Med Sci Monit. 2001 Jul-Aug;7(4):573-7.
NCX4016 (NO-aspirin) inhibits thromboxane biosynthesis and tissue factor expression and activity in human monocytes.
Minuz P, Degan M, Gaino S, Meneguzzi A, Zuliani V, Lechi Santonastaso C, Del Soldato P, Lechi A. Department of Biomedical and Surgical Sciences, University of Verona, Italy.
BACKGROUND: NCX4016 (2 acetoxy-benzoate 2-(2-nitroxymethyl)-phenyl ester, NicOx S.A., France) is an antithrombotic agent chemically related to acetylsalicylic acid (ASA). We hypothesised that NCX4016, being able to release nitric oxide (NO) and to inhibit cyclo-oxygenase, might inhibit the prothrombotic function in human monocytes.MATERIAL AND METHODS: The effects of NCX4016 and ASA on the release of thromboxane (TX) B2 and tissue factor expression and activity were compared using adherent human monocytes. The tested drugs were added before stimulation with 10 Kg/ml LPS and incubation lasted 6 hours. TXB2 concentration was measured by RIA in the supernatant of cultured cells. Immunoreactive tissue factor (TF) concentration was determined by enzyme-linked immunoassay and TF activity was assayed by measuring the peptidyl activity of the tissue factor/ factor VII complex.RESULTS: Both ASA and NCX4016 10-300 Kmol/L dose-dependently reduced TXB2 release. NCX4016 activity was comparable to that of equimolar ASA. Part of the activity of NCX4016 up to 100 Kmol/L was prevented by 10 Kml/L ODQ, inhibitor of cGMP generation. Immunoreactive TF was dose-dependently inhibited by 300 Kmol/L NCX4016, but not by ASA. Also tissue TF activity was reduced by 300 Kmol/L NCX4016, but not by ASA.CONCLUSIONS: The present results indicate that NCX4016 not only has anti-platelet effects but also inhibits prothrombotic activities in human monocytes, partly via NO-dependent mechanisms. NCX4016 may prove effective in the clinical setting of athero-thrombosis.
Pharmacology. 2001 Jul;63(1):28-33.
Effect of cyclooxygenase-2 inhibitor (celecoxib) on the infarcted heart in situ.
Yamamoto T, Kakar NR, Vina ER, Johnson PE, Bing RJ. Huntington Medical Research Institutes, Department of Experimental Cardiology, Pasadena, Calif 91101, USA.
Several attempts have been made to replace aspirin with compounds without gastric toxicity; a cyclooxygenase-2 (COX-2) inhibitor, celecoxib, and a nitric oxide-aspirin, NCX-4016, have been developed for this purpose. This paper compares effects of celecoxib, NCX-4016 and aspirin on production of prostacyclin (PGI2) and thromboxane A2 (TXA2) and activation of the inducible form of nitric oxide synthase (iNOS) in infarcted heart in situ. Aspirin was most effective in reducing myocardial PGI2 synthesis and formation of TXA2. Myocardial effects of celecoxib resemble those of NCX-4016, although the two compounds have different modes of action.