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Browsing by Author "Pavlova, Natalya N."
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Item As Extracellular Glutamine Levels Decline, Asparagine Becomes an Essential Amino Acid(Elsevier, 2018-02-06) Pavlova, Natalya N.; Hui, Sheng; Ghergurovich, Jonathan M.; Fan, Jing; Intlekofer, Andrew M.; White, Richard M.; Rabinowitz, Joshua D.; Thompson, Craig B.; Zhang, Ji; Pediatrics, School of MedicineWhen mammalian cells are deprived of glutamine, exogenous asparagine rescues cell survival and growth. Here we report that this rescue results from use of asparagine in protein synthesis. All mammalian cell lines tested lacked cytosolic asparaginase activity and could not utilize asparagine to produce other amino acids or biosynthetic intermediates. Instead, most glutamine-deprived cell lines are capable of sufficient glutamine synthesis to maintain essential amino acid uptake and production of glutamine-dependent biosynthetic precursors, with the exception of asparagine. While experimental introduction of cytosolic asparaginase could enhance the synthesis of glutamine and increase tricarboxylic acid cycle anaplerosis and the synthesis of nucleotide precursors, cytosolic asparaginase suppressed the growth and survival of cells in glutamine-depleted medium in vitro and severely compromised the in vivo growth of tumor xenografts. These results suggest that the lack of asparaginase activity represents an evolutionary adaptation to allow mammalian cells to survive pathophysiologic variations in extracellular glutamine.Item Asparagine, a critical limiting metabolite during glutamine starvation(Taylor & Francis, 2018-04-11) Jiang, Jie; Pavlova, Natalya N.; Zhang, Ji; Pediatrics, School of MedicineA challenge of targeting glutamine metabolism in cancer is that tumor cells develop various strategies to adapt to glutamine limitation. We found that asparagine plays a critical role in supporting protein synthesis during glutamine starvation, highlighting a possible approach to optimize the therapeutic efficacy of targeting glutamine metabolism in cancer.Item Promoter demethylation of the asparagine synthetase gene is required for ATF4-dependent adaptation to asparagine depletion(Elsevier, 2019-12-06) Jiang, Jie; Srivastava, Sankalp; Seim, Gretchen; Pavlova, Natalya N.; King, Bryan; Zou, Lihua; Zhang, Chi; Zhong, Minghua; Feng, Hui; Kapur, Reuben; Wek, Ronald C.; Fan, Jing; Zhang, Ji; Pediatrics, School of MedicineTumor cells adapt to nutrient-limited environments by inducing gene expression that ensures adequate nutrients to sustain metabolic demands. For example, during amino acid limitations, ATF4 in the amino acid response induces expression of asparagine synthetase (ASNS), which provides for asparagine biosynthesis. Acute lymphoblastic leukemia (ALL) cells are sensitive to asparagine depletion, and administration of the asparagine depletion enzyme l-asparaginase is an important therapy option. ASNS expression can counterbalance l-asparaginase treatment by mitigating nutrient stress. Therefore, understanding the mechanisms regulating ASNS expression is important to define the adaptive processes underlying tumor progression and treatment. Here we show that DNA hypermethylation at the ASNS promoter prevents its transcriptional expression following asparagine depletion. Insufficient expression of ASNS leads to asparagine deficiency, which facilitates ATF4-independent induction of CCAAT-enhancer-binding protein homologous protein (CHOP), which triggers apoptosis. We conclude that chromatin accessibility is critical for ATF4 activity at the ASNS promoter, which can switch ALL cells from an ATF4-dependent adaptive response to ATF4-independent apoptosis during asparagine depletion. This work may also help explain why ALL cells are most sensitive to l-asparaginase treatment compared with other cancers.