Linking Phenotype to Kinase: Identification of a Novel Benzoxaborole Hinge-Binding Motif for Kinase Inhibition and Development of High-Potency Rho Kinase Inhibitors

Akama, Tsutomu; Chen, Dong; Virtucio, Charlotte; Sullivan, David T.; Zhou, Yasheen; Zhang, Yongkang; Rock, Fernando; Freund, Yvonne R.; Liu, Liang; Bu, Wei; Wu, Aibin; Fan, Xiaoqing; Jarnagin, Kurt

doi:10.1124/jpet.113.207662

Cited by 45 publications

(46 citation statements)

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“…Currently, many pharmaceutical companies and manufacturers have strong interests in the RhoA/Rho-kinase signaling and the development of its inhibitors. 3,112,125,237 Among them, Akama et al 238 performed a kinome-wide screen to investigate the members of the benzoxaborole family and identified Rho-kinase as a target. They observed a competitive behavior, with respect to ATP, and determined the ROCK2-drug cocrystal structure.…”

Section: Rho-kinase As a Therapeutic Targetmentioning

confidence: 99%

“…They observed a competitive behavior, with respect to ATP, and determined the ROCK2-drug cocrystal structure. 238 On the basis of the role of Rho-kinase in disease processes, we found that the target and therapeutic applications for Rho-kinase inhibitors are mainly in the field of cardiovascular diseases. However, our recent study demonstrated a crucial role for Rho-kinase in cardiac development, 13 which may warn against the use of Rho-kinase inhibitors during pregnancy as in the case of inhibitors of the renin-angiotensin system.…”

Section: Rho-kinase As a Therapeutic Targetmentioning

confidence: 99%

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RhoA/Rho-Kinase in the Cardiovascular System

Shimokawa

Sunamura

Satoh

2016

Circulation Research

369

235

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Twenty years ago, Rho-kinase was identified as an important downstream effector of the small GTP-binding protein, RhoA. Thereafter, a series of studies demonstrated the important roles of Rho-kinase in the cardiovascular system. The RhoA/Rho-kinase pathway is now widely known to play important roles in many cellular functions, including contraction, motility, proliferation, and apoptosis, and its excessive activity induces oxidative stress and promotes the development of cardiovascular diseases. Furthermore, the important role of Rho-kinase has been demonstrated in the pathogenesis of vasospasm, arteriosclerosis, ischemia/reperfusion injury, hypertension, pulmonary hypertension, and heart failure. Cyclophilin A is secreted by vascular smooth muscle cells and inflammatory cells and activated platelets in a Rho-kinase–dependent manner, playing important roles in a wide range of cardiovascular diseases. Thus, the RhoA/Rho-kinase pathway plays crucial roles under both physiological and pathological conditions and is an important therapeutic target in cardiovascular medicine. Recently, functional differences between ROCK1 and ROCK2 have been reported in vitro. ROCK1 is specifically cleaved by caspase-3, whereas granzyme B cleaves ROCK2. However, limited information is available on the functional differences and interactions between ROCK1 and ROCK2 in the cardiovascular system in vivo. Herein, we will review the recent advances about the importance of RhoA/Rho-kinase in the cardiovascular system.

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Section: Rho-kinase As a Therapeutic Targetmentioning

confidence: 99%

Section: Rho-kinase As a Therapeutic Targetmentioning

confidence: 99%

RhoA/Rho-Kinase in the Cardiovascular System

Shimokawa

Sunamura

Satoh

2016

Circulation Research

369

235

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“…They showed competitive behavior, with respect to ATP, and determined the ROCK2-drug cocrystal structure. 180 They exhibited oral availability and 1 member reduced rat blood pressure, consistent with ROCK's role in smooth muscle contraction. Thus, the benzoxaborole moiety may possess a novel hinge-binding kinase scaffold that may have potential for therapeutic use.…”

Section: Clinical Studiesmentioning

confidence: 76%

“…179 Among them, Akama et al 180 performed a kinome-wide screen to investigate the members of the benzoxaborole family and identified ROCK as a target. They showed competitive behavior, with respect to ATP, and determined the ROCK2-drug cocrystal structure.…”

Section: Clinical Studiesmentioning

confidence: 99%

“…Thus, the benzoxaborole moiety may possess a novel hinge-binding kinase scaffold that may have potential for therapeutic use. 179,180 On the basis of the role of ROCK in disease processes that include smooth muscle contraction, fibrosis, and inflammation, the target and therapeutic applications for ROCK inhibitors are mainly in the field of cardiovascular diseases, such as VSA, cardiac hypertrophy, and PH. Indeed, the role of the ROCK pathway has been emerging and the indications of ROCK inhibitors have been expanding especially in cardiovascular medicine (Figure 4).…”

Section: Clinical Studiesmentioning

confidence: 99%

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2015 ATVB Plenary Lecture

Shimokawa

Satoh

2015

ATVB

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Abstract-Rho-kinase (ROCKs) is an important downstream effector of the small GTP-binding protein Ras homolog gene family member A. There are 2 isoforms of ROCK, ROCK1 and ROCK2, and they have different functions in several vascular components. The Ras homolog gene family member A/ROCK pathway plays an important role in various fundamental cellular functions, including contraction, motility, proliferation, and apoptosis, whereas its excessive activity is involved in the pathogenesis of cardiovascular diseases. For the past 20 years, a series of translational research studies have demonstrated the important roles of ROCK in the pathogenesis of cardiovascular diseases. At the molecular and cellular levels, ROCK upregulates several molecules related to inflammation, thrombosis, and fibrosis. In animal experiments, ROCK plays an important role in the pathogenesis of vasospasm, arteriosclerosis, hypertension, pulmonary hypertension, and heart failure. Finally, at the human level, ROCK is substantially involved in the pathogenesis of coronary vasospasm, angina pectoris, hypertension, pulmonary hypertension, and heart failure. Furthermore, ROCK activity in circulating leukocytes is a useful biomarker for the assessment of disease severity and therapeutic responses in vasospastic angina, heart failure, and pulmonary hypertension. In addition to fasudil, many other ROCK inhibitors are currently under development for various indications. Thus, the ROCK pathway is an important novel therapeutic target in cardiovascular medicine. ). [20][21][22][23] Both endothelial NO production and NO-mediated signaling in VSMC are targets and effectors of the RhoA/ROCK pathway. 1,24,25 In EC, the RhoA/ROCK pathway negatively regulates NO production, although in VSMC, the pathway enhances MLC phosphorylation through inhibition of MYPT-1 of MLCP and promotes VSMC contraction ( Figure 1). 26ROCK is a serine/threonine kinase, which is encoded by 2 different genes. In humans, ROCK1 (ROCKβ) and ROCK2 (ROCKα) genes are located separately on chromosome 18 and 2, respectively. 27,28 ROCK consists of 3 major domains, including a kinase domain, a coiled-coil domain that include Rhobinding domain and a putative pleckstrin homology domain ( Figure 3). 4 ROCK activity is enhanced by binding of GTPbound active form of RhoA.28 Several ROCK substrates have been identified 27 and phosphorylation of ROCK-mediated substrate causes actin filament formation, organization, and cytoskeleton rearrangement (Figure 1). 29 Nowadays, many ROCK inhibitors, such as fasudil 30 and Y-27632, 31 have been developed and they inhibit ROCK activity in a competitive manner with ATP at the Rho-binding site. 32 Among them, hydroxyfasudil, a major active metabolite of fasudil, exerts a more specific inhibitory effect on ROCK. 33,34 Roles of ROCK in ECThe RhoA/ROCK pathway is critically involved in actin dynamics. 35 Cyclic strain stimulates RhoA activation and enhances cell contractility. Mechanical activation of the RhoA/ROCK system makes cells more sensitive to external stimuli...

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The Design and Application of Bioisosteres in Drug Design

Meanwell

2021

Burger's Medicinal Chemistry and Drug Discovery

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Bioisosterism, the design of structural motifs that emulate established functionality to effect a biological response, has evolved into a powerful design principle in medicinal chemistry and drug discovery that can be implemented to address issues associated with intrinsic potency and/or a range of developability challenges. While bioisosterism has its origins in the concept of isosterism, which was invoked to explain the similarity of physicochemical properties between molecules with analogous size and shape, the contemporary interpretation of bioisosterism extends well beyond this simple definition to encompass relationships that reflect a recapitulation of biological properties by molecules that can be structurally quite disparate. This article provides a synopsis of established and emerging bioisosteric relationships that are discussed in the context of applications to solving problems in drug discovery and development. Bioisosteres that are described range from the replacement of hydrogen atoms by deuterium or fluorine to more esoteric higher order bioisosteres that convene intricate arrays of functionality. These are considered nonclassical in nature and offer functional mimesis of a range of simple and complex functionalities encompassing exchangeable groups, cyclic/noncyclic substructures capable of mimicking rings, and extends to include drug–water and drug–metal complexes.

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Linking Phenotype to Kinase: Identification of a Novel Benzoxaborole Hinge-Binding Motif for Kinase Inhibition and Development of High-Potency Rho Kinase Inhibitors

Cited by 45 publications

References 58 publications

RhoA/Rho-Kinase in the Cardiovascular System

RhoA/Rho-Kinase in the Cardiovascular System

2015 ATVB Plenary Lecture

The Design and Application of Bioisosteres in Drug Design

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