2'-O-(2-Methoxyethyl) Nucleosides Are Not Phosphorylated or Incorporated Into the Genome of Human Lymphoblastoid TK6 Cells.

Nucleoside analogs with 2'-modified sugar moieties are often used to improve the RNA target affinity and nuclease resistance of therapeutic oligonucleotides in preclinical and clinical development. Despite their enhanced nuclease resistance, oligonucleotides could slowly degrade releasing nucleoside analogs that have the potential to become phosphorylated and incorporated into cellular DNA and RNA. For the first time, the phosphorylation and DNA/RNA incorporation of 2'-O-(2-methoxyethyl) (2'-O-MOE) nucleoside analogs have been investigated. Using liquid chromatography/tandem mass spectrometry, we showed that enzymes in the nucleotide salvage pathway including deoxycytidine kinase (dCK) and thymidine kinase (TK1) displayed poor reactivity toward 2'-O-MOE nucleoside analogs. On the other hand, 2'-fluoro (F) nucleosides, regardless of the nucleobase, were efficiently phosphorylated to their monophosphate forms by dCK and TK1. Consistent with their efficient phosphorylation by dCK and TK1, 2'-F nucleoside analogs were incorporated into cellular DNA and RNA while no incorporation was detected with 2'-O-MOE nucleoside analogs. In conclusion, these data suggest that the inability of dCK and TK1 to create the monophosphates of 2'-O-MOE nucleoside analogs reduces the risk of their incorporation into cellular DNA and RNA.

Exenatide exerts a PKA-dependent positive inotropic effect in human atrial myocardium: GLP-1R mediated effects in human myocardium.

Glucagon-like peptide-1 receptor (GLP-1R) agonists are a rapidly growing class of drugs developed for treating type-2 diabetes mellitus. Patients with diabetes carry an up to 5-fold greater mortality risk compared to non-diabetic patients, mainly as a result of cardiovascular diseases. Although beneficial cardiovascular effects have been reported, exact mechanisms of GLP-1R-agonist action in the heart, especially in human myocardium, are poorly understood. The effects of GLP-1R-agonists (exenatide, GLP-1(7-36)NH2, PF-06446009, PF-06446667) on cardiac contractility were tested in non-failing atrial and ventricular trabeculae from 72 patients. The GLP-1(7-36)NH2 metabolite, GLP-1(9-36)NH2, was also examined. In electrically stimulated trabeculae, the effects of compounds on isometric force were measured in the absence and presence of pharmacological inhibitors of signal transduction pathways. The role of ß-arrestin signaling was examined using a ß-arrestin partial agonist, PF-06446667. Expression levels were tested by immunoblots. Translocation of GLP-1R downstream molecular targets, Epac2, GLUT-1 and GLUT-4, were assessed by fluorescence microscopy. All tested GLP-1R-agonists significantly increased developed force in human atrial trabeculae, whereas GLP-1(9-36)NH2 had no effect. Exendin(9-39)NH2, a GLP-1R-antagonist, and H-89 blunted the inotropic effect of exenatide. In addition, exenatide increased PKA-dependent phosphorylation of phospholamban (PLB), GLUT-1 and Epac2 translocation, but not GLUT-4 translocation. Exenatide failed to enhance contractility in ventricular myocardium. Quantitative real-time PCR (qRT-PCR) revealed a significant higher GLP-1R expression in the atrium compared to ventricle. Exenatide increased contractility in a dose-dependent manner via GLP-1R/cAMP/PKA pathway and induced GLUT-1 and Epac2 translocation in human atrial myocardium, but had no effect in ventricular myocardium. Therapeutic use of GLP-1R-agonists may therefore impart beneficial effects on myocardial function and remodelling.

Pyrimido[4,5-d]azepines as potent and selective 5-HT2C receptor agonists: design, synthesis, and evaluation of PF-3246799 as a treatment for urinary incontinence.

New pyrimido[4,5-d]azepines 7 are disclosed as potent 5-HT(2C) receptor agonists. A preferred example, 7b had minimal activation at either the 5-HT(2A) or 5-HT(2B) receptors combined with robust efficacy in a preclinical canine model of stress urinary incontinence (SUI) and attractive pharmacokinetic and safety properties. Based on this profile, 7b (PF-3246799) was identified as a candidate for clinical development for the treatment of SUI. In addition, it proved to be critical to build an understanding of the translation between recombinant cell-based systems, native tissue preparations and in vivo preclinical models. This was a significant undertaking and proved to be crucial in compound selection.

Potentiation of reflex erectile responses in the anaesthetized rat by the selective melanocortin receptor 4 agonist MB243.

OBJECTIVE: To assess the potentiation of erectile responses induced by electrical stimulation (ES) of the dorsal penile nerve (DPN) in the urethane-anaesthetized rat by the selective melanocortin receptor 4 agonist MB243. MATERIALS AND METHODS: Intracavernosal and blood pressures (ICP and BP, respectively) were monitored in urethane-anaesthetized rats after complete spinal cord transection at the thoracic level. Erectile responses were induced by ES of the DPN (train of square wave pulses of 1 ms and 6 V for 20 s at 1, 2 and 5 Hz) after i.v. injection of either saline or MB243, 3 mg/kg, in two groups of six rats. The maximal and mean ICP, and the area under the curve (AUC) of the ICP response, corrected for the corresponding BP, were measured and used as an index of erectile function (ICPmax/BP, ICPmean/BP and AUC/BP, respectively). RESULTS: MB243 increased the number of spontaneous erections between the injection and the first ES when compared with the vehicle group, but this difference was not statistically significant. ES of the DPN induced frequency-dependent erectile responses, the mean (sem) ICPmean/BP was 0.26 (0.02), 0.34 (0.04) and 0.39 (0.05) after administration of saline (vehicle) at 1, 2 and 5 Hz, respectively. All the variables, except the ICPmax/BP at 5 Hz, were significantly increased in the group injected with MB243 when compared with the vehicle group (P < 0.05 for ICPmax/BP and ICPmean/BP; P < 0.01 for AUC/BP). The AUC/BP showed the greatest increases of (+79%, +60% and +44% at 1, 2 and 5 Hz, respectively) in the group injected with MB243 compared with the vehicle group. CONCLUSION: Erectile responses induced by ES of the DPN in spinalized, urethane-anaesthetized rat are suitable for evaluating the proerectile facilitator activity of selective peripherally restricted melanocortin receptor 4 agonists. This model represents a valuable alternative to the classically used cavernous/pelvic nerve stimulated model.

Does nitric oxide allow endothelial cells to sense hypoxia and mediate hypoxic vasodilatation? In vivo and in vitro studies.

Hypoxia-evoked vasodilatation is a fundamental regulatory mechanism that is often attributed to adenosine. The identity of the O(2) sensor is unknown. Nitric oxide (NO) inhibits endothelial mitochondrial respiration and ATP generation by competing with O(2) for its binding site on cytochrome oxidase. We proposed that in vivo this interaction allows endothelial cells to release adenosine when O(2) tension falls or NO concentration increases. Using anaesthetised rats, we confirmed that the increase in femoral vascular conductance (FVC, hindlimb vasodilatation) evoked by systemic hypoxia is attenuated by NO synthesis blockade with L-NAME, but restored when baseline FVC is restored by infusion of NO donor. This "restored" hypoxic response, like the control hypoxic response, is inhibited by the adenosine A(1) receptor antagonist 8-cyclopentyl-1,3-dipropylxanthine. Similarly, the FVC increase evoked by adenosine infusion was attenuated by L-NAME but restored by infusion of NO donor. However, when baseline FVC was restored after L-NAME with 8-bromo-cGMP, the FVC increase evoked by adenosine infusion was restored, but not in response to systemic hypoxia, suggesting that adenosine was no longer released by hypoxia. Infusion of NO donor at a given rate after treatment with L-NAME evoked a greater FVC increase during systemic hypoxia than during normoxia, both responses being reduced by 8-cyclopentyl-1,3-dipropylxanthine. Finally, both bradykinin and NO donor released adenosine from superfused endothelial cells in vitro; L-NAME attenuated only the former response. We propose that in vivo, shear-released NO increases the apparent K(m) of endothelial cytochrome oxidase for O(2), allowing the endothelium to act as an O(2) sensor, releasing adenosine in response to moderate falls in O(2).