The beneficial actions of nonsteroidal anti-inflammatory drugs (NSAIDs) have been linked to their ability to inhibit inducible COX-2 at sites of inflammation, and their side effects (e.g., gastric damage) to inhibition of constitutive COX-1. Selective inhibitors of COX-2, such as celecoxib, etoricoxib, lumiracoxib, rofecoxib, and valdecoxib have been developed and the greatest recent growth in our knowledge in this area has been come from the clinical use of these compounds. Although clinical data indicate that COX-2 selectivity is associated with a reduction in severe gastrointestinal events, they also reveal there are roles for constitutive COX-2 within tissues such as the brain, kidney, pancreas, intestine, and blood vessels. We now better understand the roles of COX-1 and COX-2 in functions as disparate as the perception of pain and the progression of cancers. Clinical use of COX-2-selective compounds has ignited strong debates regarding potential side effects, most notably those within the cardiovascular system such as myocardial infarctions, strokes, and elevation in blood pressure. This review will discuss how the latest studies help us understand the roles of COX-1 and COX-2 and what clinically proven benefits the newer generation of COX-2-selective inhibitors offer
Pioneering studies have revealed the presence of endogenous microRNAs (miRNAs) in the circulation that are not cell-associated. 1 The cellular origin and the biological function of circulating miRNAs, however, are less clear. Editorial, see p 576We have previously quantified circulating miRNAs in a large population-based cohort, the Bruneck study.3,4 Using concepts of network topology, 5 we identified altered miRNA signatures in patients with type 2 diabetes mellitus 3 and with future myocardial infarction. 4 In addition, we subjected healthy volunteers to limb ischemia-reperfusion generated by thigh cuff inflation. 4 Computational analysis identified 6 distinct miRNA clusters. 4 One cluster included all miRNAs associated with risk of myocardial infarction and consisted of miRNAs predominantly expressed in platelets. Microarray screening revealed that miR-126, miR-197, miR-223, miR-24, and miR-21 are among the most highly expressed miRNAs in platelets and platelet microparticles (PMPs), and their circulating levels correlated with PMPs as quantified by flow cytometry.Original received November 14, 2012; revision received December 21, 2012; accepted December 28, 2012. In November 2012, the average time from submission to first decision for all original research papers submitted to Circulation Research was 15.8 days.Brief UltraRapid Communications are designed to be a format for manuscripts that are of outstanding interest to the readership, report definitive observations, but have a relatively narrow scope.
Aspirin is a unique nonsteroidal anti-inflammatory drug; at high doses (aspirinhigh, 1g), it is anti-inflammatory stemming from the inhibition of cyclooxygenase and proinflammatory signaling pathways including NF-κB, but is cardioprotective at lower doses (aspirinlow, 75 mg). The latter arises from the inhibition of thromboxane (Tx) B2, a prothrombotic eicosanoid also implicated in polymorphonuclear leukocyte trafficking. As a result, aspirinlow is widely used as a primary and secondary preventative against vascular disease. Despite this and its ability to synthesize proresolution 15-epi-lipoxin A4 it is not known whether aspirinlow is anti-inflammatory in humans. To address this, we generated skin blisters by topically applying cantharidin on the forearm of healthy male volunteers, causing an acute inflammatory response including dermal edema formation and leukocyte trafficking. Although not affecting blister fluid volume, aspirinlow (75 mg, oral, once daily/10 days) reduced polymorphonuclear leukocyte and macrophage accumulation independent of NF-κB-regulated gene expression and inhibition of conventional prostanoids. However, aspirinlow triggered 15-epi-lipoxin A4 synthesis and up-regulated its receptor (FPRL1, ALX). From complimentary in vitro experiments, we propose that 15-epi-lipoxin A4 exerts its protective effects by triggering antiadhesive NO, thereby dampening leukocyte/endothelial cell interaction and subsequent extravascular leukocyte migration. Since similar findings were obtained from murine zymosan-induced peritonitis, we suggest that aspirinlow possesses the ability to inhibit mammalian innate immune-mediated responses. This highlights 15-epi-lipoxin A4 as a novel anti-inflammatory working through a defined receptor and suggests that mimicking its mode of action represents a new approach to treating inflammation-driven diseases.
The Omicron, or Pango lineage B.1.1.529, variant of SARS-CoV-2 carries multiple spike mutations with high transmissibility and partial neutralizing antibody (nAb) escape. Vaccinated individuals show protection from severe disease, often attributed to primed cellular immunity. We investigated T and B cell immunity against B.1.1.529 in triple mRNA vaccinated healthcare workers (HCW) with different SARS-CoV-2 infection histories. B and T cell immunity against previous variants of concern was enhanced in triple vaccinated individuals, but magnitude of T and B cell responses against B.1.1.529 spike protein was reduced. Immune imprinting by infection with the earlier B.1.1.7 (Alpha) variant resulted in less durable binding antibody against B.1.1.529. Previously infection-naïve HCW who became infected during the B.1.1.529 wave showed enhanced immunity against earlier variants, but reduced nAb potency and T cell responses against B.1.1.529 itself. Previous Wuhan Hu-1 infection abrogated T cell recognition and any enhanced cross-reactive neutralizing immunity on infection with B.1.1.529.
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