Walker W A, Field M, Isselbacher K J
Proc Natl Acad Sci U S A. 1974 Feb;71(2):320-4. doi: 10.1073/pnas.71.2.320.
A sucrose density gradient assay was used to demonstrate the specificity and saturation of the binding of [(125)I]cholera toxin to isolated intestinal microvillous membranes from rat small intestine. When the toxin is first complexed to antitoxin and then exposed to intestinal membranes, the binding of cholera toxin is inhibited. To emphasize the physiologic importance of these observations, similar concentrations of [(125)I]cholera toxin were shown to stimulate the accumulation of cyclic AMP in mucosal homogenates and to increase the secretion of fluid into intestinal loops, whereas the same concentrations of toxin mixed with antitoxin had no effect on cyclic AMP accumulation. These studies suggest that cholera toxin attaches to brush border binding sites before exerting its biologic effect and that local intestinal antibody protection against cholera toxin may be due to inhibition of toxin attachment to these binding sites.
采用蔗糖密度梯度分析法来证明[(125)I]霍乱毒素与大鼠小肠分离的肠微绒毛膜结合的特异性和饱和性。当毒素先与抗毒素结合,然后再与肠膜接触时,霍乱毒素的结合会受到抑制。为强调这些观察结果的生理重要性,研究表明,相似浓度的[(125)I]霍乱毒素可刺激黏膜匀浆中环磷酸腺苷(cAMP)的积累,并增加肠袢中液体的分泌,而相同浓度的毒素与抗毒素混合后对cAMP的积累没有影响。这些研究表明,霍乱毒素在发挥其生物学效应之前先附着于刷状缘结合位点,并且局部肠道抗体对霍乱毒素的保护作用可能是由于抑制了毒素与这些结合位点的附着。