Altman Brian J, Rathmell Jeffrey C
Department of Pharmacology and Cancer Biology, Sarah W. Stedman Center for Nutrition and Metabolism, Durham, NC, USA
Autophagy. 2009 May;5(4):569-70. doi: 10.4161/auto.5.4.8254.
Autophagy is a well-established mechanism to degrade intracellular components and provide a nutrient source to promote survival of cells in metabolic distress. Such stress can be caused by a lack of available nutrients or by insufficient rates of nutrient uptake. Indeed, growth factor deprivation leads to internalization and degradation of nutrient transporters, leaving cells with limited means to access extracellular nutrients even when plentiful.This loss of growth factor signaling and extracellular nutrients ultimately leads to apoptosis, but also activates autophagy, which may degrade intracellular components and provide fuel for mitochondrial bioenergetics. The precise metabolic role of autophagy and how it intersects with the apoptotic pathways in growth factor withdrawal, however, has been uncertain. Our recent findings ingrowth factor-deprived hematopoietic cells show that autophagy can simultaneously contribute to cell metabolism and initiate a pathway to sensitize cells to apoptotic death. This pathway may promote tissue homeostasis by ensuring that only cells with high resistance to apoptosis may utilize autophagy as a survival mechanism when growth factors are limiting and nutrient uptake decreases.
自噬是一种公认的机制,用于降解细胞内成分并提供营养源,以促进处于代谢应激状态的细胞存活。这种应激可能由缺乏可用营养物质或营养物质摄取速率不足引起。事实上,生长因子剥夺会导致营养转运体的内化和降解,即使细胞外营养物质充足,细胞获取这些营养物质的途径也会受限。生长因子信号传导和细胞外营养物质的这种丧失最终会导致细胞凋亡,但同时也会激活自噬,自噬可能会降解细胞内成分并为线粒体生物能量学提供燃料。然而,自噬的确切代谢作用以及它在生长因子撤出时如何与凋亡途径相互作用尚不确定。我们最近在生长因子剥夺的造血细胞中的研究结果表明,自噬可以同时促进细胞代谢,并启动一条使细胞对凋亡性死亡敏感的途径。当生长因子有限且营养物质摄取减少时,这条途径可能通过确保只有对凋亡具有高抗性的细胞才能将自噬用作生存机制来促进组织稳态。