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Rho-kinase inhibitors (rho-associated protein kinase inhibitor or ROCK inhibitor) are a series of compounds that target rho kinase (ROCK) and inhibit the ROCK pathway.[1] Clinical trials have found that inhibition of the ROCK pathway contributes to the cardiovascular benefits of statin therapy. Furthermore, ROCK inhibitors may have clinical applications for anti-erectile dysfunction, antihypertension, and tumor metastasis inhibition.[2] More recently they have been studied for the treatment of glaucoma[3] and as a therapeutic target for the treatment of cardiovascular diseases, including ischemic stroke.[4] While statin therapy has been demonstrated to reduce the risk of major cardiovascular events, including ischemic stroke,[5] the interplay between the ROCK pathway and statin therapy to treat and prevent strokes in older adults has not yet been proven.[4]

On a cellular level, ROCK has multiple functions, including regulation of smooth muscle cell contraction, cell migration, and maintenance of cell viability and morphology, in part by regulating stress fibers and focal adhesions.[2] Particularly, ROCK inhibitor is used for cell culture practice, in part to limit cellular death and limited dedifferentiation,[6][7][8] and therefore widely adopted for induced pluripotent stem cells (iPSC) and embryonic stem cell cultures,[9] although studies have shown mixed results for other cells types.[10]

ROCK Inhibitor Pathway

Molecular mechanism

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Rho kinase inhibitors act on Rho kinase by altering the conformation of the protein, disrupting translocation to the plasma membrane, preventing ATP-dependent phosphorylation, and blocking RhoA binding to ROCK.[11] Some studies suggest that Rho kinase inhibitors also play a role in anti-angiogenesis by blocking ERK and Akt signaling pathways.[12][13] Rho kinase inhibitor also functions by blocking rho-mediated dephosphorylation of MLC20.[14]

Examples

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A number of Rho kinase inhibitors are known.[15][16][17]

 
Chemical structure of fasudil

References

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  1. ^ Liao, James K.; Seto, Minoru; Noma, Kensuke (July 2007). "Rho Kinase (ROCK) Inhibitors". Journal of Cardiovascular Pharmacology. 50 (1): 17–24. doi:10.1097/FJC.0b013e318070d1bd. ISSN 0160-2446. PMC 2692906. PMID 17666911.
  2. ^ a b Liao JK, Seto M, Noma K (July 2007). "Rho kinase (ROCK) inhibitors". Journal of Cardiovascular Pharmacology. 50 (1): 17–24. doi:10.1097/FJC.0b013e318070d1bd. PMC 2692906. PMID 17666911.
  3. ^ Wang SK, Chang RT (2014). "An emerging treatment option for glaucoma: Rho kinase inhibitors". Clinical Ophthalmology. 8: 883–90. doi:10.2147/OPTH.S41000. PMC 4025933. PMID 24872673.
  4. ^ a b Sladojevic N, Yu B, Liao JK (December 2017). "ROCK as a therapeutic target for ischemic stroke". Expert Review of Neurotherapeutics. 17 (12): 1167–1177. doi:10.1080/14737175.2017.1395700. PMC 6221831. PMID 29057688.
  5. ^ O'Brien EC, Greiner MA, Xian Y, Fonarow GC, Olson DM, Schwamm LH, et al. (October 2015). "Clinical Effectiveness of Statin Therapy After Ischemic Stroke: Primary Results From the Statin Therapeutic Area of the Patient-Centered Research Into Outcomes Stroke Patients Prefer and Effectiveness Research (PROSPER) Study". Circulation. 132 (15): 1404–13. doi:10.1161/CIRCULATIONAHA.115.016183. PMID 26246175. S2CID 11252336.
  6. ^ Matsumoto E, Furumatsu T, Kanazawa T, Tamura M, Ozaki T (March 2012). "ROCK inhibitor prevents the dedifferentiation of human articular chondrocytes". Biochemical and Biophysical Research Communications. 420 (1): 124–9. doi:10.1016/j.bbrc.2012.02.127. PMID 22405765.
  7. ^ Furumatsu T, Matsumoto-Ogawa E, Tanaka T, Lu Z, Ozaki T (April 2014). "ROCK inhibition enhances aggrecan deposition and suppresses matrix metalloproteinase-3 production in human articular chondrocytes". Connective Tissue Research. 55 (2): 89–95. doi:10.3109/03008207.2013.852544. PMID 24111521. S2CID 41211282.
  8. ^ Qi Y, Liang X, Dai F, Guan H, Sun J, Yao W (July 2020). "RhoA/ROCK Pathway Activation is Regulated by AT1 Receptor and Participates in Smooth Muscle Migration and Dedifferentiation via Promoting Actin Cytoskeleton Polymerization". International Journal of Molecular Sciences. 21 (15): 5398. doi:10.3390/ijms21155398. PMC 7432407. PMID 32751352.
  9. ^ Claassen DA, Desler MM, Rizzino A (August 2009). "ROCK inhibition enhances the recovery and growth of cryopreserved human embryonic stem cells and human induced pluripotent stem cells". Molecular Reproduction and Development. 76 (8): 722–32. doi:10.1002/mrd.21021. PMC 3257892. PMID 19235204.
  10. ^ Nukaga T, Sakai D, Schol J, Suyama K, Nakai T, Hiyama A, Watanabe M (2019). "Minimal Sustainability of Dedifferentiation by ROCK Inhibitor on Rat Nucleus Pulposus Cells In Vitro". Spine Surgery and Related Research. 3 (4): 385–391. doi:10.22603/ssrr.2019-0019. PMC 6834460. PMID 31768460.
  11. ^ Yamaguchi, Hiroto; Kasa, Miyuki; Amano, Mutsuki; Kaibuchi, Kozo; Hakoshima, Toshio (2006-03-01). "Molecular Mechanism for the Regulation of Rho-Kinase by Dimerization and Its Inhibition by Fasudil". Structure. 14 (3): 589–600. doi:10.1016/j.str.2005.11.024. ISSN 0969-2126. PMID 16531242.
  12. ^ Hata, Yasuaki; Miura, Muneki; Nakao, Shintaro; Kawahara, Shuhei; Kita, Takeshi; Ishibashi, Tatsuro (2008-02-01). "Antiangiogenic properties of fasudil, a potent Rho-Kinase inhibitor". Japanese Journal of Ophthalmology. 52 (1): 16–23. doi:10.1007/s10384-007-0487-5. ISSN 1613-2246. PMID 18369695. S2CID 179423.
  13. ^ Khalil, Raouf A. (2010). Rho Kinase in Vascular Smooth Muscle. Morgan & Claypool Life Sciences.
  14. ^ Nagumo, Hiromitsu; Sasaki, Yasuharu; Ono, Yoshitaka; Okamoto, Hiroyuki; Seto, Minoru; Takuwa, Yoh (2000-01-01). "Rho kinase inhibitor HA-1077 prevents Rho-mediated myosin phosphatase inhibition in smooth muscle cells". American Journal of Physiology. Cell Physiology. 278 (1): C57–C65. doi:10.1152/ajpcell.2000.278.1.C57. ISSN 0363-6143. PMID 10644512.
  15. ^ You, Y., Zhu, K., Wang, J., Liang, Q., Li, W., Wang, L., ... & Shi, J. (2023). ROCK inhibitor: Focus on recent updates. Chinese Chemical Letters, 108336. https://doi.org/10.1016/j.cclet.2023.108336
  16. ^ Luo M, Li YQ, Lu YF, Wu Y, Liu R, Zheng YR, Yin M (November 2020). "Exploring the potential of RhoA inhibitors to improve exercise-recoverable spinal cord injury: A systematic review and meta-analysis". Journal of Chemical Neuroanatomy. 111: 101879. doi:10.1016/j.jchemneu.2020.101879. ISSN 0891-0618. PMID 33197553.
  17. ^ de Sousa GR, Vieira GM, das Chagas PF, Pezuk JA, Brassesco MS (October 2020). "Should we keep rocking? Portraits from targeting Rho kinases in cancer". Pharmacological Research. 160: 105093. doi:10.1016/j.phrs.2020.105093. PMID 32726671. S2CID 220877441.
  18. ^ Rath N, Munro J, Cutiongco MF, Jagiełło A, Gadegaard N, McGarry L, et al. (June 2018). "Rho Kinase Inhibition by AT13148 Blocks Pancreatic Ductal Adenocarcinoma Invasion and Tumor Growth". Cancer Research. 78 (12): 3321–3336. doi:10.1158/0008-5472.CAN-17-1339. PMC 6005347. PMID 29669760.
  19. ^ Chroman 1, CAS No. : 1273579-40-0
  20. ^ Chen Y, Tristan CA, Chen L, Jovanovic VM, Malley C, Chu PH, et al. (May 2021). "A versatile polypharmacology platform promotes cytoprotection and viability of human pluripotent and differentiated cells". Nature Methods. 18 (5): 528–541. doi:10.1038/s41592-021-01126-2. PMC 8314867. PMID 33941937.
  21. ^ Kale VP, Hengst JA, Desai DH, Dick TE, Choe KN, Colledge AL, et al. (November 2014). "A novel selective multikinase inhibitor of ROCK and MRCK effectively blocks cancer cell migration and invasion". Cancer Letters. 354 (2): 299–310. doi:10.1016/j.canlet.2014.08.032. PMC 4182185. PMID 25172415.
  22. ^ Phrommintikul A, Tran L, Kompa A, Wang B, Adrahtas A, Cantwell D, et al. (April 2008). "Effects of a Rho kinase inhibitor on pressure overload induced cardiac hypertrophy and associated diastolic dysfunction". American Journal of Physiology. Heart and Circulatory Physiology. 294 (4): H1804-14. doi:10.1152/ajpheart.01078.2007. PMID 18245565. S2CID 6554772.
  23. ^ GSK429286A@pubchem
  24. ^ Teixeira, C. E.; Jin, L.; Priviero, F. B.; Ying, Z.; Webb, R. C. (2007). "Comparative pharmacological analysis of Rho-kinase inhibitors and identification of molecular components of Ca2+ sensitization in the rat lower urinary tract". Biochemical Pharmacology. 74 (4): 647–658. doi:10.1016/j.bcp.2007.06.004. PMC 1987395. PMID 17603024.
  25. ^ Boland S, Bourin A, Alen J, Geraets J, Schroeders P, Castermans K, et al. (September 2015). "Design, synthesis and biological characterization of selective LIMK inhibitors". Bioorganic & Medicinal Chemistry Letters. 25 (18): 4005–10. doi:10.1016/j.bmcl.2015.07.009. PMID 26233434.
  26. ^ "RHOPRESSA presribing information" (PDF). U.S. Food and Drug Administration.
  27. ^ Patel RA, Forinash KD, Pireddu R, Sun Y, Sun N, Martin MP, et al. (October 2012). "RKI-1447 is a potent inhibitor of the Rho-associated ROCK kinases with anti-invasive and antitumor activities in breast cancer". Cancer Research. 72 (19): 5025–34. doi:10.1158/0008-5472.CAN-12-0954. PMC 3463757. PMID 22846914.
  28. ^ Williams RD, Novack GD, van Haarlem T, Kopczynski C (November 2011). "Ocular hypotensive effect of the Rho kinase inhibitor AR-12286 in patients with glaucoma and ocular hypertension". American Journal of Ophthalmology. 152 (5): 834–41.e1. doi:10.1016/j.ajo.2011.04.012. PMID 21794845.
  29. ^ "information of different kinds of ROCK inhibitor". selleckchemicals.

Further reading

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