The Kinase Chemogenomic Set (KCGS): An Open Science Resource for Kinase Vulnerability Identification

Wells, Carrow; Al-Ali, Hassan; Andrews, David M.; Asquith, Christopher R. M.; Axtman, Alison D.; Đikić, Ivan; Ebner, Daniel; Ettmayer, Peter; Fischer, Christian; Frederiksen, Mathias; Futrell, Robert E.; Gray, Nathanael S.; Hatch, Stephanie B.; Knapp, Stefan; Lücking, Ulrich; Michaelides, Michel; Mills, Caitlin E.; Müller, Susanne; Owen, Dafydd R.; Picado, Alfredo; Saikatendu, Kumar Singh; Schröder, Martin; Stolz, Alexandra; Tellechea, Mariana Edith; Turunen, Brandon J.; Vilar, Santiago; Wang, Jinhua; Zuercher, William J.; Willson, Timothy M.; Drewry, David H.

doi:10.3390/ijms22020566

Cited by 70 publications

(57 citation statements)

References 44 publications

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“…Among these latter ones, neurodegeneration has a dramatic impact on the aging population. Protein kinases (PKs) represent very attractive and challenging drug targets for industry and academia to tackle complex disorders affecting peripheral and central tissues [1,2]. However, the development of PK-targeted therapies in neuroscience has not been primarily investigated due to several issues, including the multifactorial nature of the central nervous system (CNS) diseases, the failure of many advanced CNS clinical trials, and the lengthy approval process of a novel CNS drug by the U.S. Food and Drug Administration (FDA) [3,4].…”

Section: The Neurokinome In Drug Discoverymentioning

confidence: 99%

“…Ghose et al, analyzing the physicochemical property and the chemical structural profiles of several CNS and non-CNS oral drugs in a comparative fashion, provided guidelines for designing high-quality CNS drugs. According to their property distribution study and the classification tree, a compound with an ideal property profile should possess a topological molecular polar surface area of <76 Å 2 (25-60 Å 2 ), at least one nitrogen (including one aliphatic amine), fewer than seven (two to four) linear chains outside of rings, less than three (preferred zero or one) polar hydrogen atoms, the volume of 740-970 Å 3 , the solvent accessible surface area of 460-580 Å 2 , and a positive QikProp (QP) CNS parameter (https://www.schrodinger.com/products/qikprop, accessed on 26 July 2021) [9]. An additional approach toward assessment of drug-likeness properties affecting overall brain permeability and very useful in prioritizing lead candidates consists in the Pfizer's CNS multiparameter optimization [10], which takes into account calculated partition coefficient (ClogP), calculated distribution coefficient at pH 7.4 (ClogD), molecular weight (M W ), acid dissociation constant (pK a ) of ionizable groups, together with total polar surface area and the number of hydrogen bond donors.…”

Section: The Neurokinome In Drug Discoverymentioning

confidence: 99%

“…The rediscovery of "old molecules" fits with the need for poorly addressed therapeutic areas in which the CNS-related pathologies represent a leading field [11,12]. Great examples in this scenario are saracatinib (1) and masitinib (2), which are two well-known inhibitors of FYN kinase firstly developed as anti-cancer agents. Compound 1 (Figure 1), also known as AZD0530, is a highly selective Src family kinases (SFKs) inhibitor developed by AstraZeneca in 2006 [13].…”

Section: The Neurokinome In Drug Discoverymentioning

confidence: 99%

“…Figure 1. Chemical structures of saracatinib (1) and masitinib (2), two FYN inhibitors firstly developed for the treatment of cancer and repurposed as CNS-agents.…”

Section: Saracatinib (1) Masitinib (2)mentioning

confidence: 99%

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GSK-3β, FYN, and DYRK1A: Master Regulators in Neurodegenerative Pathways

Demuro

Martino

Ortega

et al. 2021

IJMS

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Protein kinases (PKs) have been recognized as central nervous system (CNS)-disease-relevant targets due to their master regulatory role in different signal transduction cascades in the neuroscience space. Among them, GSK-3β, FYN, and DYRK1A play a crucial role in the neurodegeneration context, and the deregulation of all three PKs has been linked to different CNS disorders with unmet medical needs, including Alzheimer’s disease (AD), Parkinson’s disease (PD), frontotemporal lobar degeneration (FTLD), and several neuromuscular disorders. The multifactorial nature of these diseases, along with the failure of many advanced CNS clinical trials, and the lengthy approval process of a novel CNS drug have strongly limited the CNS drug discovery. However, in the near-decade from 2010 to 2020, several computer-assisted drug design strategies have been combined with synthetic efforts to develop potent and selective GSK-3β, FYN, and DYRK1A inhibitors as disease-modifying agents. In this review, we described both structural and functional aspects of GSK-3β, FYN, and DYRK1A and their involvement and crosstalk in different CNS pathological signaling pathways. Moreover, we outlined attractive medicinal chemistry approaches including multi-target drug design strategies applied to overcome some limitations of known PKs inhibitors and discover improved modulators with suitable blood–brain barrier (BBB) permeability and drug-like properties.

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Section: The Neurokinome In Drug Discoverymentioning

confidence: 99%

Section: The Neurokinome In Drug Discoverymentioning

confidence: 99%

Section: The Neurokinome In Drug Discoverymentioning

confidence: 99%

“…Figure 1. Chemical structures of saracatinib (1) and masitinib (2), two FYN inhibitors firstly developed for the treatment of cancer and repurposed as CNS-agents.…”

Section: Saracatinib (1) Masitinib (2)mentioning

confidence: 99%

See 2 more Smart Citations

GSK-3β, FYN, and DYRK1A: Master Regulators in Neurodegenerative Pathways

Demuro

Martino

Ortega

et al. 2021

IJMS

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“…These sets, while not comprised of chemical probes, have been shared with over 300 laboratories and have resulted in many new research findings, grants, and publications [18]. Furthermore, experience with these sets informed assembly of the kinase chemogenomic set (KCGS), which only includes kinase inhibitors for nearly half of the human kinome that show potent kinase inhibition and a narrow spectrum of activity when screened across a large panel of kinase biochemical assays [19]. Like PKIS/PKIS2, KCGS is made available with all associated annotation to all interested investigators.…”

Section: Introductionmentioning

confidence: 99%

AD Informer Set: Chemical tools to facilitate Alzheimer’s disease drug discovery

Potjewyd

Annor-Gyamfi

Aubé³

et al. 2021

Preprint

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Introduction: The portfolio of novel targets to treat Alzheimer's disease (AD) has been enriched by the AMP-AD program. Methods: A cheminformatics-driven effort enabled identification of existing small molecule modulators for many protein targets nominated by AMP-AD and suitable positive control compounds to be included in the set. Results: We have built an annotated set of 171 small molecule modulators, including mostly inhibitors, targeting 98 unique proteins that have been nominated by AMP-AD consortium members as novel targets for AD treatment. These small molecules vary in their quality and should be considered chemical tools that can be used in efforts to validate therapeutic hypotheses, but which would require further optimization. A physical copy of the AD Informer Set can be ordered via the AD Knowledge Portal. Discussion: Small molecule tools that enable target validation are important tools for the translation of novel hypotheses into viable therapeutic strategies for AD.

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EFMC: Trends in Medicinal Chemistry and Chemical Biology

et al. 2023

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Ground-breaking research in disease biology and continuous efforts in method development have uncovered a range of potential new drug targets. Increasingly, the drug discovery process is informed by technologies involving chemical probes as tools. Applications for chemical probes comprise target identification and assessment, as well as the qualification of small molecules as chemical starting points and drug candidates. Progress in probe chemistry has opened the way to novel assay formats and pharmaceutical compound classes. The European Federation of Medicinal Chemistry and Chemical Biology (EFMC) has launched the Chemical Biology Initiative to advance science in the field of medicinal chemistry and chemical biology, while representing all members of this extended scientific community. This review provides an overview of the many important developments in the field of chemical biology that have happened at the lively interface of academic and industrial research.

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The Kinase Chemogenomic Set (KCGS): An Open Science Resource for Kinase Vulnerability Identification

Cited by 70 publications

References 44 publications

GSK-3β, FYN, and DYRK1A: Master Regulators in Neurodegenerative Pathways

GSK-3β, FYN, and DYRK1A: Master Regulators in Neurodegenerative Pathways

AD Informer Set: Chemical tools to facilitate Alzheimer’s disease drug discovery

EFMC: Trends in Medicinal Chemistry and Chemical Biology

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