Boronic acid derivative activates pyruvate kinase M2 indispensable for redox metabolism in oral cancer cells.

PKM2is considered a desirable target as its enzymatic activation is expected to cause a diminution in tumorigenesis and prevent limitless replication in cancerous cells. However, considering the functional consequences of kinase inhibitors, the design of PKM2 activators has been an attractive strategy that has yielded potent anticancer molecules like DASA-58. Therefore, a new class of boronic acid derivate was developed to elucidate the possible mechanistic link between PKM2 activation and TPI1 activity, which has a significant role in the redox balance in cancer. The present in vitro study revealed that treatment with boronic acid-based compound 1 and DASA-58 was found to activate PKM2 with an AC50 of 25 nM and 52 nM, respectively. Furthermore, at the AC50 concentration of compound 1, we found a significant increase in TPI1 activity and a decrease in GSH and NADP+/NADPH ratio. We also found increased ROS levels and decreased lactate secretion with treatment. Together with these findings, we can presume that compound 1 affects the redox balance by activating PKM2 and TPI1 activity. Implementation of this treatment strategy may improve the effect of chemotherapy in the conditions of ROS induced cancer drug resistance. This study for the first time supports the link between PKM2 and the TPI1 redox balance pathway in oral cancer. Collectively, the study findings provide a novel molecule for PKM2 activation for the therapeutic intervention in oral cancer.

Pyruvate Kinase M2: a Metabolic Bug in Re-Wiring the Tumor Microenvironment.

Metabolic reprogramming is a newly emerged hallmark of cancer attaining a recent consideration as an essential factor for the progression and endurance of cancer cells. A prime event of this altered metabolism is increased glucose uptake and discharge of lactate into the cells surrounding constructing a favorable tumor niche. Several oncogenic factors help in promoting this consequence including, pyruvate kinase M2 (PKM2) a rate-limiting enzyme of glycolysis in tumor metabolism via exhibiting its low pyruvate kinase activity and nuclear moon-lightening functions to increase the synthesis of lactate and macromolecules for tumor proliferation. Not only its role in cancer cells but also its role in the tumor microenvironment cells has to be understood for developing the small molecules against it which is lacking with the literature till date. Therefore, in this present review, the role of PKM2 with respect to various tumor niche cells will be clarified. Further, it highlights the updated list of therapeutics targeting PKM2 pre-clinically and clinically with their added limitations. This upgraded understanding of PKM2 may provide a pace for the reader in developing chemotherapeutic strategies for better clinical survival with limited resistance.