Sepsis is a subtype of systemic inflammatory response syndrome (SIRS), which is characterized by infection. Circulating microRNAs (miRNAs), including miR-150, miR-146a and miR-223, are potential biomarkers of sepsis. In this study, we demonstrated that measuring the relative expression of miR-146a/U6 in plasma, using the 2−ΔΔCt method, provides a method for differentiating between sepsis and non-sepsis-SIRS. We observed a significant increase in miR-146a expression in the initial cohort of 6 non-sepsis-SIRS patients compared to the 4 sepsis patients (P=0.01) and in the second cohort of 8 non-sepsis-SIRS patients compared to the 10 sepsis patients (P=0.027). Additionally, we identified that sodium citrate and ethylenediaminetetraacetic acid (EDTA) K2 may be used as anticoagulant reagents. Generation of a standard curve is not necessary in these diagnostic tests, unless the standard of normalization is carefully selected. Thus we provide more detailed guidance for the clinical use of circulating miRNA biomarkers.
In this paper, considering the financial performance of China's listed companies as the dependent variable, a computational intelligence method based on genetic algorithms and discriminant analysis is employed to screen variables that influence financial performance and forecast the change of financial performance. Specifically, a new model based on genetic algorithms is developed to screen factors that influence financial performance of Chinese listed companies. The empirical results show that variables selected by genetic algorithms can predict financial performance well.
MicroRNAs (miRNAs) have emerged as key mediators of posttranscriptional gene silencing in both pathogenic and pathological aspects of ischemic stroke biology. Therefore, the purpose of present study was to explore the effect of microRNA-199b-3p (miR-199b-3p) on the cerebral microvascular endothelial cells (CMECs) in middle cerebral artery occlusion-reperfusion (MCAO-R) mice by regulating MAPK/ERK/EGR1 axis. Mice were used to establish MCAO-R models and to measure the expression of miR-199b-3p and the MAPK/ERK/EGR1 axis-related genes. CMECs were extracted from the MCAO-R mice. A series of mimic or inhibitor for miR-199b-3p, or U0126 (an inhibitor for the MAPK/ERK/EGR1 axis) were introduced to treat these CMECs. The levels of miR-199b-3p and MAPK/ERK/EGR1 axisrelated genes in tissues and cells were detected. The effects miR-199b-3p on the process of CMECs, including cell viability, cell cycle and cell apoptosis were evaluated. miR-199b-3p expressed poorly in the brain tissues after MCAO-R, along with activated MAPK/ERK/EGR1 axis and increased CMECs apoptosis. CMECs transfected with miR-199b-3p mimics and U0126 manifested with increased cell viability, more cells arrested at the S stage, and inhibited apoptosis of CMECs. In conclusion, these key results demonstrated up-regulated miR-199b-3p could protect mice against ischemic stroke by inhibiting the apoptosis of CMECs through blockade of MAPK/ERK/EGR1 axis.
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