Wang Wei-Hung, Chien Ting-Han, Fan Sabrina Mai-Yi, Huang Wen-Yen, Lai Shih-Fan, Wu June-Tai, Lin Sung-Jan
a Institute of Biomedical Engineering, College of Medicine and College of Engineering.
d Division of Radiation Oncology, Department of Oncology and.
Radiat Res. 2017 Dec;188(6):681-689. doi: 10.1667/RR14830.1. Epub 2017 Oct 11.
Transit amplifying cells (TACs) are highly proliferative in nature and tend to be sensitive to ionizing radiation. Due to the abundance of TACs that support the elongation of hair shafts, growing hair follicles are highly sensitive to radiation injury. How hair follicles repair themselves after radiation injury is unclear. In this study, we observed that in 4 Gy irradiated mice, hair follicle dystrophy was induced with apoptosis-driven loss of hair matrix cells, which are the TACs that fuel hair growth. The dystrophy was repaired within 96 h without significant hair loss, indicating that a regenerative attempt successfully restored the TAC population to resume anagen growth. Soon after irradiation, mTORC1 signaling was activated in the TAC compartment and its activation was maintained until the regeneration process was completed. Inhibition of mTORC1 by rapamycin treatment increased radiation-induced cell apoptosis, reduced cell proliferation and delayed restoration of Wnt signaling in the hair matrix after radiation injury, leading to prolonged dystrophy and hair loss. These results demonstrate that mTORC1 signaling is activated after irradiation and is required for timely regeneration of the TAC pool of hair follicles, so that hair growth can resume after radiation injury.
过渡放大细胞(TACs)本质上具有高度增殖性,并且往往对电离辐射敏感。由于大量支持毛干伸长的TACs,生长中的毛囊对辐射损伤高度敏感。毛囊在辐射损伤后如何自我修复尚不清楚。在本研究中,我们观察到,在接受4 Gy照射的小鼠中,毛囊营养不良是由凋亡驱动的毛母质细胞丢失所致,毛母质细胞是促进头发生长的TACs。这种营养不良在96小时内得到修复,且无明显脱发,这表明一次再生尝试成功恢复了TAC群体,从而恢复了生长期生长。照射后不久,mTORC1信号在TAC区室中被激活,并且其激活一直维持到再生过程完成。用雷帕霉素处理抑制mTORC1会增加辐射诱导的细胞凋亡,减少细胞增殖,并延迟辐射损伤后毛母质中Wnt信号的恢复,导致营养不良和脱发时间延长。这些结果表明,照射后mTORC1信号被激活,并且是毛囊TAC池及时再生所必需的,以便辐射损伤后毛发生长能够恢复。
