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ABSTRACT: : Acquired glucocorticoid resistance frequently complicates the therapy of sepsis. It leads to an exaggerated proinflammatory response and has been related to altered expression profiles of glucocorticoid receptor isoforms glucocorticoid receptor-α (mediating anti-inflammatory effects) and glucocorticoid receptor-β (acting as a dominant negative inhibitor). We investigated the impact of glucocorticoid receptor isoforms on glucocorticoid effects in human T-cells. We hypothesized that 1) changes of the ratio of glucocorticoid receptor isoforms impact glucocorticoid resistance and 2) glucocorticoid receptor-α expression is controlled by microRNA-mediated gene silencing.
: Laboratory-based study.
: University research laboratory. SUBJECTS AND PATIENTS:: Healthy volunteers, sepsis patients.
: First, T-cells from healthy volunteers (native and CD3/CD28-stimulated cells with or without addition of hydrocortisone) were analyzed for the expression of glucocorticoid receptor-isoforms by quantitative polymerase chain reaction. Additionally, effects of gene silencing of glucocorticoid receptor-β by siRNA transfection were determined. Secondly, microRNA-mediated silencing was evaluated by cloning of a glucocorticoid receptor-α-specific 3'-untranslated-region reporter construct and subsequent transfection experiments in cell cultures. Effects of miRNA transfection on glucocorticoid receptor-α expression were analyzed in Jurkat T-cells and in T-cells from healthy volunteers (quantitative polymerase chain reaction and Western blotting). Finally, expression of glucocorticoid receptor-α, glucocorticoid receptor-β, and miR-124 was tested in T-cells of sepsis patients (n = 24).
: Stimulation of T-cells induced a significant upregulation of glucocorticoid receptor-α (not glucocorticoid receptor-β) thereby possibly rendering T-cells more sensitive to glucocorticoids; this T-cell response was hindered by hydrocortisone. Silencing of glucocorticoid receptor-β doubled the inhibitory effects of glucocorticoids on interleukin-2 production. MicroRNA-124 was proved to specifically downregulate glucocorticoid receptor-α. Furthermore, a glucocorticoid-induced three-fold upregulation of microRNA-124 was found. T-cells of sepsis patients exhibited slightly decreased glucocorticoid receptor-α and slightly increased miR-124 expression levels, whereas glucocorticoid receptor-β expression was two-fold upregulated (p < .01) and exhibited a remarkable interindividual variability.
: Glucocorticoid treatment induces expression of miR-124, which downregulates glucocorticoid receptor-α thereby limiting anti-inflammatory effects of glucocorticoids. Steroid treatment might aggravate glucocorticoid resistance in patients with high glucocorticoid receptor-β levels.
Critical care medicine 07/2012; 40(10):2745-53. · 6.37 Impact Factor
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ABSTRACT: Immunosuppressive signaling via the adenosine A2A receptor (A2AR) is an important pathway to control inflammation. In immune cells, expression levels of A2ARs influence responsiveness to inflammatory stimuli. However, mechanisms driving expressional changes of A2ARs are still largely elusive. In the current study, we have investigated the impact of microRNAs (miRNAs) on A2AR expression in human polymorphonuclear leukocytes (PMNs) and T cells. Bioinformatic analyses and reporter gene assays revealed that A2AR expression is controlled by miRNA-214, miRNA-15, and miRNA-16. We detected all three miRNAs in both human PMNs and T cells. However, in PMNs, up to 10-fold higher levels of miRNA-16 and miRNA-214 were detected as compared with T cells. Upon in vitro stimulation, no significant expressional changes occurred. Expression levels of all three miRNAs strongly differed between individuals. A2AR expression also exhibited significant differences between PMNs and T cells: In PMNs, more than a 60-fold increase was seen upon LPS stimulation, whereas in T cells only a 2-fold increase was observed upon anti-CD3/CD28 activation. The extent of A2AR upregulation in PMNs strongly differed between individuals (from less than 10-fold to more than 100-fold). In PMNs, the increase in A2AR mRNA expression upon stimulation was inversely correlated with the expression levels of miRNA-214, miRNA-15, and miRNA-16 (R = -0.87, P < 0.0001); no correlation was found in human T cells. These results indicate that individual miRNA profiles gain important influence on A2AR expression regulation in PMNs upon stimulation. Determination of miRNA expression levels may help to identify patients with an increased risk for severe inflammation.
Shock (Augusta, Ga.) 02/2012; 37(2):156-63. · 2.87 Impact Factor
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ABSTRACT: : Immunosuppressive signalling via the adenosine A2A receptor (A2AR) is an important pathway to control inflammation. In immune cells expression levels of A2ARs influence responsiveness to inflammatory stimuli. However, mechanisms driving expressional changes of A2ARs are still largely elusive. In the current study, we have investigated the impact of miRNAs on A2AR expression in human polymorphonuclear leukocytes (PMN) and T-cells. Bioinformatic analyses and reporter gene assays revealed that A2AR expression is controlled by miRNA-214, miRNA-15, and miRNA-16. We detected all three miRNAs in both human PMN and T-cells. However, in PMN, up to 10-fold higher levels of miRNA-16 and miRNA-214 were detected as compared to T-cells. Upon in-vitro stimulation no significant expressional changes occurred. Expression levels of all three miRNAs strongly differed between individuals. A2AR expression also exhibited significant differences between PMN and T-cells: In PMN a more than 60-fold increase was seen upon LPS-stimulation, while in T-cells only a 2-fold increase was observed upon anti-CD3/CD28 activation. The extent of A2AR up-regulation in PMN strongly differed between individuals (from less than 10-fold to more than 100-fold). In PMN, the increase of A2AR mRNA expression upon stimulation was inversely correlated with the expression levels of miRNA-214, miRNA-15, and miRNA-16 (R= -0.87, p<0.0001); no correlation was found in human T-cells. These results indicate that individual miRNA profiles gain important influence on A2AR expression regulation in PMN upon stimulation. Determination of miRNA expression levels may help to identify patients with an increased risk for severe inflammation.
Shock (Augusta, Ga.) 11/2011; · 2.87 Impact Factor
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ABSTRACT: We analyzed prospectively whether MGMT (O(6)-methylguanine-DNA methyltransferase) mRNA expression gains prognostic/predictive impact independent of MGMT promoter methylation in malignant glioma patients undergoing radiotherapy with concomitant and adjuvant temozolomide or temozolomide alone. As DNA-methyltransferases (DNMTs) are the enzymes responsible for setting up and maintaining DNA methylation patterns in eukaryotic cells, we analyzed further, whether MGMT promoter methylation is associated with upregulation of DNMT expression.
ADULT PATIENTS WITH A HISTOLOGICALLY PROVEN MALIGNANT ASTROCYTOMA (GLIOBLASTOMA: N = 53, anaplastic astrocytoma: N = 10) were included. MGMT promoter methylation was determined by methylation-specific PCR (MSP) and sequencing analysis. Expression of MGMT and DNMTs mRNA were analysed by real-time qPCR. Prognostic factors were obtained from proportional hazards models. Correlation between MGMT mRNA expression and MGMT methylation status was validated using data from the Cancer Genome Atlas (TCGA) database (N = 229 glioblastomas). Low MGMT mRNA expression was strongly predictive for prolonged time to progression, treatment response, and length of survival in univariate and multivariate models (p<0.0001); the degree of MGMT mRNA expression was highly correlated with the MGMT promoter methylation status (p<0.0001); however, discordant findings were seen in 12 glioblastoma patients: Patients with methylated tumors with high MGMT mRNA expression (N = 6) did significantly worse than those with low transcriptional activity (p<0.01). Conversely, unmethylated tumors with low MGMT mRNA expression (N = 6) did better than their counterparts. A nearly identical frequency of concordant and discordant findings was obtained by analyzing the TCGA database (p<0.0001). Expression of DNMT1 and DNMT3b was strongly upregulated in tumor tissue, but not correlated with MGMT promoter methylation and MGMT mRNA expression.
MGMT mRNA expression plays a direct role for mediating tumor sensitivity to alkylating agents. Discordant findings indicate methylation-independent pathways of MGMT expression regulation. DNMT1 and DNMT3b are likely to be involved in CGI methylation. However, their exact role yet has to be defined.
PLoS ONE 01/2011; 6(2):e17156. · 4.09 Impact Factor
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ABSTRACT: The choice of reliable reference genes is a prerequisite for valid results when analyzing gene expression with real-time quantitative PCR (qPCR). This method is frequently applied to study gene expression patterns in immune cells, yet a thorough validation of potential reference genes is still lacking for most leukocyte subtypes and most models of their in vitro stimulation. In the current study, we evaluated the expression stability of common reference genes in two widely used cell culture models-anti-CD3/CD28 activated T cells and lipopolysaccharide stimulated neutrophils-as well as in unselected untreated leukocytes.
The mRNA expression of 17 (T cells), 7 (neutrophils) or 8 (unselected leukocytes) potential reference genes was quantified by reverse transcription qPCR, and a ranking of the preselected candidate genes according to their expression stability was calculated using the programs NormFinder, geNorm and BestKeeper. IPO8, RPL13A, TBP and SDHA were identified as suitable reference genes in T cells. TBP, ACTB and SDHA were stably expressed in neutrophils. TBP and SDHA were also the most stable genes in untreated total blood leukocytes. The critical impact of reference gene selection on the estimated target gene expression is demonstrated for IL-2 and FIH expression in T cells.
The study provides a shortlist of suitable reference genes for normalization of gene expression data in unstimulated and stimulated T cells, unstimulated and stimulated neutrophils and in unselected leukocytes.
BMC Research Notes 01/2011; 4:427.
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ABSTRACT: Ghrelin, a peptide hormone predominantly produced by the stomach, is a potent stimulator of growth hormone release, food intake and weight gain. Besides its functions in regulating energy homeostasis, ghrelin has pronounced cardioprotective effects and was shown to improve cardiac performance in chronic heart failure (CHF). The multifunctional nature of ghrelin makes it an interesting pharmacological target for various diseases. Inhibition of ghrelin could be a promising approach in obesity-related disorders, while an enhancement of the ghrelin response is considered beneficial in several pathologic conditions marked by malnutrition, wasting and cachexia, including CHF, cancer, chronic pulmonary disease or chronic infections. In particular, patients suffering from CHF could possibly benefit from ghrelin based compounds that do not only help to reverse cardiac cachexia - by inducing a positive energy balance - but also enhance the direct cardioprotective effects of ghrelin. This review highlights the role of ghrelin in the regulation of energy balance and cardiovascular function and summarizes the most recent patents, developments and strategies in ghrelin-based pharmacotherapy for the treatment of pathologic conditions associated with obesity, cachexia or cardiovascular dysfunction.
Recent Patents on Endocrine Metabolic & Immune Drug Discovery 01/2011; 5(1):1-6.
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ABSTRACT: Ghrelin is a peptide hormone mainly produced by the stomach, which strongly stimulates the release of growth hormone (GH) via the GH secretagogue receptor 1a (GHSR-1a) located in the hypothalamus. It has been reported to exert performance-enhancing effects on myocardial function, and as both ghrelin and GHSR-1a are expressed in myocardial tissues, the ghrelin system may have a direct GH-independent impact on cardiac function. We intended to investigate the expression of ghrelin and its receptor GHSR-1a in different myocardial areas of patients with chronic heart failure (CHF) as compared to heart-healthy subjects to better define the role of the ghrelin signaling system in the networks regulating cardiac function and its potential as a target for diagnosis and/or treatment of CHF. Myocardium biopsies of 12 patients undergoing heart transplantation and suffering from CHF were obtained. Expression of both ghrelin and GHSR-1a was assessed by means of immunohistochemistry and real-time PCR. Expression of ghrelin was significantly decreased in CHF hearts both in atrium and ventricles in comparison to the control hearts (p<0.05). The expression of the GHS-1a receptor was significantly increased in the CHF biopsies as compared to controls (p<0.05). No significant differences were found between the anatomical areas studied. Expression of myocardial ghrelin and GHSR-1a is directly associated with myocardial function: CHF hearts exhibit an impaired ghrelin production which might reflect maladaptive processes and an - probably compensatory - increase in GHSR-1a expression. These findings may open up new perspectives regarding the potential of ghrelin signaling as a target for pharmacological modulation.
Peptides 12/2010; 31(12):2222-8. · 2.43 Impact Factor
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ABSTRACT: The phosphodiesterase inhibitor pentoxifylline (PTX) exerts multiple beneficial immunomodulatory effects in states of hyperinflammation. However, the exact mechanism of action still remains elusive, and the clinical effects of PTX cannot be reliably predicted. In immune cells, the G protein-coupled adenosine A2A receptor (A2AR) exerts strong anti-inflammatory effects. As PTX amplifies signaling pathways downstream of Gs protein-coupled receptors, the A2AR-signaling pathway might be involved in the mediation of immune-suppressive effects of PTX. Here, we investigated this assumption in LPS-stimulated human polymorphonuclear (PMN) leukocytes and in anti-CD3/CD28-stimulated human T cells. In stimulated PMN leukocytes, PTX treatment led to a 4.5-fold decrease of the 50% inhibitory concentrations of adenosine on the H2O2 production; i.e., for adenosine plus PTX (in clinically relevant concentrations), an overadditive increase of inhibitory effects from less than 20% (estimated for each) to 56% (+/-5%) was found. In T cells, adenosine plus PTX revealed similar synergistic inhibitory effects on proinflammatory cytokine production. Inhibition of interferon gamma and TNF-alpha production increased from 7% (+/-1%) and 31% (+/-6%) (PTX alone) to 49% (+/-2%) and 69% (+/-6%), respectively. In T cells and PMN leukocytes, mRNA transcription of the A2AR was significantly increased upon stimulation, which was not influenced by PTX. In human PMN leukocytes and T cells, clinically relevant anti-inflammatory effects of PTX can be achieved only in the presence of sufficient adenosine concentrations. Sufficient adenosine levels might be a prerequisite for the accessibility of sepsis patients to treatment with PTX.
Shock (Augusta, Ga.) 12/2009; 34(1):10-6. · 2.87 Impact Factor
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ABSTRACT: The enhanced release of reactive oxygen species by excessively activated polymorphonuclear leucocytes (PMN) is a key step in the pathogenesis of sepsis. Potent action of adenosine in inhibiting cytotoxic PMN functions has been documented. Recent data, however provide evidence that in sepsis a diminished capability of adenosine to inhibit the generation of oxygen radicals by PMN occurs. Here, we investigated the underlying mechanisms in an in vitro sepsis model and in PMN of sepsis patients. We report that lipopolysaccharide (LPS)-incubation of human PMN elicited the same increase in the half-maximal inhibitory concentration (IC(50)) of adenosine as observed in patients with septic shock. Coupling to adenylyl cyclase was impaired as well, as indicated by a decreased potency of adenosine to stimulate cyclic adenosine monophosphate (cAMP) accumulation. Ligand-binding studies conducted with native, LPS-stimulated PMN, and with PMN of sepsis patients revealed that, despite an increased adenosine A(2A) receptor (A(2A)R) expression, the receptor function declines due to a diminished ligand-binding affinity most likely caused by allosteric modulators within the inflammatory environment. A(2A)R function obviously is highly dependent upon the cellular environment and thus, further functional characterization of A(2A)R responses in sepsis may be a promising approach to develop new adenosine or A(2A)R agonists based therapeutic strategies.
Journal of Cellular and Molecular Medicine 06/2009; 13(5):985-94. · 4.13 Impact Factor
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Journal of Cellular and Molecular Medicine - J CELL MOL MED. 01/2009; 13(5):985-994.
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ABSTRACT: A key step in the pathogenesis of sepsis is the excessive and uncontrolled activation of polymorphonuclear neutrophils (PMNs). An inflammation-controlling function of adenosine receptors has been presumed; however, their role in PMN of sepsis patients is poorly defined. We investigated the expression of adenosine receptors in resting and lipopolysaccharide (LPS) -activated human PMNs, and in PMNs of sepsis patients. Our studies revealed that native human PMNs express almost equal distributions of all four adenosine receptor subtype transcripts, whereas exclusively the A(2A) receptor (A(2A)R) was up-regulated in LPS-stimulated PMNs and PMNs of sepsis patients. As a possible mechanism, we identified and fully characterized eight 5'-untranslated region (UTR) splice variants of the A(2A)R gene resulting from alternative transcription and/or splicing of five noncoding exons. We report a differential, activation state-specific expression of 5'-UTR variants within the same cell type, indicating a new mechanism to modulate gene expression: In resting human PMNs, mainly A(2A)R transcripts with long 5'-UTRs are expressed, whereas in stimulated PMNs and PMNs of septic patients, short 5'-UTRs predominate. Transcripts with short 5'-UTRs are more efficiently translated into protein. The correlation between changes of transcript patterns and A(2A)R up-regulation offers interesting clues regarding the course of sepsis.
The FASEB Journal 07/2008; 22(9):3276-86. · 5.71 Impact Factor
