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Deficiency of metabolic regulator FGFR4 delays breast cancer progression through systemic and microenvironmental metabolic alterations.

Publication ,  Journal Article
Luo, Y; Yang, C; Ye, M; Jin, C; Abbruzzese, JL; Lee, M-H; Yeung, S-CJ; McKeehan, WL
Published in: Cancer Metab
November 25, 2013

BACKGROUND: Endocrine FGF21 and FGF19 target adipocytes and hepatocytes through betaKlotho (KLB) and FGFR tyrosine kinases effecting glucose, lipid and energy metabolism. Both factors alleviate obesity and metabolic abnormalities which are contributing factors to breast tumor progression. Genomic manipulation of hepatic FGFR4 has uncovered roles of endocrine FGF signaling in both metabolic and cellular homeostasis. Here we determined whether systemic and microenvironmental metabolic alterations caused by the FGFR4 deficiency affect tumorigenesis in breast where FGFR4 is negligible. Breast tumors were induced in the bigenic mice with ablation of FGFR4 and overexpression of TGFα that activates Her2 in the ductal and lobular epithelium surrounded by adipocytes. Mammary tumorigenesis and alterations in systemic and breast microenvironmental metabolic parameters and regulatory pathways were analyzed. RESULTS: Ablation of FGFR4 had no effect on cellular homeostasis and Her2 activity of normal breast tissue. However, the absence of FGFR4 reduced TGFα-driven breast tumor incidence and progression and improved host survival. Notable increases in hepatic and serum FGF21, ileal FGF15/19, adiponectin and adipsin, and decreases in systemic Fetuin A, IGF-1, IGFBP-1, RBP4 and TIMP1 were observed. The ablation affected adipogenesis and secretory function of adipocytes as well as lipogenesis, glycolysis and energy homeostasis associated with the functions of mitochondria, ER and peroxisomes in the breast and tumor foci. Treatment with a chemical inhibitor of NAMPT involved in the pathways inhibited the growth and survival of breast tumor cells and tumor-initiating cell-containing spheres. The FGFR4 ablation also caused elevation of inflammatory factors in the breast. CONCLUSIONS: Although the primary role of FGFR4 in metabolism occurs in hepatocytes, its ablation results in a net inhibitory effect on mammary tumor progression. We suggest that the tumor-delaying effect of FGFR4 deficiency may be in large part due to elevated anti-obesogenic FGF21 that triggers tumor-suppressing signals from both peripheral and breast adipocytes. The predominant changes in metabolic pathways suggested roles of metabolic effects from both peripheral and breast adipocytes on metabolic reprogramming in breast epithelial cells that contribute to the suppression of tumor progression. These results provide new insights into the contribution of systemic and microenvironmental metabolic effects controlled by endocrine FGF signaling to breast carcinogenesis.

Duke Scholars

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Published In

Cancer Metab

DOI

ISSN

2049-3002

Publication Date

November 25, 2013

Volume

1

Issue

1

Start / End Page

21

Location

England

Related Subject Headings

  • 3211 Oncology and carcinogenesis
  • 3205 Medical biochemistry and metabolomics
 

Citation

APA
Chicago
ICMJE
MLA
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Luo, Y., Yang, C., Ye, M., Jin, C., Abbruzzese, J. L., Lee, M.-H., … McKeehan, W. L. (2013). Deficiency of metabolic regulator FGFR4 delays breast cancer progression through systemic and microenvironmental metabolic alterations. Cancer Metab, 1(1), 21. https://doi.org/10.1186/2049-3002-1-21
Luo, Yongde, Chaofeng Yang, Min Ye, Chengliu Jin, James L. Abbruzzese, Mong-Hong Lee, Sai-Ching J. Yeung, and Wallace L. McKeehan. “Deficiency of metabolic regulator FGFR4 delays breast cancer progression through systemic and microenvironmental metabolic alterations.Cancer Metab 1, no. 1 (November 25, 2013): 21. https://doi.org/10.1186/2049-3002-1-21.
Luo Y, Yang C, Ye M, Jin C, Abbruzzese JL, Lee M-H, et al. Deficiency of metabolic regulator FGFR4 delays breast cancer progression through systemic and microenvironmental metabolic alterations. Cancer Metab. 2013 Nov 25;1(1):21.
Luo, Yongde, et al. “Deficiency of metabolic regulator FGFR4 delays breast cancer progression through systemic and microenvironmental metabolic alterations.Cancer Metab, vol. 1, no. 1, Nov. 2013, p. 21. Pubmed, doi:10.1186/2049-3002-1-21.
Luo Y, Yang C, Ye M, Jin C, Abbruzzese JL, Lee M-H, Yeung S-CJ, McKeehan WL. Deficiency of metabolic regulator FGFR4 delays breast cancer progression through systemic and microenvironmental metabolic alterations. Cancer Metab. 2013 Nov 25;1(1):21.
Journal cover image

Published In

Cancer Metab

DOI

ISSN

2049-3002

Publication Date

November 25, 2013

Volume

1

Issue

1

Start / End Page

21

Location

England

Related Subject Headings

  • 3211 Oncology and carcinogenesis
  • 3205 Medical biochemistry and metabolomics