To maintain the homeostasis of organism, the process of cell proliferation should be promised the cell fidelity as the original cell. If not, the cell fate would be turned into cell apoptosis or cellular senescence in order to avoid amplified mistakes. Normally, cell proliferation is promoted by cell growth which is stimulated by growth factors while the extracellular nutrients are sufficient. Proliferating cells often take up a large amount of nutrients and shunt metabolites into pathways that support macromolecules biosynthesis and thereby increase in size and mass. In the meantime, cells reorganize the whole metabolic activity which is the process called “metabolic reprogramming”. Proliferating cells switch the role of mitochondria from producing energy to providing the macromolecule precursors for macromolecule biosynthesis and the energy demand during cell growth provided by upreglulated glycolysis. Moreover, glutamine-dependent anaplerosis is one of the major sources of TCA cycle intermediates. In human embryonic fibroblast WI38 cells, the malate-aspartate shuttle inhibitor, AOA(aminooxyacetate) induced cell cycle arrest, reduced mTORC1 activity, promoted mTORC2 activity and even caused cellular senescence in the long time. All AOA- induced effects were blocked by co-treating with α-KG or NEAA. We speculated α-KG blocked AOA-induced effects by anaplerosis because α-KG serves as one of the important TCA cycle intermediates that support macromolecule biogenesis. Among NEAA, only aspartate and asparagine could block the AOA-induced effects and the ability of aspartate was better than asparagine. In the further research, the most effective concentration of aspartate was 3 mM and the asparagine synthetase inhibitor (L-DON) couldn’t interfere with the ability of aspartate . We found that aspartate blocked the AOA-induced effects may be via competing with AOA and increasing anaplerosis through OAA. In this study, we explore the important metabolic role and the nutrient sensing role of mitochondria during cell growth .