Glutamine, Serine and Glycine at Increasing Concentrations Regulate Cisplatin Sensitivity in Gastric Cancer by Posttranslational Modifications of KDM4A.

Abstract

Gastric cancer is a common digestive system tumor with a high resistance rate that reduces the sensitivity to chemotherapy. Nutrition therapy is an important adjuvant approach to favor the prognosis of gastric cancer. Dietary amino acids contribute greatly to gastric cancer progression by mediating tumor gene expressions, epigenetics, signal transduction, and metabolic remodeling. In the present study, 20 types of amino acids were screened and glutamine, glycine and serine were identified as the critical regulators of cisplatin (DDP) sensitivity in gastric cancer cells. Moreover, KDM4A acetylation drove the reduced chemotherapy sensitivity in gastric cancer cells by maintaining protein stability and activating DNA repair ability when the concentrations of glutamine (Gln), serine (Ser), and glycine (Gly) decreased. Conversely, Gln/Ser/Gly at increasing concentrations stimulated ubiquitination degradation of KDM4A, which in turn elevated the sensitivity of gastric cancer cells to chemotherapy. Our findings unveiled the role of amino acid nutrition in regulating chemotherapy sensitivity of gastric cancer and the underlying mechanism, thus providing a scientific basis for expanding the clinical significance of nutrition therapy for gastric cancer patients.