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我们以前证实微管聚合抑制剂Col(秋水仙碱)可抑制分泌TNF—α。本文进一步证实Col并非干扰将TNF—α胞外的分泌过程,因Col不引起TNF—α在细胞内的潴留,而是抑制TNF—α的产生。因为:(1)阻断新合成蛋白分泌过程的试剂Mon(莫能菌素),能完全抑制TNF—α的释放,将大量TNF—α阻留在细胞内。如加用Col.则Mon阻留于胞内的TNF—α明显减少;(2)Westernblot显示Col可抑制TNF—α前体一26KD蛋白的产生。如在LPs刺激的不同时间加Col,其抑制效应在2~8h内逐渐消失,若同时给予LPS与Col.则Col的抑制效果最好,说明Col作用于TNF—α生物合成早期。在分子水平上,Col明显减低LPS诱导的TNF—αmRNA水平。以上资料提示Col主要通过抑制TNF—αmRNA转录而减少TNF—α的合成。
We have previously demonstrated that microtubule polymerization inhibitor Col (colchicine) inhibits the secretion of TNF-α. This article further confirmed that Col does not interfere with the extracellular secretion of TNF-α, because Col does not cause TNF-α intracellular retention, but inhibits TNF-α production. Because: (1) Mon (monensin), which blocks the process of the new synthetic protein secretion, can completely inhibit the release of TNF-α and block a large amount of TNF-α in the cells. If add Col. (2) Western blot showed that Col inhibited the production of TNF-α precursor-26KD protein. As in the LPs stimulated at different times with Col, its inhibitory effect gradually disappear in 2 ~ 8h, if given both LPS and Col. Col inhibited the best, indicating that Col acts on the early stage of TNF-α biosynthesis. At the molecular level, Col significantly decreased LPS-induced TNF-α mRNA levels. The above data suggest that Col mainly decreases TNF-alpha synthesis by inhibiting TNF-alpha mRNA transcription.