A novel class of anticancer compounds targets the actin cytoskeleton in tumor cells - PubMed (original) (raw)

. 2013 Aug 15;73(16):5169-82.

doi: 10.1158/0008-5472.CAN-12-4501.

Nikolas K Haass, Teresa Bonello, Melissa Desouza, Gregg Kottyan, Herbert Treutlein, Jun Zeng, Paula R B B Nascimento, Vanessa B Sequeira, Tanya L Butler, Munif Allanson, Thomas Fath, Timothy A Hill, Adam McCluskey, Galina Schevzov, Stephen J Palmer, Edna C Hardeman, David Winlaw, Vivienne E Reeve, Ian Dixon, Wolfgang Weninger, Timothy P Cripe, Peter W Gunning

Affiliations

• PMID: 23946473
• DOI: 10.1158/0008-5472.CAN-12-4501

A novel class of anticancer compounds targets the actin cytoskeleton in tumor cells

Justine R Stehn et al. Cancer Res. 2013.

Erratum in

• Cancer Res. 2013 Oct 1;73(19):6094

Abstract

The actin cytoskeleton is a potentially vulnerable property of cancer cells, yet chemotherapeutic targeting attempts have been hampered by unacceptable toxicity. In this study, we have shown that it is possible to disrupt specific actin filament populations by targeting isoforms of tropomyosin, a core component of actin filaments, that are selectively upregulated in cancers. A novel class of anti-tropomyosin compounds has been developed that preferentially disrupts the actin cytoskeleton of tumor cells, impairing both tumor cell motility and viability. Our lead compound, TR100, is effective in vitro and in vivo in reducing tumor cell growth in neuroblastoma and melanoma models. Importantly, TR100 shows no adverse impact on cardiac structure and function, which is the major side effect of current anti-actin drugs. This proof-of-principle study shows that it is possible to target specific actin filament populations fundamental to tumor cell viability based on their tropomyosin isoform composition. This improvement in specificity provides a pathway to the development of a novel class of anti-actin compounds for the potential treatment of a wide variety of cancers.

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