23981-47-7Relevant articles and documents
A photophysical and photochemical study of 6-methoxy-2-naphthylacetic acid, the major metabolite of the phototoxic nonsteroidal antiinflammatory drug nabumetone
Bosca,Canudas,Marin,Miranda
, p. 173 - 177 (2000)
Nabumetone is a phototoxic nonsteroidal antiinflammatory drug used for the treatment of osteoarthritis. However, nabumetone is considered a prodrug with its metabolite 6-methoxy-2-naphthylacetic acid the active form. Photophysical and photochemical studies on this metabolite have been undertaken. It undergoes photodecarboxylation in aerated aqueous and organic solvents. In addition to the accepted photodegradation pathway for related molecules, a new mechanism that implies generation of the naphthalene radical cation from the excited singlet and addition of O2 prior to the decarboxylation process has been demonstrated. Evidence for the involvement of the excited singlet state in this mechanism have been obtained by steady-state and time-resolved fluorescence experiments. The fluorescence quenching by O2 and the shorter singlet lifetime in aerated solvents support this assignment. Laser flash photolysis also supports this mechanism by showing the noninvolvement of the triplet in the formation of the naphthalene radical cation. Finally, the well-known electron acceptor CCl4 acts as an efficient singlet quencher, enhancing the route leading to the radical cation, preventing intersystem crossing to the triplet and thus resulting in a dramatic increase in the yield of 6-methoxy-2-naphthaldehyde, the major oxidative decarboxylation product; this constitutes unambiguous proof in favor of the new mechanistic proposals.
Synthesis and evaluation of some gastrointestinal sparing anti-inflammatory aminoethyl ester derivatives of naphthalene-based NSAIDs
Halen, Parmeshwari K.,Raval, Manisha K.,Chagti, Kewal K.,Giridhar, Rajani,Yadav, Mange R.
, p. 88 - 94 (2007)
To overcome the local gastric toxicity associated with use of, common non-steroidal anti-inflammatory drugs (NSAIDs), some aminoalcohol esters of NSAIDs bearing structural resemblance to the aminoalcohol ester class of anticholinergics were specially designed and synthesized. Besides blocking the acidic carboxyl group to overcome the local gastric irritation, the anticholinergic activity was incorporated with the expected advantage of reducing the gastric toxicity by decreasing gastric acid secretions and motility. Derivatives of naproxen and 6-methoxy-2-napthylacetic acid (6-MNA) were synthesized. The hydrolysis studies in buffers revealed the majority of the compounds to be sufficiently stable with a high enzymatic susceptibility in 80% human serum. Most of the derivatives exhibited a fairly good anticholinergic action against acetylcholine with a significant reduction in ulcerogenicity while retaining the anti-inflammatory potency of the parent drug. The combination of anti-inflammatory and anticholinergic activities, with a simultaneous reduction of the acidic character, may lead to development of therapeutically better compounds than the parent NSAIDs for long-term oral anti-inflammatory therapy.
N-{[2-(PIPERIDIN-1-YL)PHENYL](PHENYL)METHYL}-2-(3-OXO-3,4-DIHYDRO-2H-1,4-BENZOXA ZIN-7-YL)ACETAMIDE DERIVATIVES AND RELATED COMPOUNDS AS ROR-GAMMA MODULATORS FOR TREATING AUTOIMMUNE DISEASES
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, (2018/08/20)
The present invention provides e.g. N-{[2-(piperidin-1-yl)phenyl] (phenyl)methyl}-2-(3-oxo-3,4-dihydro-2H-1,4-benzoxazin-7-yl)acetamide derivatives and related compounds as ROR-gamma modulators for treating e.g. autoimmune diseases, autoimmune-related diseases, inflammatory diseases, metabolic diseases, fibrotic diseases or cholestatic diseases, such as e.g. arthitis and asthma.
Substrate-selective inhibition of cyclooxygenase-2: Development and evaluation of achiral profen probes
Windsor, Matthew A.,Hermanson, Daniel J.,Kingsley, Philip J.,Xu, Shu,Crews, Brenda C.,Ho, Winnie,Keenan, Catherine M.,Banerjee, Surajit,Sharkey, Keith A.,Marnett, Lawrence J.
, p. 759 - 763 (2012/10/29)
Cyclooxygenase-2 (COX-2) oxygenates arachidonic acid and the endocannabinoids 2-arachidonoylglycerol (2-AG) and arachidonoylethanolamide (AEA). We recently reported that (R)-profens selectively inhibit endocannabinoid oxygenation but not arachidonic acid oxygenation. In this work, we synthesized achiral derivatives of five profen scaffolds and evaluated them for substrate-selective inhibition using in vitro and cellular assays. The size of the substituents dictated the inhibitory strength of the analogs, with smaller substituents enabling greater potency but less selectivity. Inhibitors based on the flurbiprofen scaffold possessed the greatest potency and selectivity, with desmethylflurbiprofen (3a) exhibiting an IC50 of 0.11 μM for inhibition of 2-AG oxygenation. The crystal structure of desmethylflurbiprofen complexed to mCOX-2 demonstrated a similar binding mode to other profens. Desmethylflurbiprofen exhibited a half-life in mice comparable to that of ibuprofen. The data presented suggest that achiral profens can act as lead molecules toward in vivo probes of substrate-selective COX-2 inhibition.