Warnick J E, Albuquerque E X, Onur R, Jansson S E, Daly J, Tokuyama T, Witkop B
J Pharmacol Exp Ther. 1975 Apr;193(1):232-45.
The effects of the depolarizing agent, batrachotoxin (BTX), and of various analogs were studied on rat phrenic nerve-diaphragm muscle preparations at 37 degrees C. The structural modifications of BTX included: 1) replacement of the 20alpha-pyrrole-3-carboxylate moiety; 2) alterations of substituents on the pyrrole moiety; 3) clevage of the 3alpha, 9alpha-hemiketal linkage; and 4) quaternization of the tertiary nitrogen of BTX. All of the compounds except batrachotoxinin A (BTX-A), which lacks the 20alpha-substituent, depolarized the postsynaptic membrane, transiently increased the frequency of spontaneous transmitter release to 400 to 600 sec- minus 1 and finally produced blockade of the directly and indirectly elicited muscle twitches. Of the compounds tested, only BTX-A potentiated the muscle twitches. The concentration which elicits a 50% depolarization of the muscle membrane in 1 hour was determined for all the compounds except for BTX-A and for dihydrobatrachotoxin which lacks the 3alpha, 9alpha-hemiketal linkage; these two analogs never depolarized the postsynaptic membrane by more than 10 to 15%. BTX, the 20alpha-2, 4, 5-trimethylpyrrole-3-carboxylate of BTX-A and the 20alpha-ester of BTX-A with 2-ethyl-4-methylpyrrole-3-carboxylic acid (homobatrachotoxin) were the three most potent toxins with doses of 4.5, 12 and 18 times 10- minus 9 M eliciting a 50% membrane depolarization in 1 hour. The quaternary derivative of BTX, the 20alpha-4, 5-dimethylpyrrole-3-carboxylate of BTX-A and 20alpha-2,4-dimethyl-5-acetylpyrrole-3-carboxylate of BTX-A were 24-, 65- and 110-fold less potent than BTX as depolarizing agents, whereas the 20alpha-p-bromobenzoate of BTX-A was 220-fold less potent. Each of these derivatives had the ability to increase sodium permeability since the increase in spontaneous miniature end-plate potential frequency and membrane depolarization were reversed by tetrodotoxin or by reducing the external sodium concentration. BTX was found to be more effective at alkaline pH (pH 9.0), at which it exists almost entirely in the un-ionized form, than at physiological or acidic pH(6.0). The results indicate that the analogs of BTX act by a mechanism similar to that of the parent compound, but that their potency differs and certain compounds may have a more selective action on either the pre- or postsynaptic membrane. For maximal depolarizing activity, a substituted pyrrole moiety is necessary at the 20alpha-position of BTX-A and 3alpha, 9alpha-hemiketal linkage must remain intact providing rigidity for the pentacyclic steroid nucleus.
在37℃条件下,研究了去极化剂巴曲毒素(BTX)及其各种类似物对大鼠膈神经 - 膈肌肌肉标本的影响。BTX的结构修饰包括:1)20α - 吡咯 - 3 - 羧酸盐部分的取代;2)吡咯部分取代基的改变;3)3α,9α - 半缩酮键的断裂;4)BTX叔氮的季铵化。除缺乏20α - 取代基的巴曲毒素A(BTX - A)外,所有化合物均使突触后膜去极化,使自发递质释放频率短暂增加至400至600次/秒,并最终导致直接和间接引发的肌肉抽搐阻滞。在所测试的化合物中,只有BTX - A增强了肌肉抽搐。除BTX - A和缺乏3α,9α - 半缩酮键的二氢巴曲毒素外,测定了所有化合物在1小时内引起肌肉膜50%去极化的浓度;这两种类似物使突触后膜去极化从未超过10%至15%。BTX、BTX - A的20α - 2,4,5 - 三甲基吡咯 - 3 - 羧酸盐以及BTX - A与2 - 乙基 - 4 - 甲基吡咯 - 3 - 羧酸的20α - 酯(高巴曲毒素)是三种最有效的毒素,剂量分别为4.5、12和18×10⁻⁹ M时,在1小时内引起50%的膜去极化。BTX的季铵衍生物、BTX - A的20α - 4,5 - 二甲基吡咯 - 3 - 羧酸盐和BTX - A的20α - 2,4 - 二甲基 - 5 - 乙酰吡咯 - 3 - 羧酸盐作为去极化剂的效力分别比BTX低24倍、65倍和110倍,而BTX - A的20α - 对溴苯甲酸酯的效力低220倍。这些衍生物中的每一种都具有增加钠通透性的能力,因为自发微小终板电位频率的增加和膜去极化可被河豚毒素或通过降低细胞外钠浓度逆转。发现BTX在碱性pH(pH 9.0)下比在生理或酸性pH(6.0)下更有效,在碱性pH下它几乎完全以非离子形式存在。结果表明,BTX的类似物通过与母体化合物相似的机制起作用,但它们的效力不同,某些化合物可能对突触前或突触后膜具有更具选择性的作用。为了达到最大去极化活性,在BTX - A的20α位置必须有一个取代的吡咯部分,并且3α,9α - 半缩酮键必须保持完整,为五环甾体核提供刚性。
