Marie Morgan-Fisher scite author profile

Cancer-associated changes in cellular behavior, such as modified cell-cell contact, increased migratory potential, and generation of cellular force, all require alteration of the cytoskeleton. Two homologous mammalian serine/threonine kinases, Rho-associated protein kinases (ROCK I and II), are key regulators of the actin cytoskeleton acting downstream of the small GTPase Rho. ROCK is associated with cancer progression, and ROCK protein expression is elevated in several types of cancer. ROCKs exist in a closed, inactive conformation under quiescent conditions, which is changed to an open, active conformation by the direct binding of guanosine triphosphate (GTP)–loaded Rho. In recent years, a number of ROCK isoform-specific binding partners have been found to modulate the kinase activity through direct interactions with the catalytic domain or via altered cellular localization of the kinases. Thus, these findings demonstrate additional modes to regulate ROCK activity. This review describes the molecular mechanisms of ROCK activity regulation in cancer, with emphasis on ROCK isoform-specific regulation and interaction partners, and discusses the potential of ROCKs as therapeutic targets in cancer.

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α9β1 Integrin in melanoma cells can signal different adhesion states for migration and anchorage

Lydolph

Morgan-Fisher

Høye

et al. 2009

Experimental Cell Research

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Analysis of proteins inChlamydia trachomatisL2 outer membrane complex, COMC

Birkelund

Morgan-Fisher

Timmerman

et al. 2009

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The protein composition and N-terminal sequences of proteins in the outer membrane of Chlamydia trachomatis L2 were analysed following isolation of N-terminal peptides using combined fractional diagonal chromatography and identification by liquid chromatography tandem MS. Acetylation of primary amino groups of in vivo generated proteolytic cleavage sites facilitated identification of such sites in known outer membrane proteins (MOMPs). Our results further support a proposed prediction of the topology of the MOMPs. Furthermore, a previously unknown MOMP, CTL0626 (Ct372), was assigned as an MOMP with a carbohydrate-selective porin (OprB) family motif, and the presence of CTL0626 was confirmed using antibodies raised against the protein.

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