NLRP3 is involved
in the pathophysiology of several inflammatory
diseases. Therefore, there is high current interest in the clinical
development of new NLRP3 inflammasome small inhibitors to treat these
diseases. Novel N-sulfonylureas were obtained by
the replacement of the hexahydroindacene moiety of the previously
described NLRP3 inhibitor MCC950. These new derivatives show moderate
to high potency in inhibiting IL-1β release in vitro. The greatest
effect was observed for compound 4b, which was similar
to MCC950. Moreover, compound 4b was able to reduce caspase-1
activation, oligomerization of ASC, and therefore, IL-1β processing.
Additional in silico predictions confirmed the safety profile of compound 4b, and in vitro studies in AML12 hepatic cells confirmed
the absence of toxicological effects. Finally, we evaluated in vivo
anti-inflammatory properties of compound 4b, which showed
a significant anti-inflammatory effect and reduced mechanical hyperalgesia
at 3 and 10 mg/kg (i.p.) in an in vivo mouse model of gout.
A controlled access to 1‐aryl 2,3‐diiodo‐carbazoles involving iodine transposition has been accomplished directly from acyclic precursors. The 2,3‐diiodo‐carbazole core was prone to further chemoselective decoration at C3−I or double difunctionalization.
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