Author
Listed:
- Taro Hitosugi
(Winship Cancer Institute of Emory, Emory University School of Medicine)
- Lu Zhou
(The University of Chicago)
- Jun Fan
(Winship Cancer Institute of Emory, Emory University School of Medicine)
- Shannon Elf
(Winship Cancer Institute of Emory, Emory University School of Medicine)
- Liang Zhang
(The University of Chicago)
- Jianxin Xie
(Cell Signalling Technology, Inc. (CST))
- Yi Wang
(Cell Signalling Technology, Inc. (CST))
- Ting-Lei Gu
(Cell Signalling Technology, Inc. (CST))
- Masa Alečković
(Washington Road, LTL 255, Princeton University)
- Gary LeRoy
(Washington Road, LTL 255, Princeton University)
- Yibin Kang
(Washington Road, LTL 255, Princeton University)
- Hee-Bum Kang
(Winship Cancer Institute of Emory, Emory University School of Medicine)
- Jae-Ho Seo
(Winship Cancer Institute of Emory, Emory University School of Medicine)
- Changliang Shan
(Winship Cancer Institute of Emory, Emory University School of Medicine)
- Peng Jin
(Emory University School of Medicine)
- Weimin Gong
(Institute of Biophysics, Chinese Academy of Sciences)
- Sagar Lonial
(Winship Cancer Institute of Emory, Emory University School of Medicine)
- Martha L. Arellano
(Winship Cancer Institute of Emory, Emory University School of Medicine)
- Hanna J. Khoury
(Winship Cancer Institute of Emory, Emory University School of Medicine)
- Georgia Z. Chen
(Winship Cancer Institute of Emory, Emory University School of Medicine)
- Dong M. Shin
(Winship Cancer Institute of Emory, Emory University School of Medicine)
- Fadlo R. Khuri
(Winship Cancer Institute of Emory, Emory University School of Medicine)
- Titus J. Boggon
(Yale University School of Medicine)
- Sumin Kang
(Winship Cancer Institute of Emory, Emory University School of Medicine)
- Chuan He
(The University of Chicago)
- Jing Chen
(Winship Cancer Institute of Emory, Emory University School of Medicine)
Abstract
How oncogenic signalling coordinates glycolysis and anabolic biosynthesis in cancer cells remains unclear. We recently reported that the glycolytic enzyme phosphoglycerate mutase 1 (PGAM1) regulates anabolic biosynthesis by controlling intracellular levels of its substrate 3-phosphoglycerate and product 2-phosphoglycerate. Here we report a novel mechanism in which Y26 phosphorylation enhances PGAM1 activation through release of inhibitory E19 that blocks the active site, stabilising cofactor 2,3-bisphosphoglycerate binding and H11 phosphorylation. We also report the crystal structure of H11-phosphorylated PGAM1 and find that phospho-H11 activates PGAM1 at least in part by promoting substrate 3-phosphoglycerate binding. Moreover, Y26 phosphorylation of PGAM1 is common in human cancer cells and contributes to regulation of 3-phosphoglycerate and 2-phosphoglycerate levels, promoting cancer cell proliferation and tumour growth. As PGAM1 is a negative transcriptional target of TP53, and is therefore commonly upregulated in human cancers, these findings suggest that Y26 phosphorylation represents an additional acute mechanism underlying phosphoglycerate mutase 1 upregulation.
Suggested Citation
Taro Hitosugi & Lu Zhou & Jun Fan & Shannon Elf & Liang Zhang & Jianxin Xie & Yi Wang & Ting-Lei Gu & Masa Alečković & Gary LeRoy & Yibin Kang & Hee-Bum Kang & Jae-Ho Seo & Changliang Shan & Peng Jin , 2013.
"Tyr26 phosphorylation of PGAM1 provides a metabolic advantage to tumours by stabilizing the active conformation,"
Nature Communications, Nature, vol. 4(1), pages 1-10, June.
Handle:
RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms2759
DOI: 10.1038/ncomms2759
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