2. Identification of an anti-inflammatory derivative with anti-cancer potential: The impact of each of its structural components on inflammatory responses in macrophages and bladder cancer cells

HAMELIN-MORRISSETTE J, ; CLOUTIER S, ; GIROUARD J, ; BELGOROSKY D, ; EIJAN ANA MARIA; LEGAULT J, ; REYES-MORENO C, ; BÉRUBÉ G.

EUROPEAN JOURNAL OF MEDICAL CHEMISTRY

ELSEVIER FRANCE-EDITIONS SCIENTIFIQUES MEDICALES ELSEVIER

Lugar: Paris; Año: 2015 vol. 96 p. 259 - 268

0223-5234

Inflammation plays a crucial role in many types of cancer and is known to be involved in their initiation and promotion. As such, it is presently recognized as an important risk factor for several types of cancerssuch as bladder, prostate and breast cancers. The discovery of novel anti-inflammatory compounds can have a huge implication not only for the treatment of cancer but also as preventive and protectivetreatment modalities. We have recently identified a new compound (1) that presents interesting antiinflammatory activity. In order to better understand its biological action, we have divided the moleculein its basic components and verified their respective contribution towards the anti-inflammatory response of the whole molecule. We have discovered that only the combination of the maleimidefunction together with the tert-butyloxycarbonylhydrazinamide function lead to important antiinflammatory properties. The main derivative 1 can decrease the activating effects of INFg or IL6 on human (hMfs) macrophages by 38% or by 64% at a concentration of 10 mM as indicated by a decrease of STAT1 or STAT3 activation. The expression of pro-inflammatory markers CD40 and MHCII in INFg stimulated hMfs were reduced by 87% and 49%, respectively with a 3 h pretreatment of 1 at 10 mM. Thecell motility assay revealed that 1 at 10 mM can reduce relative cell motility induced by IL6 by 92% in comparison with the untreated control hMf monolayers. Compound 1 reduced by 91% the inflammatory response induced by the cytokines (INFg þ TNFa) in the macrophage-like J774A.1 cells at a concentration of 25 mM, as measured by the detection of NO production with the Griess reagent. Furthermore, upon removal of the tert-butyloxycarbonyl protective group the unprotected derivative as a hydrochloride salt (1A) retains interesting anti-inflammatory activity and was found to be less toxic than the parent compound (1)