硝基扑热息痛(NCX-701)与疼痛:一系列新型镇痛药中的第一个

E. Alfonso Romero-Sandoval, M. Mar Curros-Criado, Gema Gaitan, Carlos Molina, Juan F. Herrero
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引用次数: 18

摘要

许多经典药物与一氧化氮供体的结合导致了新化合物的发展,这些化合物在多种情况下具有有希望的治疗活性,包括心血管和呼吸系统,眼压,炎症和疼痛。最早开发的化合物之一是NCX-701或硝基扑热息痛,由扑热息痛(一种经典而流行的镇痛药,因其解热和镇痛特性而被大量用于非处方药)和硝基氧丁基部分的组合而成,后者以低但稳定的水平释放一氧化氮。虽然扑热息痛不具有与阿司匹林类药物相关的大多数胃肠道毒性,但这种类型的化合物最初被设计为利用低浓度释放时一氧化氮的细胞保护特性。然而,这些分子的结合也导致了扑热息痛的镇痛活性意想不到的增强。事实上,NCX-701已被证明对急性痛觉和神经性疼痛有效,在这种情况下,扑热息痛和其他COX抑制剂没有任何作用。此外,在某些情况下,NCX-701在不同的炎症性疼痛模型中比其母体化合物更有效。此外,扑热息痛缺乏任何有效的抗炎作用,NCX-701可能减轻炎症。综上所述,NCX-701的作用机制与扑热息痛不同,尽管两者的作用机制尚未确定。NCX-701似乎是一种治疗不同类型疼痛的有前景的化合物,其副作用可能比其母体分子扑热息痛要好。虽然最近的临床试验提供的数据与NCX-701的临床前概况一致,但需要进一步的研究来支持其临床应用。
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Nitroparacetamol (NCX-701) and Pain: First in a Series of Novel Analgesics

The combination of numerous classic drugs with nitric oxide donors has led to the development of new compounds with promising therapeutic activities in a great variety of situations, including cardiovascular and respiratory systems, ocular pressure, inflammation, and pain. One of the first compounds developed was NCX-701 or nitroparacetamol, resulting from the combination of paracetamol, a classic and popular analgesic used in a great number of over-the-counter medications because of its antipyretic and analgesic properties, and a nitrooxybutyroyl moiety, which releases nitric oxide at a low but steady level. Although paracetamol is devoid of most of the gastrointestinal toxicity associated with aspirin-like drugs, this type of compounds was first designed to take advantage of the cytoprotective properties of nitric oxide when released at low concentrations. However, the combination of these molecules also resulted in an unexpected enhancement of the analgesic activity of paracetamol. In fact, NCX-701 has been shown to be effective in acute nociception as well as in neuropathic pain, situations in which paracetamol and other COX inhibitors are devoid of any effect. In addition, NCX-701 is more potent and, in some circumstances, more effective than its parent compound in different models of inflammatory pain. Furthermore, whereas paracetamol lacks any effective antiinflammatory action, NCX-701 might reduce inflammation. All these results taken together imply that the mechanism of action of NCX-701 is different from that of paracetamol, although it is not yet established for either molecule. NCX-701 appears to be a promising compound in the treatment of different types of pain, with a likely better profile of side effects than its parent molecule, paracetamol. Although recent clinical trials provided data consistent with the preclinical profile of NCX-701, further studies are needed to support its clinical use.

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