Department of Neuroscience, University of Virginia School of Medicine, 409 Lane Rd, PO Box 801392, Charlottesville, VA, 22908, USA.
J Assoc Res Otolaryngol. 2014 Feb;15(1):13-30. doi: 10.1007/s10162-013-0425-9. Epub 2013 Nov 22.
Phalloidin, a toxin isolated from the death cap mushroom, Amanita phalloides, binds to filamentous actin with high affinity, and this has made fluorophore-conjugated phalloidin a useful tool in cellular imaging. Hepatocytes take up phalloidin via the liver-specific organic anion transporting polypeptide 1b2, but phalloidin does not permeate most living cells. Rapid entry of styryl dyes into live hair cells has been used to evaluate function, but the usefulness of those fluorescence dyes is limited by broad and fixed absorption spectra. Since phalloidin can be conjugated to fluorophores with various spectra, we investigated whether it would permeate living hair cells. When we incubated mouse utricles in 66 nM phalloidin-CF488A and followed that by washes in phalloidin-free medium, we observed that it entered a subset of hair cells and labeled entire hair bundles fluorescently after 20 min. Incubations of 90 min labeled nearly all the hair bundles. When phalloidin-treated utricles were cultured for 24 h after washout, the label disappeared from the hair cells and progressively but heterogeneously labeled filamentous actin in the supporting cells. We investigated how phalloidin may enter hair cells and found that P2 receptor antagonists, pyridoxalphosphate-6-azophenyl-2', 4'-disulfonic acid and suramin, blocked phalloidin entry, while the P2Y receptor ligands, uridine-5'-diphosphate and uridine-5'-triphosphaste, stimulated uptake. Consistent with that, the P2Y6 receptor antagonist, MRS 2578, decreased phalloidin uptake. The results show that phalloidin permeates live hair cells through a pathway that requires metabotropic P2Y receptor signaling and suggest that phalloidin can be transferred from hair cells to supporting cells in culture.
鬼笔环肽,一种从毒蕈鹅膏(Amanita phalloides)中分离出的毒素,能与丝状肌动蛋白高亲和力结合,这使得荧光鬼笔环肽成为细胞成像的有用工具。肝细胞通过肝脏特异性有机阴离子转运多肽 1b2 摄取鬼笔环肽,但鬼笔环肽不能渗透大多数活细胞。吖啶染料快速进入活毛细胞已被用于评估功能,但这些荧光染料的有用性受到广泛且固定的吸收光谱的限制。由于鬼笔环肽可以与具有各种光谱的荧光团结合,我们研究了它是否会渗透活毛细胞。当我们将小鼠内耳在 66 nM 鬼笔环肽-CF488A 中孵育,然后在无鬼笔环肽的培养基中进行洗涤时,我们观察到它进入了一部分毛细胞,并在 20 分钟后使整个毛束荧光标记。90 分钟的孵育几乎标记了所有的毛束。在洗涤后 24 小时的培养中,用鬼笔环肽处理的内耳中,标记从毛细胞中消失,并逐渐但不均匀地标记支持细胞中的丝状肌动蛋白。我们研究了鬼笔环肽如何进入毛细胞,发现 P2 受体拮抗剂吡哆醛-6-偶氮苯-2',4'-二磺酸和苏拉明阻断了鬼笔环肽的进入,而 P2Y 受体配体,尿嘧啶 5'-二磷酸和尿嘧啶 5'-三磷酸,刺激了摄取。与之一致的是,P2Y6 受体拮抗剂 MRS 2578 减少了鬼笔环肽的摄取。结果表明,鬼笔环肽通过需要代谢型 P2Y 受体信号的途径渗透活毛细胞,并表明鬼笔环肽可以从毛细胞转移到培养中的支持细胞。