Jeglitsch G, Rein K, Baden D G, Adams D J
Department of Molecular and Cellular Pharmacology, University of Miami School of Medicine, Miami, Florida, USA.
J Pharmacol Exp Ther. 1998 Feb;284(2):516-25.
Brevetoxin-3 (PbTx-3), produced by marine dinoflagellates (Ptychodiscus brevis), is a lipophilic 11-ring polyether molecule that binds with high affinity to site 5 of the voltage-sensitive sodium (Na+) channel. The effects of PbTx-3 and its derivatives were studied in cell-attached membrane patches on neurons dissociated from neonatal rat nodose ganglia by the patch-clamp technique. PbTx-3 (30-500 nM) produced a shift in activation to more negative membrane potentials whereby single-channel activity was observed under steady-state conditions (maintained depolarization at -50 mV). The unitary current-voltage relationship is linear, which exhibits a reversal potential of approximately +60 mV. Two unitary current amplitudes could be observed in the presence of PbTx-3, with slope conductances of 10.7 pS and 21.2 pS. PbTx-3 inhibits the inactivation of Na+ channels and prolongs the mean open time of these channels. Unitary Na+ currents could be blocked by 1 microM tetrodotoxin (TTX) added to the pipette solution, which indicates that the single-channel currents are caused by the opening of TTX-sensitive Na+ channels. The PbTx-3 molecule is proposed to have multiple active centers (A-ring lactone, C-42 of R side chain) interacting with the Na+ channel binding site. Modification of the molecular structure of PbTx-3 at these centers produced derivatives (PbTx-6, 2,3,41,43-tetrahydro-PbTx-3, 2,3,27,28,41, 43-hexahydro-PbTx-3 and 2,3-dihydro-PbTx-3 A-ring diol), which were less potent than PbTx-3 in producing similar effects on Na+ channel kinetics. PbTx-3 and its derivatives may provide insight into the mechanics of voltage-sensitive Na+ channel gating.
由海洋双鞭毛藻(短裸甲藻)产生的短裸甲藻毒素-3(PbTx-3)是一种亲脂性的11环聚醚分子,它与电压敏感性钠(Na+)通道的位点5具有高亲和力结合。采用膜片钳技术,在新生大鼠结状神经节分离出的神经元的细胞贴附膜片上研究了PbTx-3及其衍生物的作用。PbTx-3(30 - 500 nM)使激活向更负的膜电位偏移,从而在稳态条件下(在 -50 mV维持去极化)观察到单通道活性。单通道电流-电压关系呈线性,其反转电位约为 +60 mV。在存在PbTx-3的情况下可观察到两种单通道电流幅度,斜率电导分别为10.7 pS和21.2 pS。PbTx-3抑制Na+通道的失活并延长这些通道的平均开放时间。加入到吸管溶液中的1 microM河豚毒素(TTX)可阻断单通道Na+电流,这表明单通道电流是由TTX敏感的Na+通道开放引起的。有人提出PbTx-3分子具有多个与Na+通道结合位点相互作用的活性中心(A环内酯、R侧链的C-42)。在这些中心对PbTx-3的分子结构进行修饰产生了衍生物(PbTx-6、2,3,41,43-四氢-PbTx-3、2,3,27,28,41,43-六氢-PbTx-3和2,3-二氢-PbTx-3 A环二醇),它们在对Na+通道动力学产生类似作用方面比PbTx-3的效力更低。PbTx-3及其衍生物可能有助于深入了解电压敏感性Na+通道门控的机制。
