Masayoshi Nakanishi scite author profile

Prostaglandin E2 (PGE2) is a bioactive lipid that elicits a wide range of biological effects associated with inflammation and cancer. PGE2 exerts diverse effects on cell proliferation, apoptosis, angiogenesis, inflammation and immune surveillance. This review concentrates primarily on gastrointestinal cancers, where the actions of PGE2 are most prominent, most likely due to the constant exposure to dietary and environmental insults and the intrinsic role of PGE2 in tissue homeostasis. A discussion of recent efforts to elucidate the complex and interconnected pathways that link PGE2 signaling with inflammation and cancer is provided, supported by the abundant literature showing a protective effect of NSAIDs and the therapeutic efficacy of targeting mPGES-1 or EP receptors for cancer prevention. However, suppressing PGE2 formation as a means of providing chemoprotection against all cancers may not ultimately be tenable, undoubtedly the situation for patients with inflammatory bowel disease. Future studies to fully understand the complex role of PGE2 in both inflammation and cancer will be required to develop novel strategies for cancer prevention that are both effective and safe.

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Plasma MicroRNA 499 as a Biomarker of Acute Myocardial Infarction

Adachi¹,

Nakanishi²,

Otsuka³

et al. 2010

343

285

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BACKGROUND: MicroRNAs (miRNAs) are endogenous small RNAs 21-25 nucleotides in length. Recently, we reported that miRNA 208 (miR-208) is produced exclusively in the rat myocardium and that plasma miR-208 is a biomarker of myocardial injury in rats. In the present study, we assessed the hypothesis that plasma concentrations of myocardial-specific miRNAs can be used to diagnose myocardial injury in humans.

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NRSF regulates the fetal cardiac gene program and maintains normal cardiac structure and function

et al. 2003

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Reactivation of the fetal cardiac gene program is a characteristic feature of hypertrophied and failing hearts that correlates with impaired cardiac function and poor prognosis. However, the mechanism governing the reversible expression of fetal cardiac genes remains unresolved. Here we show that neuronrestrictive silencer factor (NRSF), a transcriptional repressor, selectively regulates expression of multiple fetal cardiac genes, including those for atrial natriuretic peptide, brain natriuretic peptide and a-skeletal actin, and plays a role in molecular pathways leading to the re-expression of those genes in ventricular myocytes. Moreover, transgenic mice expressing a dominant-negative mutant of NRSF in their hearts exhibit dilated cardiomyopathy, high susceptibility to arrhythmias and sudden death. We demonstrate that genes encoding two ion channels that carry the fetal cardiac currents I f and I Ca,T , which are induced in these mice and are potentially responsible for both the cardiac dysfunction and the arrhythmogenesis, are regulated by NRSF. Our results indicate NRSF to be a key transcriptional regulator of the fetal cardiac gene program and suggest an important role for NRSF in maintaining normal cardiac structure and function.

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Reduced miR-146a Increases Prostaglandin E₂ in Chronic Obstructive Pulmonary Disease Fibroblasts

Satô

Liu

Nelson

et al. 2010

Am J Respir Crit Care Med

174

177

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Correlation between immune-related adverse events and efficacy in non-small cell lung cancer treated with nivolumab

et al. 2018

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