Identification of first-in-class plasmodium OTU inhibitors with potent anti-malarial activity

Siyah, Pınar; Akgöl, Sezer; Durdağı, Serdar; Kocabaş, Fatih

doi:10.1042/bcj20210481

Cited by 8 publications

(1 citation statement)

References 44 publications

(37 reference statements)

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“…This process was carried out meticulously using Maestro's Glide module [24], utilizing standard sensitivity settings. As a control measure, reference molecules underwent the same procedures, following identical methodologies as the ligands, ensuring methodological consistency [25].…”

Section: Grid Box Generation and Molecular Docking Studiesmentioning

confidence: 99%

Precision Targeting Strategies in Cancer Therapy: Focusing on Synthetic Lethality with FAK Inhibition

Siyah

2024

Preprint

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Synthetic lethality, involving the simultaneous deactivation of two genes, plays a critical role in disrupting vital cellular functions or prompting cell death. This study delves into the impact of synthetic lethality within cancer research, specifically examining the interplay between the Focal Adhesion Kinase (FAK) and Neurofibromin 2 (NF2) genes. While deactivating FAK or NF2 individually has minimal impact, their combined deactivation highlights the vital significance of their synthetic lethal interaction. Hence, the principal aim of this study is to direct our efforts towards the inhibition of the FAK gene, a venture of notable significance. The NF2 gene is responsible for producing Merlin, a tumor suppressor protein that is often deactivated in schwannoma, meningioma, and malignant mesothelioma. The inhibition of the FAK gene is pivotal, given its pivotal role in the synthetic lethal interplay with NF2/Merlin, promising substantial prospects for the progression of cancer treatment strategies. This investigation has the capacity to propel forward inventive therapeutic methodologies, harnessing the potential of synthetic lethal interactions within cancer cells, and forging a path towards more refined and efficacious interventions in cancer treatment. The ongoing advancements in developing new FAK inhibitors highlight the significance of this strategy in cancer treatment. Despite extensive research efforts, no FAK inhibitor has been approved for clinical use. This emphasizes the urgent need to create new FAK inhibitors with improved anti-tumor properties. The small molecule FAK inhibitor candidates identified in our study show potential for making a groundbreaking contribution in this field. Employing docking and (1ns, 10ns and 100ns) molecular dynamics (MD) simulations, we evaluated FAK inhibitor complex stability, unveiling intricate interactions. Following of molecular dynamics simulations, the MM/GBSA scores for Amprenavir, Bosutinib, Ferric derisomaltose, Flavin adenine dinucleotide, Lactulose and Tafluprost were determined to be -72,81, -71,84, -76.70, -69.09, -74.86, -65.77 kcal/mol, respectively. These molecules have been evaluated as potential candidate drugs based on these scores. This study lays a foundation for novel therapeutics, holding promise for diverse cancer treatments through our computational framework.

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Section: Grid Box Generation and Molecular Docking Studiesmentioning

confidence: 99%

Precision Targeting Strategies in Cancer Therapy: Focusing on Synthetic Lethality with FAK Inhibition

Siyah

2024

Preprint

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Virtual Screening, Molecular Docking, Molecular Dynamics and ADMET Studies on the OTU Protease of Crimean‐Congo Hemorrhagic Fever Virus

Yildirim

Çeli̇k

2022

ChemistrySelect

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Crimean-Congo hemorrhagic fever (CCHF) is caused by the Nairovirus genus CCHF virus from the Bunyaviridae family, which is called by the same name. The effective reservoir for the spread of the virus is the ticks of the genus Hyalomma. The CCHF disease has a mortality rate of 30 % in the world and 5 % in Turkey. Although it has a high mortality rate, there is only one approved drug available to treat the disease. Currently, ribavirin is the only drug approved by the WHO (World Health Organization) for the CCHF virus. However, although it has been proven to be effective in the early diagnosis of the disease in non-randomized studies, there is still controversial due to the lack of randomized studies. OTU (ovarian tumor), an enzyme that plays a role in viral replication and suppression of the immune system, was chosen as a protease drug target. Computer-aided drug design aims to increase the success rate while reducing the time and budget spent. Virtual screening, molecular docking, molecular dynamics simulations and AD-MET studies are stages of computer-aided drug design. In this thesis; as a result of virtual scanning and molecular docking study, the active ingredients of protokylol, rimiterol, and aspoxicillin, which have high values on the OTU protease enzyme of CCHF, were selected. Then, ligand enzyme complexes were investigated by molecular dynamics simulations and ADMET studies.

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Ubiquitin–Proteasome System as a Potential Drug Target for Malaria

Paul

2024

Drug Targets for Plasmodium Falciparum: Historic to Future Perspectives

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Identification of first-in-class plasmodium OTU inhibitors with potent anti-malarial activity

Cited by 8 publications

References 44 publications

Precision Targeting Strategies in Cancer Therapy: Focusing on Synthetic Lethality with FAK Inhibition

Precision Targeting Strategies in Cancer Therapy: Focusing on Synthetic Lethality with FAK Inhibition

Virtual Screening, Molecular Docking, Molecular Dynamics and ADMET Studies on the OTU Protease of Crimean‐Congo Hemorrhagic Fever Virus

Ubiquitin–Proteasome System as a Potential Drug Target for Malaria

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