PTHrP drives breast tumor initiation, progression, and metastasis in mice and is a potential therapy target
Jiarong Li, … , William J. Muller, Richard Kremer
Jiarong Li, … , William J. Muller, Richard Kremer
Published November 7, 2011
Citation Information: J Clin Invest. 2011;121(12):4655-4669. https://doi.org/10.1172/JCI46134.
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Research Article Oncology

PTHrP drives breast tumor initiation, progression, and metastasis in mice and is a potential therapy target

Abstract

Parathyroid hormone–related protein (PTHrP) is a secreted factor expressed in almost all normal fetal and adult tissues. It is involved in a wide range of developmental and physiological processes, including serum calcium regulation. PTHrP is also associated with the progression of skeletal metastases, and its dysregulated expression in advanced cancers causes malignancy-associated hypercalcemia. Although PTHrP is frequently expressed by breast tumors and other solid cancers, its effects on tumor progression are unclear. Here, we demonstrate in mice pleiotropic involvement of PTHrP in key steps of breast cancer — it influences the initiation and progression of primary tumors and metastases. Pthrp ablation in the mammary epithelium of the PyMT-MMTV breast cancer mouse model caused a delay in primary tumor initiation, inhibited tumor progression, and reduced metastasis to distal sites. Mechanistically, it reduced expression of molecular markers of cell proliferation (Ki67) and angiogenesis (factor VIII), antiapoptotic factor Bcl-2, cell-cycle progression regulator cyclin D1, and survival factor AKT1. PTHrP also influenced expression of the adhesion factor CXCR4, and coexpression of PTHrP and CXCR4 was crucial for metastatic spread. Importantly, PTHrP-specific neutralizing antibodies slowed the progression and metastasis of human breast cancer xenografts. Our data identify what we believe to be new functions for PTHrP in several key steps of breast cancer and suggest that PTHrP may constitute a novel target for therapeutic intervention.

Authors

Jiarong Li, Andrew C. Karaplis, Dao C. Huang, Peter M. Siegel, Anne Camirand, Xian Fang Yang, William J. Muller, Richard Kremer

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Figure 4

A more complete ablation of Pthrp by Cre-carrying adenovirus further delays breast cancer initiation and progression.

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A more complete ablation of Pthrp by Cre-carrying adenovirus further del...
(A) Adenovirus-transfected tumor cells selected by flow cytometry: left, cell fluorescence for GFP; right, confocal images of IF staining for DAPI (blue) and PTHrP (green) in mammary tumors derived from injected adenovirus-transfected tumor cells illustrating near-complete disappearance of PTHrP expression in homozygous tumors. Scale bars: 200 μm. (B) Western blot quantifying PTHrP expression in Pthrpflox/flox tumor cells transfected with adenoGFP. Lane 1, control, Pthrpflox/flox adenoGFP; lanes 2 and 3, hetero- and homozygous, Pthrpflox/+ or Pthrpflox/flox adenoCreGFP, respectively. (C) Tumor volume per animal for tumors derived from adenovirus-transfected tumor cells injected into the MFPs of syngeneic mice. Values represent mean ± SD, n = 12 mice for each group. ***P < 0.001. (D) Tumor load in whole animals 8 weeks after adenovirus-transfected cell injection. (E) Average weight of breast tumor load per mouse at sacrifice. Values represent mean ± SD, n = 12 mice per group. **P < 0.01.