Effect of P21-activated kinase 1 (PAK-1) inhibition on cancer cell growth, migration, and invasion

P21-activated kinase-1 (PAK-1) is a serine/threonine kinase involved in multiple signaling pathways that mediate cellular functions such as cytoskeletal motility, cell proliferation, and survival. PAK-1 expression is altered in various cancers, including prostate and breast. Our recent studies showed that prostate cancer cells expressing higher levels of PAK-1 were resistant to the cytotoxic effects of the PAK-1 inhibitor, inhibitor targeting PAK-1 activation-3 (IPA-3), compared to those with lower expression. This study expanded these findings to other cancers (breast and melanoma) by testing the hypothesis that genetic and pharmacological inhibition of PAK-1 alters cell growth, migration, and invasion in prostate, breast, and skin cancer cell lines. We also tested the specificity of IPA-3 for PAK-1 and the hypothesis that gene silencing of PAK-1 altered the efficacy of sterically stabilized liposomes (SSL) containing IPA-3 (SSL-IPA-3). PAK-1 expression was identified in four different breast cancer cell lines, and in a melanoma cell line. The expression of PAK-1 correlated to the IC50 of IPA-3 as measured by MTT staining. PAK-1 inhibition using shRNA correlated with decreased cell migration and invasion in prostate cancer DU-145 and breast cancer MCF-7 cells. Decreased migration and invasion also correlated to decreased expression of E-cadherin and alterations in C-X-C Chemokine Receptor type 4 and Homing Cell Adhesion Molecule expression. PAK-1 inhibition increased the cytotoxicity of IPA-3, and the cytotoxicity of SSL-IPA-3 to levels comparable to that of free drug. These data demonstrate that both pharmacological and molecular inhibition of PAK-1 decreased growth in prostate, breast, and melanoma cancer cell lines, and increased the toxicity of IPA-3 and its liposomal formulation. These data also show the specificity of IPA-3 for PAK-1, are some of the first data suggesting that IPA-3 is a therapeutic treatment for breast cancer and melanoma, and demonstrate the efficacy of liposome-encapsulated IPA-3 in breast cancer cells.