AUTHOR=Davis Paul J. , Glinsky Gennadi V. , Lin Hung-Yun , Leith John T. , Hercbergs Aleck , Tang Heng-Yuan , Ashur-Fabian Osnat , Incerpi Sandra , Mousa Shaker A. 

TITLE=Cancer Cell Gene Expression Modulated from Plasma Membrane Integrin αvβ3 by Thyroid Hormone and Nanoparticulate Tetrac

JOURNAL=Frontiers in Endocrinology

VOLUME=5

YEAR=2015

URL=https://www.frontiersin.org/journals/endocrinology/articles/10.3389/fendo.2014.00240

DOI=10.3389/fendo.2014.00240

ISSN=1664-2392

ABSTRACT=<p>Integrin αvβ3 is generously expressed by cancer cells and rapidly dividing endothelial cells. The principal ligands of the integrin are extracellular matrix proteins, but we have described a cell surface small molecule receptor on αvβ3 that specifically binds thyroid hormone and thyroid hormone analogs. From this receptor, thyroid hormone (<sc>l</sc>-thyroxine, T<sub>4</sub>; 3,5,3′-triiodo-<sc>l</sc>-thyronine, T<sub>3</sub>) and tetraiodothyroacetic acid (tetrac) regulate expression of specific genes by a mechanism that is initiated non-genomically. At the integrin, T<sub>4</sub> and T<sub>3</sub> at physiological concentrations are pro-angiogenic by multiple mechanisms that include gene expression, and T<sub>4</sub> supports tumor cell proliferation. Tetrac blocks the transcriptional activities directed by T<sub>4</sub> and T<sub>3</sub> at αvβ3, but, independently of T<sub>4</sub> and T<sub>3</sub>, tetrac modulates transcription of cancer cell genes that are important to cell survival pathways, control of the cell cycle, angiogenesis, apoptosis, cell export of chemotherapeutic agents, and repair of double-strand DNA breaks. We have covalently bound tetrac to a 200 nm biodegradable nanoparticle that prohibits cell entry of tetrac and limits its action to the hormone receptor on the extracellular domain of plasma membrane αvβ3. This reformulation has greater potency than unmodified tetrac at the integrin and affects a broader range of cancer-relevant genes. In addition to these actions on intra-cellular kinase-mediated regulation of gene expression, hormone analogs at αvβ3 have additional effects on intra-cellular protein-trafficking (cytosol compartment to nucleus), nucleoprotein phosphorylation, and generation of nuclear coactivator complexes that are relevant to traditional genomic actions of T<sub>3</sub>. Thus, previously unrecognized cell surface-initiated actions of thyroid hormone and tetrac formulations at αvβ3 offer opportunities to regulate angiogenesis and multiple aspects of cancer cell behavior.</p>