Vollum Institute, Oregon Health & Sciences University, 3181 SW Sam Jackson Park Road, Portland, OR 97239-3098, USA.
Neuron. 2010 Nov 18;68(4):739-49. doi: 10.1016/j.neuron.2010.09.029.
Ischemic pain--examples include the chest pain of a heart attack and the leg pain of a 30 s sprint--occurs when muscle gets too little oxygen for its metabolic need. Lactic acid cannot act alone to trigger ischemic pain because the pH change is so small. Here, we show that another compound released from ischemic muscle, adenosine tri-phosphate (ATP), works together with acid by increasing the pH sensitivity of acid-sensing ion channel number 3 (ASIC3), the molecule used by sensory neurons to detect lactic acidosis. Our data argue that ATP acts by binding to P2X receptors that form a molecular complex with ASICs; the receptor on sensory neurons appears to be P2X5, an electrically quiet ion channel. Coincident detection of acid and ATP should confer sensory selectivity for ischemia over other conditions of acidosis.
缺血性疼痛——例如心脏病发作时的胸痛和 30 秒冲刺时的腿部疼痛——发生在肌肉的代谢需求得不到足够氧气供应时。由于 pH 值变化很小,乳酸不能单独作用引发缺血性疼痛。在这里,我们表明,另一种从缺血肌肉中释放的化合物三磷酸腺苷 (ATP) 通过增加酸感应离子通道 3 (ASIC3) 的 pH 敏感性与酸协同作用,酸感应离子通道 3 是感觉神经元用来检测乳酸酸中毒的分子。我们的数据表明,ATP 通过与形成与 ASIC 分子复合物的 P2X 受体结合而发挥作用;感觉神经元上的受体似乎是 P2X5,一种电静默离子通道。酸和 ATP 的同时检测应该为缺血提供对其他酸中毒情况的感觉选择性。