Glutamine and cancer: cell biology, physiology, and clinical opportunities
Christopher T. Hensley, … , Ajla T. Wasti, Ralph J. DeBerardinis
Christopher T. Hensley, … , Ajla T. Wasti, Ralph J. DeBerardinis
Published September 3, 2013
Citation Information: J Clin Invest. 2013;123(9):3678-3684. https://doi.org/10.1172/JCI69600.
View: Text | PDF
Category: Review Series

Glutamine and cancer: cell biology, physiology, and clinical opportunities

Abstract

Glutamine is an abundant and versatile nutrient that participates in energy formation, redox homeostasis, macromolecular synthesis, and signaling in cancer cells. These characteristics make glutamine metabolism an appealing target for new clinical strategies to detect, monitor, and treat cancer. Here we review the metabolic functions of glutamine as a super nutrient and the surprising roles of glutamine in supporting the biological hallmarks of malignancy. We also review recent efforts in imaging and therapeutics to exploit tumor cell glutamine dependence, discuss some of the challenges in this arena, and suggest a disease-focused paradigm to deploy these emerging approaches.

Authors

Christopher T. Hensley, Ajla T. Wasti, Ralph J. DeBerardinis

×

Figure 3

A strategy to integrate glutamine metabolism into the diagnosis, classification, treatment, and monitoring of neuroblastoma.

Options: View larger image (or click on image) Download as PowerPoint
A strategy to integrate glutamine metabolism into the diagnosis, classif...
Neuroblastoma commonly presents in children as an abdominal mass. A standard evaluation of a child with suspected neuroblastoma includes measurement of urine catecholamines, a bone scan, and full-body imaging with meta-iodobenzylguanidine (MIBG), all of which contribute to diagnosis and disease staging. In animal models, a subset of these tumors requires glutamine metabolism. This finding implies that approaches to image, quantify, or block glutamine metabolism (highlighted in red) in human neuroblastoma could be incorporated into the diagnosis and management of this disease. In particular, glutamine metabolic studies may help predict which tumors would respond to therapies targeting glutamine metabolism. HVA, homovanillic acid; VMA, vanillylmandelic acid.