Glutamine synthetase is a genetic determinant of cell type-specific glutamine independence in breast epithelia.
Hsiu-Ni Kung, Jeffrey R Marks, Jen-Tsan Chi
Index: PLoS Genet. 7(8) , e1002229, (2011)
Full Text: HTML
Abstract
Although significant variations in the metabolic profiles exist among different cells, little is understood in terms of genetic regulations of such cell type-specific metabolic phenotypes and nutrient requirements. While many cancer cells depend on exogenous glutamine for survival to justify the therapeutic targeting of glutamine metabolism, the mechanisms of glutamine dependence and likely response and resistance of such glutamine-targeting strategies among cancers are largely unknown. In this study, we have found a systematic variation in the glutamine dependence among breast tumor subtypes associated with mammary differentiation: basal- but not luminal-type breast cells are more glutamine-dependent and may be susceptible to glutamine-targeting therapeutics. Glutamine independence of luminal-type cells is associated mechanistically with lineage-specific expression of glutamine synthetase (GS). Luminal cells can also rescue basal cells in co-culture without glutamine, indicating a potential for glutamine symbiosis within breast ducts. The luminal-specific expression of GS is directly induced by GATA3 and represses glutaminase expression. Such distinct glutamine dependency and metabolic symbiosis is coupled with the acquisition of the GS and glutamine independence during the mammary differentiation program. Understanding the genetic circuitry governing distinct metabolic patterns is relevant to many symbiotic relationships among different cells and organisms. In addition, the ability of GS to predict patterns of glutamine metabolism and dependency among tumors is also crucial in the rational design and application of glutamine and other metabolic pathway targeted therapies.
Related Compounds
Related Articles:
Notch ligand delta-like1: X-ray crystal structure and binding affinity.
2015-05-15
[Biochem. J. 468 , 159-66, (2015)]
Polyproline promotes tetramerization of recombinant human butyrylcholinesterase.
2014-09-01
[Biochem. J. 462(2) , 329-35, (2014)]
A Chimeric HIV-1 gp120 Fused with Vaccinia Virus 14K (A27) Protein as an HIV Immunogen.
2015-01-01
[PLoS ONE 10 , e0133595, (2015)]
2015-01-01
[PLoS ONE 10(2) , e0118096, (2015)]
2015-02-01
[Neurochem. Res. 40(2) , 274-83, (2015)]