TY - JOUR
T1 - Rewired glutamate metabolism diminishes cytostatic action of L-asparaginase
AU - Hlozkova, Katerina
AU - Vasylkivska, Maryna
AU - Boufersaoui, Adam
AU - Marzullo, Bryan
AU - Kolarik, Matus
AU - Alquezar-Artieda, Natividad
AU - Shaikh, Mehak
AU - Faradonbeh, Fatemeh Alaei
AU - Zaliova, Marketa
AU - Zwyrtkova, Martina
AU - Bakardijeva-Mihaylova, Violeta
AU - Alberich-Jorda, Meritxell
AU - Trka, Jan
AU - Tennant, Daniel A.
AU - Starkova, Julia
PY - 2024/9/11
Y1 - 2024/9/11
N2 - Tumor cells often adapt to amino acid deprivation through metabolic rewiring, compensating for the loss with alternative amino acids/substrates. We have described such a scenario in leukemic cells treated with L-asparaginase (ASNase). Clinical effect of ASNase is based on nutrient stress achieved by its dual enzymatic action which leads to depletion of asparagine and glutamine and is accompanied with elevated aspartate and glutamate concentrations in serum of acute lymphoblastic leukemia patients. We showed that in these limited conditions glutamate uptake compensates for the loss of glutamine availability. Extracellular glutamate flux detection confirms its integration into the TCA cycle and its participation in nucleotide and glutathione synthesis. Importantly, it is glutamate-driven de novo synthesis of glutathione which is the essential metabolic pathway necessary for glutamate’s pro-survival effect. In vivo findings support this effect by showing that inhibition of glutamate transporters enhances the therapeutic effect of ASNase. In summary, ASNase induces elevated extracellular glutamate levels under nutrient stress, which leads to a rewiring of intracellular glutamate metabolism and has a negative impact on ASNase treatment.
AB - Tumor cells often adapt to amino acid deprivation through metabolic rewiring, compensating for the loss with alternative amino acids/substrates. We have described such a scenario in leukemic cells treated with L-asparaginase (ASNase). Clinical effect of ASNase is based on nutrient stress achieved by its dual enzymatic action which leads to depletion of asparagine and glutamine and is accompanied with elevated aspartate and glutamate concentrations in serum of acute lymphoblastic leukemia patients. We showed that in these limited conditions glutamate uptake compensates for the loss of glutamine availability. Extracellular glutamate flux detection confirms its integration into the TCA cycle and its participation in nucleotide and glutathione synthesis. Importantly, it is glutamate-driven de novo synthesis of glutathione which is the essential metabolic pathway necessary for glutamate’s pro-survival effect. In vivo findings support this effect by showing that inhibition of glutamate transporters enhances the therapeutic effect of ASNase. In summary, ASNase induces elevated extracellular glutamate levels under nutrient stress, which leads to a rewiring of intracellular glutamate metabolism and has a negative impact on ASNase treatment.
U2 - 10.1016/j.canlet.2024.217242
DO - 10.1016/j.canlet.2024.217242
M3 - Article
SN - 0304-3835
JO - Cancer Letters
JF - Cancer Letters
M1 - 217242
ER -