Benzydamine plays a role in limiting inflammatory pain induced by neuronal sensitization.

IF 2.8 3区 医学 Q2 NEUROSCIENCES
Magdalena Nikolaeva-Koleva, Ana Espinosa, Matteo Vergassola, Lorenzo Polenzani, Giorgina Mangano, Lorella Ragni, Sara Zucchi, Antonio Ferrer Montiel, Isabel Devesa
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引用次数: 0

Abstract

Benzydamine is an active pharmaceutical compound used in the oral care pharmaceutical preparation as NSAID. Beside from its anti-inflammatory action, benzydamine local application effectively reliefs pain showing analgesic and anaesthetic properties. Benzydamine mechanism of action has been characterized on inflammatory cell types and mediators highlighting its capacity to inhibit pro-inflammatory mediators' synthesis and release. On the other hand, the role of benzydamine as neuronal excitability modulator has not yet fully explored. Thus, we studied benzydamine's effect over primary cultured DRG nociceptors excitability and after acute and chronic inflammatory sensitization, as a model to evaluate relative nociceptive response. Benzydamine demonstrated to effectively inhibit neuronal basal excitability reducing its firing frequency and increasing rheobase and afterhyperpolarization amplitude. Its effect was time and dose-dependent. At higher doses, benzydamine induced changes in action potential wavelength, decreasing its height and slightly increasing its duration. Moreover, the compound reduced neuronal acute and chronic inflammatory sensitization. It inhibited neuronal excitability mediated either by an inflammatory cocktail, acidic pH or high external KCl. Notably, higher potency was evidenced under inflammatory sensitized conditions. This effect could be explained either by modulation of inflammatory and/or neuronal sensitizing signalling cascades or by direct modulation of proalgesic and action potential firing initiating ion channels. Apparently, the compound inhibited Nav1.8 channel but had no effect over Kv7.2, Kv7.3, TRPV1 and TRPA1. In conclusion, the obtained results strengthen the analgesic and anti-inflammatory effect of benzydamine, highlighting its mode of action on local pain and inflammatory signalling.

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苯二胺在限制神经元致敏引起的炎症性疼痛中发挥作用。
苯二胺是一种活性药物化合物,作为非甾体抗炎药用于口腔护理药物制剂中。除了抗炎作用外,局部应用苄脒还能有效缓解疼痛,表现出镇痛和麻醉特性。苯丙胺的作用机制已在炎症细胞类型和介质上进行了表征,突出了其抑制促炎介质合成和释放的能力。另一方面,苯丙胺作为神经元兴奋性调节剂的作用尚未得到充分探索。因此,我们研究了苯丙胺对原代培养的DRG伤害感受器兴奋性和急性和慢性炎症致敏后的影响,作为评估相对伤害反应的模型。苯二胺可有效抑制神经元的基础兴奋性,降低其放电频率,增加流变基础和后超极化幅度。其作用具有时间和剂量依赖性。在更高的剂量下,苯二胺诱导作用电位波长的变化,降低其高度并略微增加其持续时间。此外,该化合物降低了神经元的急性和慢性炎症敏感性。它抑制由炎症混合物、酸性pH或高外部KCl介导的神经元兴奋性。值得注意的是,在炎症致敏条件下证明了更高的效力。这种效应可以通过调节炎症和/或神经元致敏信号级联来解释,也可以通过直接调节引发痛觉和动作电位的离子通道来解释。显然,该化合物抑制Nav1.8通道,但对Kv7.2、Kv7.3、TRPV1和TRPA1没有影响。总之,所获得的结果加强了苯丙胺的镇痛和抗炎作用,突出了其对局部疼痛和炎症信号的作用模式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Molecular Pain
Molecular Pain 医学-神经科学
CiteScore
5.60
自引率
3.00%
发文量
56
审稿时长
6-12 weeks
期刊介绍: Molecular Pain is a peer-reviewed, open access journal that considers manuscripts in pain research at the cellular, subcellular and molecular levels. Molecular Pain provides a forum for molecular pain scientists to communicate their research findings in a targeted manner to others in this important and growing field.
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