Is ATP the Only Nucleoside Triphosphate among ATP, CTP, GTP, and UTP to Have a Role in Kinase Catalysis of Heme-Regulated Inhibitor toward eIF2α during Lung Cancer Development?

Abstract

The heme-regulated eukaryotic initiation factor 2α (eIF2α) kinase, also known as heme-regulated inhibitor (HRI), detects misfolded proteins and induces cytoprotective response to stress, mainly caused by heme-shortage. The nucleoside triphosphate ATP serves as the main donor of phosphate for the phosphorylation of eIF2α by HRI in human cells. However, the other main nucleoside triphosphates (CTP, GTP, UTP) are also present at relatively high concentrations, especially in human tumor cells. Therefore, in this short communication we evaluate the role of four substrates (namely ATP, CTP, GTP, and UTP) on human HRI kinase activity. Additionally, for the first time, we perform a detailed kinetics study of the HRI G202S mutant, whose presence in the human lung is associated with cancer development. Here, the role of all four tested nucleoside triphosphates during cancer development is discussed from the point of view of the HRI activity. The results showed that the kcat value of GTP was lower than that of ATP but was significantly higher than those of CTP and UTP. Additionally, the kcat value of GTP for G202S was approximately 20% higher than that for wild-type, while the kcat values of ATP, CTP, and UTP for G202S were lower than those for wild-type.