Chang Lynne, Barlan Kari, Chou Ying-Hao, Grin Boris, Lakonishok Margot, Serpinskaya Anna S, Shumaker Dale K, Herrmann Harald, Gelfand Vladimir I, Goldman Robert D
Department of Microbiology and Molecular Genetics, Harvard Medical School, Harvard University, Boston, MA, USA.
J Cell Sci. 2009 Aug 15;122(Pt 16):2914-23. doi: 10.1242/jcs.046789. Epub 2009 Jul 28.
Intermediate filament (IF) dynamics during organelle transport and their role in organelle movement were studied using Xenopus laevis melanophores. In these cells, pigment granules (melanosomes) move along microtubules and microfilaments, toward and away from the cell periphery in response to alpha-melanocyte stimulating hormone (alpha-MSH) and melatonin, respectively. In this study we show that melanophores possess a complex network of vimentin IFs which interact with melanosomes. IFs form an intricate, honeycomb-like network that form cages surrounding individual and small clusters of melanosomes, both when they are aggregated and dispersed. Purified melanosome preparations contain a substantial amount of vimentin, suggesting that melanosomes bind to IFs. Analyses of individual melanosome movements in cells with disrupted IF networks show increased movement of granules in both anterograde and retrograde directions, further supporting the notion of a melanosome-IF interaction. Live imaging reveals that IFs, in turn, become highly flexible as melanosomes disperse in response to alpha-MSH. During the height of dispersion there is a marked increase in the rate of fluorescence recovery after photobleaching of GFP-vimentin IFs and an increase in vimentin solubility. These results reveal a dynamic interaction between membrane bound pigment granules and IFs and suggest a role for IFs as modulators of granule movement.
利用非洲爪蟾黑素细胞研究了细胞器运输过程中的中间丝(IF)动态变化及其在细胞器移动中的作用。在这些细胞中,色素颗粒(黑素体)沿着微管和微丝移动,分别响应α-黑素细胞刺激素(α-MSH)和褪黑素,朝着或远离细胞周边移动。在本研究中,我们表明黑素细胞拥有一个与黑素体相互作用的波形蛋白IF复杂网络。IF形成一个复杂的蜂窝状网络,在黑素体聚集和分散时,都能形成围绕单个黑素体和小簇黑素体的笼子。纯化的黑素体制剂含有大量波形蛋白,这表明黑素体与IF结合。对IF网络破坏的细胞中单个黑素体运动的分析表明,颗粒在顺行和逆行方向上的运动均增加,进一步支持了黑素体与IF相互作用的观点。实时成像显示,随着黑素体响应α-MSH而分散,IF反过来变得高度灵活。在分散高峰期,GFP-波形蛋白IF光漂白后的荧光恢复率显著增加,波形蛋白溶解度也增加。这些结果揭示了膜结合色素颗粒与IF之间的动态相互作用,并表明IF作为颗粒运动调节剂的作用。