Small molecules targeting the inactive form of the Mnk1/2 kinases
Overexpression of the eukaryotic initiation factor 4E (eIF4E) is linked to a variety of cancers. Both mitogen-activated protein kinases-interacting kinases 1 and 2 (Mnk1/2) activate the oncogene eIF4E through posttranslational modification (phosphorylating it at the conserved Ser209). Inhibition of...
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sg-ntu-dr.10356-1468962023-02-28T16:59:47Z Small molecules targeting the inactive form of the Mnk1/2 kinases Kannan, Srinivasaraghavan Pradhan, Mohan R. Cherian, Joseph Joseph, Thomas L. Poh, Zhi Ying Hai Yan, Yang Melvyn, Ho Boping, Liu Jeffrey, Hill Nacro, Kassoum Verma, Chandra Shekhar School of Biological Sciences Science::Biological sciences Peptides and Proteins Molecules Overexpression of the eukaryotic initiation factor 4E (eIF4E) is linked to a variety of cancers. Both mitogen-activated protein kinases-interacting kinases 1 and 2 (Mnk1/2) activate the oncogene eIF4E through posttranslational modification (phosphorylating it at the conserved Ser209). Inhibition of Mnk prevents eIF4E phosphorylation, making the Mnk-eIF4E axis a potential therapeutic target for oncology. Recently, the design and synthesis of a series of novel potent compounds inhibiting the Mnk1/2 kinases were carried out in-house. Here, we describe computational models of the interactions between Mnk1/2 kinases and these inhibitors. Molecular modeling combined with free energy calculations show that these compounds bind to the inactive forms of the kinases. All compounds adopt similar conformations in the catalytic sites of both kinases, stabilized by hydrogen bonds with the hinge regions and with the catalytic Lys78 (Mnk1) and Lys113 (Mnk2). These hydrogen bond interactions clearly play a critical role in determining the conformational stability and potency of the compounds. We also find that van der Waals interactions with an allosteric pocket are key to their binding and potency. Two distinct hydration sites that appear to further stabilize the ligand binding/interactions were observed. Critically, the inclusion of explicit water molecules in the calculations results in improving the agreement between calculated and experimental binding free energies. Agency for Science, Technology and Research (A*STAR) Published version This work was financially supported by Biomedical Sciences Institutes (BMSI) and Joint Council Office (JCO project 11 03FG 07 05), Agency for Science, Technology and Research (A*STAR), Singapore, which is gratefully acknowledged. 2021-03-12T08:52:45Z 2021-03-12T08:52:45Z 2017 Journal Article Kannan, S., Pradhan, M. R., Cherian, J., Joseph, T. L., Poh, Z. Y., Hai Yan, Y., Melvyn, H., Boping, L., Jeffrey, H., Nacro, K. & Verma, C. S. (2017). Small molecules targeting the inactive form of the Mnk1/2 kinases. ACS Omega, 2(11), 7881-7891. https://dx.doi.org/10.1021/acsomega.7b01403 2470-1343 0000-0002-9539-5249 0000-0003-2663-7192 https://hdl.handle.net/10356/146896 10.1021/acsomega.7b01403 30023565 2-s2.0-85047446716 11 2 7881 7891 en ACS Omega © 2017 American Chemical Society. This is an open access article published under an ACS Author Choice License, which permits copying and redistribution of the article or any adaptations for non-commercial purposes. application/pdf |
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Science::Biological sciences Peptides and Proteins Molecules Kannan, Srinivasaraghavan Pradhan, Mohan R. Cherian, Joseph Joseph, Thomas L. Poh, Zhi Ying Hai Yan, Yang Melvyn, Ho Boping, Liu Jeffrey, Hill Nacro, Kassoum Verma, Chandra Shekhar Small molecules targeting the inactive form of the Mnk1/2 kinases |
| description |
Overexpression of the eukaryotic initiation factor 4E (eIF4E) is linked to a variety of cancers. Both mitogen-activated protein kinases-interacting kinases 1 and 2 (Mnk1/2) activate the oncogene eIF4E through posttranslational modification (phosphorylating it at the conserved Ser209). Inhibition of Mnk prevents eIF4E phosphorylation, making the Mnk-eIF4E axis a potential therapeutic target for oncology. Recently, the design and synthesis of a series of novel potent compounds inhibiting the Mnk1/2 kinases were carried out in-house. Here, we describe computational models of the interactions between Mnk1/2 kinases and these inhibitors. Molecular modeling combined with free energy calculations show that these compounds bind to the inactive forms of the kinases. All compounds adopt similar conformations in the catalytic sites of both kinases, stabilized by hydrogen bonds with the hinge regions and with the catalytic Lys78 (Mnk1) and Lys113 (Mnk2). These hydrogen bond interactions clearly play a critical role in determining the conformational stability and potency of the compounds. We also find that van der Waals interactions with an allosteric pocket are key to their binding and potency. Two distinct hydration sites that appear to further stabilize the ligand binding/interactions were observed. Critically, the inclusion of explicit water molecules in the calculations results in improving the agreement between calculated and experimental binding free energies. |
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School of Biological Sciences |
| author_facet |
School of Biological Sciences Kannan, Srinivasaraghavan Pradhan, Mohan R. Cherian, Joseph Joseph, Thomas L. Poh, Zhi Ying Hai Yan, Yang Melvyn, Ho Boping, Liu Jeffrey, Hill Nacro, Kassoum Verma, Chandra Shekhar |
| format |
Article |
| author |
Kannan, Srinivasaraghavan Pradhan, Mohan R. Cherian, Joseph Joseph, Thomas L. Poh, Zhi Ying Hai Yan, Yang Melvyn, Ho Boping, Liu Jeffrey, Hill Nacro, Kassoum Verma, Chandra Shekhar |
| author_sort |
Kannan, Srinivasaraghavan |
| title |
Small molecules targeting the inactive form of the Mnk1/2 kinases |
| title_short |
Small molecules targeting the inactive form of the Mnk1/2 kinases |
| title_full |
Small molecules targeting the inactive form of the Mnk1/2 kinases |
| title_fullStr |
Small molecules targeting the inactive form of the Mnk1/2 kinases |
| title_full_unstemmed |
Small molecules targeting the inactive form of the Mnk1/2 kinases |
| title_sort |
small molecules targeting the inactive form of the mnk1/2 kinases |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146896 |
| _version_ |
1759856524955484160 |