Literature DB >> 22964758

Rho-associated kinases in tumorigenesis: re-considering ROCK inhibition for cancer therapy.

Nicola Rath1, Michael F Olson.   

Abstract

The Rho-associated (ROCK) serine/threonine kinases have emerged as central regulators of the actomyosin cytoskeleton, their main purpose being to promote contractile force generation. Aided by the discovery of effective inhibitors such as Y27632, their roles in cancer have been extensively explored with particular attention focused on motility, invasion and metastasis. Recent studies have revealed a surprisingly diverse range of functions of ROCK. These insights could change the way ROCK inhibitors might be used in cancer therapy to include the targeting of stromal rather than tumour cells, the concomitant blocking of ROCK and proteasome activity in K-Ras-driven lung cancers and the combination of ROCK with tyrosine kinase inhibitors for treating haematological malignancies such as chronic myeloid leukaemia. Despite initial optimism for therapeutic efficacy of ROCK inhibition for cancer treatment, no compounds have progressed into standard therapy so far. However, by carefully defining the key cancer types and expanding the appreciation of ROCK's role in cancer beyond being a cell-autonomous promoter of tumour cell invasion and metastasis, the early promise of ROCK inhibitors for cancer therapy might still be realized.

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Year:  2012        PMID: 22964758      PMCID: PMC3463970          DOI: 10.1038/embor.2012.127

Source DB:  PubMed          Journal:  EMBO Rep        ISSN: 1469-221X            Impact factor:   8.807


  91 in total

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2.  Rac activation and inactivation control plasticity of tumor cell movement.

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3.  MiR-21 is an EGFR-regulated anti-apoptotic factor in lung cancer in never-smokers.

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Journal:  Proc Natl Acad Sci U S A       Date:  2009-07-13       Impact factor: 11.205

4.  Tissue selective expression of conditionally-regulated ROCK by gene targeting to a defined locus.

Authors:  Michael S Samuel; June Munro; Sheila Bryson; Stephen Forrow; David Stevenson; Michael F Olson
Journal:  Genesis       Date:  2009-07       Impact factor: 2.487

5.  Regulation of ROCKII by localization to membrane compartments and binding to DynaminI.

Authors:  Sylvester Tumusiime; Manish K Rana; Swapnil S Kher; Vinodh B Kurella; Kelly A Williams; Jessie J Guidry; David K Worthylake; Rebecca A Worthylake
Journal:  Biochem Biophys Res Commun       Date:  2009-02-15       Impact factor: 3.575

Review 6.  The actin cytoskeleton in cancer cell motility.

Authors:  Michael F Olson; Erik Sahai
Journal:  Clin Exp Metastasis       Date:  2008-05-23       Impact factor: 5.150

7.  A critical role of Rho-kinase ROCK2 in the regulation of spine and synaptic function.

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Journal:  Neuropharmacology       Date:  2008-08-05       Impact factor: 5.250

Review 8.  The cytoskeleton and cancer.

Authors:  Alan Hall
Journal:  Cancer Metastasis Rev       Date:  2009-06       Impact factor: 9.264

9.  Inhibition of Hedgehog signaling enhances delivery of chemotherapy in a mouse model of pancreatic cancer.

Authors:  Kenneth P Olive; Michael A Jacobetz; Christian J Davidson; Aarthi Gopinathan; Dominick McIntyre; Davina Honess; Basetti Madhu; Mae A Goldgraben; Meredith E Caldwell; David Allard; Kristopher K Frese; Gina Denicola; Christine Feig; Chelsea Combs; Stephen P Winter; Heather Ireland-Zecchini; Stefanie Reichelt; William J Howat; Alex Chang; Mousumi Dhara; Lifu Wang; Felix Rückert; Robert Grützmann; Christian Pilarsky; Kamel Izeradjene; Sunil R Hingorani; Pearl Huang; Susan E Davies; William Plunkett; Merrill Egorin; Ralph H Hruban; Nigel Whitebread; Karen McGovern; Julian Adams; Christine Iacobuzio-Donahue; John Griffiths; David A Tuveson
Journal:  Science       Date:  2009-05-21       Impact factor: 47.728

10.  Mechanism of multi-site phosphorylation from a ROCK-I:RhoE complex structure.

Authors:  David Komander; Ritu Garg; Paul T C Wan; Anne J Ridley; David Barford
Journal:  EMBO J       Date:  2008-10-23       Impact factor: 11.598
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  131 in total

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Journal:  Oncogene       Date:  2013-08-19       Impact factor: 9.867

Review 2.  Rho-kinase: regulation, (dys)function, and inhibition.

Authors:  Ehsan Amin; Badri Nath Dubey; Si-Cai Zhang; Lothar Gremer; Radovan Dvorsky; Jens M Moll; Mohamed S Taha; Luitgard Nagel-Steger; Roland P Piekorz; Avril V Somlyo; Mohammad R Ahmadian
Journal:  Biol Chem       Date:  2013-11       Impact factor: 3.915

Review 3.  Rho kinases in cardiovascular physiology and pathophysiology: the effect of fasudil.

Authors:  Jianjian Shi; Lei Wei
Journal:  J Cardiovasc Pharmacol       Date:  2013-10       Impact factor: 3.105

4.  Molecular pathways: targeting the kinase effectors of RHO-family GTPases.

Authors:  Tatiana Y Prudnikova; Sonali J Rawat; Jonathan Chernoff
Journal:  Clin Cancer Res       Date:  2014-10-21       Impact factor: 12.531

5.  Partial contribution of Rho-kinase inhibition to the bioactivity of Ganoderma lingzhi and its isolated compounds: insights on discovery of natural Rho-kinase inhibitors.

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6.  RB Loss Promotes Prostate Cancer Metastasis.

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Journal:  Cancer Res       Date:  2016-12-06       Impact factor: 12.701

Review 7.  The Rho GTPase signalling pathway in urothelial carcinoma.

Authors:  Solomon L Woldu; Ryan C Hutchinson; Laura-Maria Krabbe; Oner Sanli; Vitaly Margulis
Journal:  Nat Rev Urol       Date:  2017-11-14       Impact factor: 14.432

8.  Distinct and complementary functions of rho kinase isoforms ROCK1 and ROCK2 in prefrontal cortex structural plasticity.

Authors:  Kelsey M Greathouse; Benjamin D Boros; Josue F Deslauriers; Benjamin W Henderson; Kendall A Curtis; Erik G Gentry; Jeremy H Herskowitz
Journal:  Brain Struct Funct       Date:  2018-09-08       Impact factor: 3.270

9.  Aurora A orchestrates entosis by regulating a dynamic MCAK-TIP150 interaction.

Authors:  Peng Xia; Jinhua Zhou; Xiaoyu Song; Bing Wu; Xing Liu; Di Li; Shuyuan Zhang; Zhikai Wang; Huijuan Yu; Tarsha Ward; Jiancun Zhang; Yinmei Li; Xiaoning Wang; Yong Chen; Zhen Guo; Xuebiao Yao
Journal:  J Mol Cell Biol       Date:  2014-05-20       Impact factor: 6.216

10.  RhoA GTPase-induced ocular hypertension in a rodent model is associated with increased fibrogenic activity in the trabecular meshwork.

Authors:  Padmanabhan P Pattabiraman; Tommy Rinkoski; Eric Poeschla; Alan Proia; Pratap Challa; Ponugoti V Rao
Journal:  Am J Pathol       Date:  2014-12-12       Impact factor: 4.307
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