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Role of Rho-Associated Kinase in the Pathophysiology of Cerebral Cavernous Malformations

Cenk Ayata, Helen Kim, Leslie Morrison, James K. Liao, Juan Gutierrez, Miguel A. López‐Toledano, Enrique Carrazana, Adrián L. Rabinowicz, Issam A. Awad

2024Neurology Genetics17 citationsDOIOpen Access PDF

Abstract

Cerebral cavernous malformations (CCMs) are vascular lesions characterized by a porous endothelium. The lack of a sufficient endothelial barrier can result in microbleeds and frank intracerebral hemorrhage. A primary mechanism for lesion development is a sequence variant in at least 1 of the 3 CCM genes (CCM1, CCM2, and CCM3), which influence various signaling pathways that lead to the CCM phenotype. A common downstream process associated with CCM gene loss of function involves overactivation of RhoA and its effector Rho-associated kinase (ROCK). In this study, we review RhoA/ROCK–related mechanisms involved in CCM pathophysiology as potential therapeutic targets. Literature searches were conducted in PubMed using combinations of search terms related to RhoA/ROCK and CCMs. In endothelial cells, CCM1, CCM2, and CCM3 proteins normally associate to form the CCM protein complex, which regulates the functions of a wide variety of protein targets (e.g., MAP3K3, SMURF1, SOK-1, and ICAP-1) that directly or indirectly increase RhoA/ROCK activity. Loss of CCM complex function and increased RhoA/ROCK activity can lead to the formation of stress fibers that contribute to endothelial junction instability. Other RhoA/ROCK–mediated pathophysiologic outcomes include a shift to a senescence-associated secretory phenotype (primarily mediated by ROCK2), which is characterized by endothelial cell migration, cell cycle arrest, extracellular matrix degradation, leukocyte chemotaxis, and inflammation. ROCK represents a potential therapeutic target, and direct (fasudil, NRL-1049) and indirect (statins) ROCK inhibitors have demonstrated various levels of efficacy in reducing lesion burden in preclinical models of CCM. Current (atorvastatin) and planned (NRL-1049) clinical studies will determine the efficacy of ROCK inhibitors for CCM in humans, for which no US Food and Drug Administration–approved or EU-approved pharmacologic treatment exists.

Topics & Concepts

RHOAROCK1Rho-associated protein kinaseROCK2Cell biologyCancer researchFasudilSignal transductionBiologyMedicineVascular Malformations Diagnosis and TreatmentIntracerebral and Subarachnoid Hemorrhage ResearchIntracranial Aneurysms: Treatment and Complications
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