Department of Pharmacy, Research Institute of Pharmaceutical Sciences, College of Pharmacy, Seoul National University, Seoul, Republic of Korea.
Interdisciplinary Program in Genetic Engineering, Seoul National University, Seoul, Republic of Korea.
FASEB J. 2021 Mar;35(3):e21369. doi: 10.1096/fj.202002138RR.
Transmembrane 4 L six family member 5 (TM4SF5) translocates intracellularly and promotes cell migration, but how subcellular TM4SF5 traffic is regulated to guide cellular migration is unknown. We investigated the influences of the extracellular environment and intracellular signaling on the TM4SF5 traffic with regard to migration directionality. Cell adhesion to fibronectin (FN) but not poly-l-lysine enhanced the traffic velocity and straightness of the TM4SF5 (but not palmitoylation-deficient mutant ) toward the leading edges, depending on tubulin acetylation. Acetylated-microtubules in SLAC2B-positive cells reached mostly the juxtanuclear regions, but reached-out toward the leading edges upon SLAC2B suppression. TM4SF5 expression caused SLAC2B not to be localized at the leading edges. TM4SF5 colocalization with HDAC6 depended on paxillin expression. The trimeric complex consisting of TM4SF5, HDAC6, and SLAC2B might, thus, be enriched at the perinuclear cytosols toward the leading edges. More TM4SF5 translocation to the leading edges was possible when acetylated-microtubules reached the frontal edges following HDAC6 inhibition by paxillin presumably at new cell-FN adhesions, leading to persistent cell migration. Collectively, this study revealed that cell-FN adhesion and microtubule acetylation could control intracellular traffic of TM4SF5 vesicles to the leading edges via coordinated actions of paxillin, SLAC2B, and HDAC6, leading to TM4SF5-dependent cell migration.
跨膜 4 L 六家族成员 5(TM4SF5)在细胞内易位并促进细胞迁移,但细胞内 TM4SF5 转运如何被调节以指导细胞迁移尚不清楚。我们研究了细胞外环境和细胞内信号对 TM4SF5 迁移方向的影响。细胞与纤维连接蛋白(FN)而非聚-l-赖氨酸的黏附增强了 TM4SF5 的转运速度和直线度(而非棕榈酰化缺陷突变体 )向尖端的迁移,这取决于微管乙酰化。在 SLAC2B 阳性细胞中,乙酰化微管主要到达核周区域,但在 SLAC2B 抑制后,它们伸向尖端。TM4SF5 的表达导致 SLAC2B 不在尖端定位。TM4SF5 与 HDAC6 的共定位取决于桩蛋白的表达。因此,由 TM4SF5、HDAC6 和 SLAC2B 组成的三聚体复合物可能在核周细胞质中朝向尖端富集。当微管乙酰化后,当乙酰化微管到达前端边缘时,更多的 TM4SF5 向尖端易位是可能的,这可能是由于新的细胞-FN 黏附物中桩蛋白对 HDAC6 的抑制,导致细胞持续迁移。总之,这项研究揭示了细胞-FN 黏附和微管乙酰化可以通过整合作用控制 TM4SF5 囊泡向尖端的细胞内运输,协调动作的蛋白、SLAC2B 和 HDAC6,导致 TM4SF5 依赖性细胞迁移。
