Research Centre for Bone and Stem Cells, Department of Human Anatomy, Key Laboratory for Aging & Disease, Nanjing Medical University, Nanjing, Jiangsu, 211166, China.
School of Nursing, Shanxi Medical University, Jinzhong, Shanxi, 030001, China.
Biochem Biophys Res Commun. 2020 Sep 3;529(4):1165-1172. doi: 10.1016/j.bbrc.2020.06.140. Epub 2020 Aug 3.
Renal stem or progenitor cells (RSCs), labeled with CD24 and CD133, play an important role during the repair of renal injury. Bmi-1 is a critical factor in regulating stemness of adult stem cells or progenitor cells. To investigate whether Bmi-1 determines the stemness of RSCs by inhibiting p16 and p53, and/or maintaining redox balance, RSCs were isolated, cultured and analyzed for stemness characterizations. In RSCs from Bmi-1-deficient (Bmi-1) mice and wild type (WT) littermates, self-renewal, stemness, and expressions of molecules for regulating redox balance and cell cycle progression were compared. Self-renewal of RSCs from Bmi-1 and p16 double-knockout (Bmi-1p16), Bmi-1 and p53 double-knockout (Bmi-1p53) and N-acetylcysteine (NAC)-treated Bmi-1 mice were further analyzed for amelioration. Human renal proximal tubular epithelial cells (HK2) were also used for signaling analysis. Our results showed that third-passage RSCs from WT mice had good stemness; Bmi-1 deficiency led to the decreased stemness, and the increased apoptosis for RSCs; NAC treatment or p16/p53 deletion ameliorated the decreased self-renewal of RSCs in Bmi-1 deficiency mice by maintaining redox balance or inhibiting cell cycle arrest respectively; Oxidative stress (OS) could negatively feedback regulate the mRNA expressions of Bmi-1, p16 and p53. In conclusion, Bmi-1 determined the stemness of RSCs through maintaining redox balance and preventing cell cycle arrest. Thus, Bmi-1 signaling molecules would be novel therapeutic targets for maintaining RSCs and hampering the progression of kidney diseases to prevent renal failure.
肾干/祖细胞(RSCs),标记为 CD24 和 CD133,在肾损伤修复过程中发挥重要作用。Bmi-1 是调节成体干细胞或祖细胞干性的关键因素。为了研究 Bmi-1 是否通过抑制 p16 和 p53 来决定 RSCs 的干性,以及/或者维持氧化还原平衡,分离、培养和分析了 RSCs,以研究其干性特征。在 Bmi-1 缺陷型(Bmi-1)小鼠和野生型(WT)同窝仔鼠的 RSCs 中,比较了自我更新、干性以及调节氧化还原平衡和细胞周期进程的分子表达。进一步分析了 Bmi-1 和 p16 双敲除(Bmi-1p16)、Bmi-1 和 p53 双敲除(Bmi-1p53)和 N-乙酰半胱氨酸(NAC)处理的 Bmi-1 小鼠的 RSCs 自我更新情况。还使用人肾近端小管上皮细胞(HK2)进行了信号分析。结果表明,WT 小鼠的第 3 代 RSCs 具有良好的干性;Bmi-1 缺乏导致 RSCs 干性降低,凋亡增加;NAC 处理或 p16/p53 缺失通过维持氧化还原平衡或抑制细胞周期停滞分别改善了 Bmi-1 缺陷型小鼠 RSCs 自我更新能力的下降;氧化应激(OS)可以负反馈调节 Bmi-1、p16 和 p53 的 mRNA 表达。综上所述,Bmi-1 通过维持氧化还原平衡和防止细胞周期停滞来决定 RSCs 的干性。因此,Bmi-1 信号分子可能成为维持 RSCs 和阻止肾脏疾病进展以防止肾衰竭的新治疗靶点。
