COX-inhibiting nitric oxide donator

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COX-inhibiting nitric oxide donators (CINODs), also known as NO-NSAIDs, are a new class of nonsteroidal anti-inflammatory drug (NSAID) developed with the intention of providing greater safety than existing NSAIDs. [1] [2] [3] [4]

These compounds were first described by John Wallace [5] and colleagues. CINODs are compounds generated by the fusion of an existing NSAID with a nitric oxide (NO)-donating moiety by chemical means, usually by ester linkage. CINODs retain the anti-inflammatory efficacy of NSAIDs via inhibition of cyclooxygenase (COX) while arguably improving upon gastric and vascular safety, most likely via vasorelaxation, inhibition of leukocyte adhesion and inhibition of caspases, all known effects of NO.

The first CINODs were developed in the 1990s, and as yet none have been approved for use by the general public. The importance of developing such drugs was increased when COX-2-specific NSAIDs rofecoxib (Vioxx) and lumiracoxib (Prexige) were removed from major pharmaceutical markets in the mid-2000s due to vascular safety concerns. In addition, traditional NSAIDs increase blood pressure and interfere with the actions of antihypertensive drugs. Several CINODs are currently being tested in clinical trials, the most advanced of which are being conducted by the French pharmaceutical company NicOx, whose flagship compound naproxcinod (NO-naproxen, nitronaproxen) is in phase III trials for the treatment of osteoarthritis. [6] Naproxcinod is a fusion of naproxen and a NO-donating group. Other CINODs are also being tested by NicOx for the treatment of diseases in which inflammation plays a role. [7]

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<span class="mw-page-title-main">Cyclooxygenase</span> Class of enzymes

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<span class="mw-page-title-main">Naproxen</span> Nonsteroidal anti-inflammatory drug (NSAID) used to treat pain

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<span class="mw-page-title-main">Licofelone</span> Analgesic and anti-inflammatory compound

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Cyclooxygenases are enzymes that take part in a complex biosynthetic cascade that results in the conversion of polyunsaturated fatty acids to prostaglandins and thromboxane(s). Their main role is to catalyze the transformation of arachidonic acid into the intermediate prostaglandin H2, which is the precursor of a variety of prostanoids with diverse and potent biological actions. Cyclooxygenases have two main isoforms that are called COX-1 and COX-2. COX-1 is responsible for the synthesis of prostaglandin and thromboxane in many types of cells, including the gastro-intestinal tract and blood platelets. COX-2 plays a major role in prostaglandin biosynthesis in inflammatory cells and in the central nervous system. Prostaglandin synthesis in these sites is a key factor in the development of inflammation and hyperalgesia. COX-2 inhibitors have analgesic and anti-inflammatory activity by blocking the transformation of arachidonic acid into prostaglandin H2 selectively.

<span class="mw-page-title-main">Otenaproxesul</span> Chemical compound

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Prostaglandin inhibitors are drugs that inhibit the synthesis of prostaglandin in human body. There are various types of prostaglandins responsible for different physiological reactions such as maintaining the blood flow in stomach and kidney, regulating the contraction of involuntary muscles and blood vessels, and act as a mediator of inflammation and pain. Cyclooxygenase (COX) and Phospholipase A2 are the major enzymes involved in prostaglandin production, and they are the drug targets for prostaglandin inhibitors. There are mainly 2 classes of prostaglandin inhibitors, namely non- steroidal anti- inflammatory drugs (NSAIDs) and glucocorticoids. In the following sections, the medical uses, side effects, contraindications, toxicity and the pharmacology of these prostaglandin inhibitors will be discussed.

<span class="mw-page-title-main">Antiarthritics</span> Drug class

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References

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  2. Wallace JL, Cirino G (1994). "The development of gastrointestinal-sparing anti-inflammatory drugs". Trends Pharmacol Sci. 15 (11): 405–406. doi:10.1016/0165-6147(94)90083-3. PMID   7855901.
  3. Keeble JE, Moore PK (2002). "Pharmacology and potential therapeutic applications of nitric oxide-releasing non-steroidal anti-inflammatory and related nitric oxide-donating drugs". Br J Pharmacol. 137 (3): 295–310. doi:10.1038/sj.bjp.0704876. PMC   1573498 . PMID   12237248.
  4. White, WB (2007). "Cardiovascular effects of the cyclooxygenase inhibitors". Hypertension. 49 (3): 408–418. doi: 10.1161/01.HYP.0000258106.74139.25 . PMID   17261646.
  5. "John Wallace, Professor, Department of Pharmacology and Therapeutics, University of Calgary". Archived from the original on 2012-09-13. Retrieved 2017-08-25.
  6. HCT 3012 - COX-Inhibiting Nitric Oxide-Donator (CINOD) for Relief of Pain and Inflammation
  7. "NicOx pipeline: product portfolio". Archived from the original on 2007-12-14. Retrieved 2007-12-27.


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