Discovery of a Nanomolar Multikinase Inhibitor (KST016366): A New Benzothiazole Derivative with Remarkable Broad‐Spectrum Antiproliferative Activity

El-Damasy, Ashraf K.; Cho, Nam-Chul; Nam, Ghilsoo; Pae, Ae Nim; Keum, Gyochang

doi:10.1002/cmdc.201600224

Cited by 24 publications

(7 citation statements)

References 39 publications

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“…This resulted in a remarkable increase in the cellular antiproliferative potency as well as favorable inhibitory activity toward B-Raf (V600E) and C-Raf kinases. However, the physiochemical properties needed further improvement, which was carried out through replacing the small lipophilic chlorine atom with either (morpholin-1-yl)methyl ( 37 , Figure 14 ) or (4-ethylpiperazin-1-yl)methyl moieties ( 38 , Figure 14 ) [ 146 ]. These two compounds were evaluated for their antitumor effects over a panel of 60 human cancer cell lines where they exhibited promising antiproliferative effects over numerous cell lines such as HL-60 (leukemia), HOP-92 (non-small cell lung cancer), HCT-116 (colon cancer), SF-5339 (CNS cancer) and SK-MEL-28 (melanoma).…”

Section: Small Molecule Ddr Kinase Inhibitorsmentioning

confidence: 99%

The Journey of DDR1 and DDR2 Kinase Inhibitors as Rising Stars in the Fight Against Cancer

Elkamhawy

Nada

et al. 2021

IJMS

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Discoidin domain receptor (DDR) is a collagen-activated receptor tyrosine kinase that plays critical roles in regulating essential cellular processes such as morphogenesis, differentiation, proliferation, adhesion, migration, invasion, and matrix remodeling. As a result, DDR dysregulation has been attributed to a variety of human cancer disorders, for instance, non-small-cell lung carcinoma (NSCLC), ovarian cancer, glioblastoma, and breast cancer, in addition to some inflammatory and neurodegenerative disorders. Since the target identification in the early 1990s to date, a lot of efforts have been devoted to the development of DDR inhibitors. From a medicinal chemistry perspective, we attempted to reveal the progress in the development of the most promising DDR1 and DDR2 small molecule inhibitors covering their design approaches, structure-activity relationship (SAR), biological activity, and selectivity.

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Section: Small Molecule Ddr Kinase Inhibitorsmentioning

confidence: 99%

The Journey of DDR1 and DDR2 Kinase Inhibitors as Rising Stars in the Fight Against Cancer

Elkamhawy

Nada

et al. 2021

IJMS

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“…Further, reanalysis was performed by specifying the explicit presence of halogen: 79 th position interactions in the All_pose_structure file and the resultant targets were mapped on to the kinome tree Figure 5a. The known wild targets of sorafenib: ABL1 (Kurosu, Ohki, Wu, Kagechika, & Miura, 2009), p38a (Namboodiri et al., 2010), CDK8 (Schneider et al., 2011), MET (Beizaei et al., 2019), TRKB (Kumar et al., 2009), FLT3, FLT1 (Wilhelm et al., 2004), RIPK1 (Martens et al., 2017), DDR1 (El‐Damasy, Cho, Nam, Pae, & Keum, 2016; Kitagawa et al., 2013) and the mutant targets such as JNK2 (functional disability due to this mutation is not reported, hence was considered as wild type; Broecker‐Preuss et al., 2015), BRAF V600E (Wan et al., 2004), KDR T940V (Okamoto et al., 2015), KIT mutant and KIT WT (Wilhelm et al., 2004) were also identified as top‐ranking hits as per the maximal number of interaction patterns, and EphB4 Y774E_A803V_V870I (functional disability due to this mutation is not reported, hence was considered as wild type; Wang et al., 2017), PEK D937N (but wild PEK inhibition is reported [Shiota et al., 2010]), FMS C667T_C830S_C907T (functional disability due to this mutation is not reported, hence was considered as wild type; Uitdehaag et al., 2011; Ullrich et al., 2011) were identified to be mapped on the kinome tree Figure 5a & Table S5. The other targets of sorafenib: CDK2 (WT) and MELK mutant were also found during target prioritization.…”

Section: Resultsmentioning

confidence: 99%

KinomeRun: An interactive utility for kinome target screening and interaction fingerprint analysis towards holistic visualization on kinome tree

Ansar

Vetrivel

2020

Chem Biol Drug Des

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Kinases are key targets for many of the pathological conditions. Inverse screening of ligands serves as an essential mode to identify potential kinase targets in modern drug discovery research. Hence, we intend to develop KinomeRun, a robust pipeline for inverse screening and kinome tree visualization through the seamless integration of kinome structures, docking and kinome–drug interaction fingerprint analysis. In this pipeline, the hurdle of residue numbering in kinome is also resolved by creating a common index file with the conserved kinase pocket residues for comparative interaction analysis. KinomeRun can be used to screen the ligands of interest docked against multiple kinase structures in parallel around the kinase binding site and also to filter out the targets with unique interaction patterns. This automation is essential for prioritization of kinase targets that show specificity for a given drug and will also serve as a crucial tool kit for holistic approaches in kinase drug discovery. KinomeRun is developed using python and bash programming language and is distributed freely under the GNU GPL licence‐3.0 and can be downloaded at https://github.com/inpacdb/KinomeRun. The tutorial videos for installation, target screening and customized filtration are available at https://www.youtube.com/playlist?list=PLuIaEFtMVgQ7v__WigQH9ilGVxrfI1LKs and also be downloaded for offline viewing from the github link.

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“…El‐Damsay et al . have also reported new benzothiazole derivatives with remarkable anticancer activity by replacing the phenoxy linker in sorafenib with benzothiazole and replacing the chloro derivative with morpholine or N ‐methyl piperazine moiety (Figure ).…”

Section: Thiazole and Indole Derivativesmentioning

confidence: 99%

Recent Advances and Developments of in vitro Evaluation of Heterocyclic Moieties on Cancer Cell Lines

Tandon

Singh

Luxami

et al. 2018

The Chemical Record

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Besides worthy development in cancer therapy, cancer is still one of the leading causes of death, worldwide. The future burden of cancer will probably be even larger because people are adopting poor lifestyles with poor diet, frequently smoking and less physical activity. The effective anticancer drugs having efficacy and selectivity with low toxicity is still a challenge for the scientific fraternity. The advances in the cancer study have its origin on the availability of different types of experimental model systems that review the various forms of this disease. Cell lines emerge as a feasible alternative for anticancer activities, being at the same time easy to manipulate and molecularly characterize. Heterocycles are key structural components of many of the anti-cancer drugs available on the market today. Indeed, of the novel molecular anti-cancer agents approved by the FDA between 2010 and 2017, almost two-thirds contained heterocyclic rings within their structures. This review summarizes and provides updated literature on heterocyclic compounds using various cancer cell lines reported during the period of 2014-2017 together with the structure-activity relationships.

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Discovery of a Nanomolar Multikinase Inhibitor (KST016366): A New Benzothiazole Derivative with Remarkable Broad‐Spectrum Antiproliferative Activity

Cited by 24 publications

References 39 publications

The Journey of DDR1 and DDR2 Kinase Inhibitors as Rising Stars in the Fight Against Cancer

The Journey of DDR1 and DDR2 Kinase Inhibitors as Rising Stars in the Fight Against Cancer

KinomeRun: An interactive utility for kinome target screening and interaction fingerprint analysis towards holistic visualization on kinome tree

Recent Advances and Developments of in vitro Evaluation of Heterocyclic Moieties on Cancer Cell Lines

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