Blockade of TGF-β inhibits mammary tumor cell viability, migration, and metastases

Rebecca S. Muraoka(Vanderbilt University), Nancy Dumont(Vanderbilt University), Christoph A. Ritter(Vanderbilt University), Teresa C. Dugger(Vanderbilt University), Dana M. Brantley(Vanderbilt University), Jin Chen(Vanderbilt University), Evangeline Easterly(Vanderbilt University), L. Renee Roebuck(Vanderbilt University), Sarah Ryan(Biogen (Switzerland)), Philip J. Gotwals(Biogen (Switzerland)), Victor Koteliansky(Biogen (Switzerland)), Carlos L. Arteaga(Vanderbilt University)
Journal of Clinical Investigation
June 15, 2002
10.1172/jci15234
Cited by 486Open Access
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Abstract

TGF-betas are potent inhibitors of epithelial cell proliferation. However, in established carcinomas, autocrine/paracrine TGF-beta interactions can enhance tumor cell viability and progression. Thus, we studied the effect of a soluble Fc:TGF-beta type II receptor fusion protein (Fc:TbetaRII) on transgenic and transplantable models of breast cancer metastases. Systemic administration of Fc:TbetaRII did not alter primary mammary tumor latency in MMTV-Polyomavirus middle T antigen transgenic mice. However, Fc:TbetaRII increased apoptosis in primary tumors, while reducing tumor cell motility, intravasation, and lung metastases. These effects correlated with inhibition of Akt activity and FKHRL1 phosphorylation. Fc:TbetaRII also inhibited metastases from transplanted 4T1 and EMT-6 mammary tumors in syngeneic BALB/c mice. Tumor microvessel density in a mouse dorsal skin window chamber was unaffected by Fc:TbetaRII. Therefore, blockade of TGF-beta signaling may reduce tumor cell viability and migratory potential and represents a testable therapeutic approach against metastatic carcinomas.

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