and improved survival in cyclin D2-expressing mice after TAC was associated with an approximately 50% increase in cardiomyocyte number and exaggerated cardiac hypertrophy, as indicated by increased septum thickness. Aortocaval shunt did not further impact cardiomyocyte number in mice expressing cyclin D2. Following TAC, cyclin D2 expression attenuated cardiomyocyte hypertrophy, reduced cardiomyocyte apoptosis, fibrosis, calcium/calmodulin-dependent protein kinase II? phosphorylation, brain natriuretic peptide expression, and sustained capillarization. Thus, we show that cyclin D2-induced cardiomyocyte renewal reduced myocardial remodeling and dysfunction after pressure overload but not after volume overload.

Project description:Cardiac hypertrophic preconditioning (HP) signifies cardioprotection induced by transient pressure overload to resist hypertrophic effects of subsequently sustained pressure overload. Although it is recently found that inflammation triggers the development of nonischemic cardiomyopathy, whether inflammation plays a role in the antecedent protective effects of HP remains unknown. Caspase-1 is a critical proinflammatory caspase that also induces pyroptosis; thus, we investigated the role of caspase-1 using a unique model of HP in mice subjected longitudinally to 3 days of transverse aortic constriction (TAC 3d), 4 days of de-constriction (De-TAC 4d), and 4 weeks of Re-TAC (Re-TAC 4W). Echocardiography, hemodynamics, histology, PCR, and western blot confirmed preserved cardiac function, alleviated myocardial hypertrophy and fibrosis, and less activated hypertrophic signaling effectors in Re-TAC 4W mice, compared with TAC 4W mice. Mechanistically, caspase-1 and its downstream targets IL-1β and IL-18, but not GSDMD, were less activated in Re-TAC 4W mice. Furthermore, in HP mice with AAV-9-mediated cardiac-specific caspase-1 overexpression, the salutary effects of HP were remarkably abrogated, as evidenced by exacerbated cardiac remodeling, dysfunction, and activation of IL-1β and IL-18. Collectively, this study revealed a previously unrecognized involvement of caspase-1 in cardiac HP by regulation of IL-1β and IL-18 and shed light on caspase-1 as an antecedent indicator and target for cardiac hypertrophy.

Project description:IL-18 has been found to be associated with eczema. However, little is known of the role of IL-18 binding protein (BP) and IL-18 receptor (R) in eczema. We therefore investigated the expression of IL-18, IL-18BP, and IL-18R on mast cells by using flow cytometry analysis and mouse eczema model. The results showed that plasma free IL-18 and free IL-18BP levels in eczema patients were higher than those in healthy controls. IL-18 provoked up to 3.1-fold increase in skin mast cells. IL-18 induced also an increase in IL-18BP+ mast cells, but a reduction of IL-18R+ mast cells in mouse eczema skin. It was found that house dust mite allergen Der p1 and egg allergen OVA induced upregulation of the expression of IL-18, IL-18BP, and IL-18R mRNAs in HMC-1 cells following 2 and 16 h incubation. In conclusion, correlation of IL-18 and IL-18BP in eczema plasma suggests an important balance between IL-18 and IL-18BP in eczema. The decrease in molar concentration ratio of plasma IL-18BP/IL-18 and allergen-induced upregulated expression of IL-18 and IL-18R in skin mast cells of the patients with eczema suggests that anti-IL-18 including IL-18BP therapy may be useful for the treatment of eczema.

Project description:Obesity leads to metabolic heart disease (MHD) that is associated with a pathologic increase in myocardial fatty acid (FA) uptake and impairment of mitochondrial function. The mechanism of mitochondrial dysfunction in MHD, which results in oxidant production and decreased energetics, is poorly understood but may be related to excess FAs. Determining the effects of cardiac FA excess on mitochondria can be hindered by the systemic sequelae of obesity. Mice with cardiomyocyte-specific overexpression of the fatty acid transport protein FATP1 have increased cardiomyocyte FA uptake and develop MHD in the absence of systemic lipotoxicity, obesity or diabetes. We utilized this model to assess 1) the effect of cardiomyocyte lipid accumulation on mitochondrial structure and energetic function and 2) the role of lipid-driven transcriptional regulation, signaling, toxic metabolite accumulation, and mitochondrial oxidative stress in lipid-induced MHD.Cardiac lipid species, lipid-dependent signaling, and mitochondrial structure/function were examined from FATP1 mice. Cardiac structure and function were assessed in mice overexpressing both FATP1 and mitochondrial-targeted catalase.FATP1 hearts exhibited a net increase (+12%) in diacylglycerol, with increases in several very long-chain diacylglycerol species (+160-212%, p<0.001) and no change in ceramide, sphingomyelin, or acylcarnitine content. This was associated with an increase in phosphorylation of PKC? and PKC?, and a decrease in phosphorylation of AKT and expression of CREB, PGC1?, PPAR? and the mitochondrial fusion genes MFN1, MFN2 and OPA1. FATP1 overexpression also led to marked decreases in mitochondrial size (-49%, p<0.01), complex II-driven respiration (-28.6%, p<0.05), activity of isolated complex II (-62%, p=0.05), and expression of complex II subunit B (SDHB) (-60% and -31%, p<0.01) in the absence of change in ATP synthesis. Hydrogen peroxide production was not increased in FATP1 mitochondria, and cardiac hypertrophy and diastolic dysfunction were not attenuated by overexpression of catalase in mitochondria in FATP1 mice.Excessive delivery of FAs to the cardiac myocyte in the absence of systemic disorders leads to activation of lipid-driven signaling and remodeling of mitochondrial structure and function.