Trevisan Gabriela, Hoffmeister Carin, Rossato Mateus F, Oliveira Sara M, Silva Mariane A, Ineu Rafael P, Guerra Gustavo P, Materazzi Serena, Fusi Camilla, Nassini Romina, Geppetti Pierangelo, Ferreira Juliano
Federal University of Santa Maria, Santa Maria, RS, Brazil.
Arthritis Rheum. 2013 Nov;65(11):2984-95. doi: 10.1002/art.38112.
Gout is a common cause of inflammatory arthritis and is provoked by the accumulation of monosodium urate (MSU) crystals. However, the underlying mechanisms of the pain associated with acute attacks of gout are poorly understood. The aim of this study was to evaluate the role of transient receptor potential ankyrin 1 (TRPA-1) and TRPA-1 stimulants, such as H2 O2 , in a rodent model of MSU-induced inflammation.
MSU or H2 O2 was injected into the hind paws of rodents or applied in cultured sensory neurons, and the intracellular calcium response was measured in vitro. Inflammatory or nociceptive responses in vivo were evaluated using pharmacologic, genetic, or biochemical tools and methods.
TRPA-1 antagonism, TRPA-1 gene deletion, or pretreatment of peptidergic TRP-expressing primary sensory neurons with capsaicin markedly decreased MSU-induced nociception and edema. In addition to these neurogenic effects, MSU increased H2 O2 levels in the injected tissue, an effect that was abolished by the H2 O2 -detoxifying enzyme catalase. H2 O2 , but not MSU, directly stimulated sensory neurons through the activation of TRPA-1. The nociceptive responses evoked by MSU or H2 O2 injection were attenuated by the reducing agent dithiothreitol. In addition, MSU injection increased the expression of TRPA-1 and TRP vanilloid channel 1 (TRPV-1) and also enhanced cellular infiltration and interleukin-1β levels, and these effects were blocked by TRPA-1 antagonism.
Our results suggest that MSU injection increases tissue H2 O2 , thereby stimulating TRPA-1 on sensory nerve endings to produce inflammation and nociception. TRPV-1, by a previously unknown mechanism, also contributes to these responses.
痛风是炎症性关节炎的常见病因,由尿酸单钠(MSU)晶体的积聚引发。然而,痛风急性发作相关疼痛的潜在机制尚不清楚。本研究的目的是评估瞬时受体电位锚蛋白1(TRPA-1)和TRPA-1刺激物(如H2O2)在MSU诱导的炎症啮齿动物模型中的作用。
将MSU或H2O2注射到啮齿动物的后爪或应用于培养的感觉神经元,并在体外测量细胞内钙反应。使用药理学、遗传学或生化工具和方法评估体内的炎症或伤害性反应。
TRPA-1拮抗、TRPA-1基因缺失或用辣椒素对表达肽能TRP的初级感觉神经元进行预处理,可显著降低MSU诱导的伤害感受和水肿。除了这些神经源性效应外,MSU还增加了注射组织中的H2O2水平,这一效应被H2O2解毒酶过氧化氢酶消除。H2O2而非MSU通过激活TRPA-1直接刺激感觉神经元。还原剂二硫苏糖醇减弱了MSU或H2O2注射引起的伤害性反应。此外,MSU注射增加了TRPA-1和TRP香草酸受体1(TRPV-1)的表达,还增强了细胞浸润和白细胞介素-1β水平,而这些效应被TRPA-1拮抗所阻断。
我们的结果表明,MSU注射增加组织H2O2,从而刺激感觉神经末梢上的TRPA-1产生炎症和伤害感受。TRPV-1通过一种先前未知的机制也参与了这些反应。
