@inbook{d94505963df54446928e444cd784572d,
title = "Significance of talin in cancer progression and metastasis",
abstract = "Upon detachment from the extracellular matrix, tumor epithelial cells and tumor-associated endothelial cells are capable of overcoming anoikis, gain survival benefits, and hence contribute to the process of metastasis. The focal-adhesion complex formation recruits the association of key adaptor proteins such as FAK (focal-adhesion kinase). Vimentin, paxillin, and talin are responsible for mediating the interaction between the actin cytoskeleton and integrins. Talin is an early-recruited focal-adhesion player that is of structural and functional significance in mediating interactions with integrin cytoplasmic tails leading to destabilization of the transmembrane complex and resulting in rearrangements in the extracellular integrin compartments that mediate integrin activation. Talin-mediated integrin activation plays a definitive role in integrin-mediated signaling and induction of downstream survival pathways leading to protection from anoikis and consequently resulting in cancer progression to metastasis. We recently reported that talin expression is significantly increased in prostate cancer compared with benign and normal prostate tissue and that this overexpression correlates with progression to metastatic disease implicating a prognostic value for talin during tumor progression. At the molecular level, talin is functionally associated with enhanced survival and proliferation pathways and confers anoikis resistance and metastatic spread of primary tumor cells via activation of the Akt survival pathway. In this review, we discuss the growing evidence surrounding the value of talin as a prognostic marker of cancer progression to metastasis and as therapeutic target in advanced prostate cancer, as well as the current understanding of mechanisms regulating its signaling activity in cancer.",
keywords = "Anoikis, Focal adhesions, Integrins, Invasion, Metastasis, Migration, Talin",
author = "Andreas Desiniotis and Natasha Kyprianou",
note = "Funding Information: Our work described was supported by grants from the National Institute of Health, RO1CA10757506, and the Department of Defense, W81XWH-08-1-0431.",
year = "2011",
doi = "10.1016/B978-0-12-386039-2.00004-3",
language = "English",
series = "International Review of Cell and Molecular Biology",
publisher = "Elsevier Inc.",
pages = "117--147",
booktitle = "International Review of Cell and Molecular Biology",
address = "United States",
}