Allosteric MEK inhibitors act on BRAF/MEK complexes to block MEK activation

The RAF/MEK/ERK pathway is central to the control of cell physiology, and its dysregulation is associated with many cancers. Accordingly, the proteins constituting this pathway, including MEK1/2 (MEK), have been subject to intense drug discovery and development efforts. Allosteric MEK inhibitors (ME...

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Published in	Proceedings of the National Academy of Sciences - PNAS Vol. 118; no. 36; pp. 1 - 8
Main Authors	Pino, Gonzalo L. Gonzalez-Del, Li, Kunhua, Park, Eunyoung, Schmoker, Anna M., Ha, Byung Hak, Eck, Michael J.
Format	Journal Article
Language	English
Published	United States National Academy of Sciences 07.09.2021
Subjects	Allosteric Regulation Biological Sciences Enzyme Activation Enzyme Stability Humans MAP Kinase Kinase Kinases - antagonists & inhibitors MAP Kinase Kinase Kinases - chemistry MAP Kinase Kinase Kinases - metabolism Phosphorylation Protein Conformation Protein Kinase Inhibitors - pharmacology Proto-Oncogene Proteins B-raf - metabolism Signal Transduction X-ray crystallography MEK BRAF MEK inhibitor allosteric kinase inhibitor
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Abstract	The RAF/MEK/ERK pathway is central to the control of cell physiology, and its dysregulation is associated with many cancers. Accordingly, the proteins constituting this pathway, including MEK1/2 (MEK), have been subject to intense drug discovery and development efforts. Allosteric MEK inhibitors (MEKi) exert complex effects on RAF/MEK/ERK pathway signaling and are employed clinically in combination with BRAF inhibitors in malignant melanoma. Although mechanisms and structures of MEKi bound to MEK have been described for many of these compounds, recent studies suggest that RAF/MEK complexes, rather than free MEK, should be evaluated as the target of MEKi. Here, we describe structural and biochemical studies of eight structurally diverse, clinical-stage MEKi to better understand their mechanism of action on BRAF/MEK complexes. We find that all of these agents bind in the MEK allosteric site in BRAF/MEK complexes, in which they stabilize the MEK activation loop in a conformation that is resistant to BRAF-mediated dual phosphorylation required for full activation of MEK. We also show that allosteric MEK inhibitors act most potently on BRAF/MEK complexes rather than on free active MEK, further supporting the notion that a BRAF/MEK complex is the physiologically relevant pharmacologic target for this class of compounds. Our findings provide a conceptual and structural framework for rational development of RAF-selective MEK inhibitors as an avenue to more effective and better-tolerated agents targeting this pathway.
AbstractList	The RAF/MEK/ERK pathway is central to the control of cell physiology, and its dysregulation is associated with many cancers. Accordingly, the proteins constituting this pathway, including MEK1/2 (MEK), have been subject to intense drug discovery and development efforts. Allosteric MEK inhibitors (MEKi) exert complex effects on RAF/MEK/ERK pathway signaling and are employed clinically in combination with BRAF inhibitors in malignant melanoma. Although mechanisms and structures of MEKi bound to MEK have been described for many of these compounds, recent studies suggest that RAF/MEK complexes, rather than free MEK, should be evaluated as the target of MEKi. Here, we describe structural and biochemical studies of eight structurally diverse, clinical-stage MEKi to better understand their mechanism of action on BRAF/MEK complexes. We find that all of these agents bind in the MEK allosteric site in BRAF/MEK complexes, in which they stabilize the MEK activation loop in a conformation that is resistant to BRAF-mediated dual phosphorylation required for full activation of MEK. We also show that allosteric MEK inhibitors act most potently on BRAF/MEK complexes rather than on free active MEK, further supporting the notion that a BRAF/MEK complex is the physiologically relevant pharmacologic target for this class of compounds. Our findings provide a conceptual and structural framework for rational development of RAF-selective MEK inhibitors as an avenue to more effective and better-tolerated agents targeting this pathway.The RAF/MEK/ERK pathway is central to the control of cell physiology, and its dysregulation is associated with many cancers. Accordingly, the proteins constituting this pathway, including MEK1/2 (MEK), have been subject to intense drug discovery and development efforts. Allosteric MEK inhibitors (MEKi) exert complex effects on RAF/MEK/ERK pathway signaling and are employed clinically in combination with BRAF inhibitors in malignant melanoma. Although mechanisms and structures of MEKi bound to MEK have been described for many of these compounds, recent studies suggest that RAF/MEK complexes, rather than free MEK, should be evaluated as the target of MEKi. Here, we describe structural and biochemical studies of eight structurally diverse, clinical-stage MEKi to better understand their mechanism of action on BRAF/MEK complexes. We find that all of these agents bind in the MEK allosteric site in BRAF/MEK complexes, in which they stabilize the MEK activation loop in a conformation that is resistant to BRAF-mediated dual phosphorylation required for full activation of MEK. We also show that allosteric MEK inhibitors act most potently on BRAF/MEK complexes rather than on free active MEK, further supporting the notion that a BRAF/MEK complex is the physiologically relevant pharmacologic target for this class of compounds. Our findings provide a conceptual and structural framework for rational development of RAF-selective MEK inhibitors as an avenue to more effective and better-tolerated agents targeting this pathway. The RAF/MEK/ERK pathway is central to the control of cell physiology, and its dysregulation is associated with many cancers. Accordingly, the proteins constituting this pathway, including MEK1/2 (MEK), have been subject to intense drug discovery and development efforts. Allosteric MEK inhibitors (MEKi) exert complex effects on RAF/MEK/ERK pathway signaling and are employed clinically in combination with BRAF inhibitors in malignant melanoma. Although mechanisms and structures of MEKi bound to MEK have been described for many of these compounds, recent studies suggest that RAF/MEK complexes, rather than free MEK, should be evaluated as the target of MEKi. Here, we describe structural and biochemical studies of eight structurally diverse, clinical-stage MEKi to better understand their mechanism of action on BRAF/MEK complexes. We find that all of these agents bind in the MEK allosteric site in BRAF/MEK complexes, in which they stabilize the MEK activation loop in a conformation that is resistant to BRAF-mediated dual phosphorylation required for full activation of MEK. We also show that allosteric MEK inhibitors act most potently on BRAF/MEK complexes rather than on free active MEK, further supporting the notion that a BRAF/MEK complex is the physiologically relevant pharmacologic target for this class of compounds. Our findings provide a conceptual and structural framework for rational development of RAF-selective MEK inhibitors as an avenue to more effective and better-tolerated agents targeting this pathway. Drugs that inhibit specific kinases now represent one of the main classes of targeted therapies. A majority of drug development efforts in this space focus on a given kinase in isolation as the target. However, our work demonstrates that in the context of the RAF/MEK/ERK pathway, the relevant target for compounds developed as allosteric MEK inhibitors (MEKi) is not free MEK but RAF/MEK complexes. Because signaling through this pathway is essential in normal tissues, indiscriminate blockade of all MEK activity is not tolerated. Our findings imply that selective inhibition of specific RAF/MEK complexes is an accessible route for development of new MEKi, and they provide a biophysical foundation for better understanding and applying current clinical agents. The RAF/MEK/ERK pathway is central to the control of cell physiology, and its dysregulation is associated with many cancers. Accordingly, the proteins constituting this pathway, including MEK1/2 (MEK), have been subject to intense drug discovery and development efforts. Allosteric MEK inhibitors (MEKi) exert complex effects on RAF/MEK/ERK pathway signaling and are employed clinically in combination with BRAF inhibitors in malignant melanoma. Although mechanisms and structures of MEKi bound to MEK have been described for many of these compounds, recent studies suggest that RAF/MEK complexes, rather than free MEK, should be evaluated as the target of MEKi. Here, we describe structural and biochemical studies of eight structurally diverse, clinical-stage MEKi to better understand their mechanism of action on BRAF/MEK complexes. We find that all of these agents bind in the MEK allosteric site in BRAF/MEK complexes, in which they stabilize the MEK activation loop in a conformation that is resistant to BRAF-mediated dual phosphorylation required for full activation of MEK. We also show that allosteric MEK inhibitors act most potently on BRAF/MEK complexes rather than on free active MEK, further supporting the notion that a BRAF/MEK complex is the physiologically relevant pharmacologic target for this class of compounds. Our findings provide a conceptual and structural framework for rational development of RAF-selective MEK inhibitors as an avenue to more effective and better-tolerated agents targeting this pathway.
Author	Park, Eunyoung Eck, Michael J. Pino, Gonzalo L. Gonzalez-Del Li, Kunhua Schmoker, Anna M. Ha, Byung Hak
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Notes	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 2Present address: Department of Molecular Biology and Microbiology, Tufts School of Medicine, Boston, MA 02111. Edited by John Kuriyan, University of California, Berkeley, CA, and approved August 5, 2021 (received for review April 16, 2021) 1G.L.G.-D.P. and K.L. contributed equally to this work. 3Present address: FogPharma, Cambridge, MA 02140. Author contributions: G.L.G.-D.P., K.L., E.P., A.M.S., and M.J.E. designed research; G.L.G.-D.P., K.L., E.P., and A.M.S. performed research; G.L.G.-D.P., K.L., E.P., A.M.S., B.H.H., and M.J.E. analyzed data; and G.L.G.-D.P., K.L., and M.J.E. wrote the paper.
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Snippet	The RAF/MEK/ERK pathway is central to the control of cell physiology, and its dysregulation is associated with many cancers. Accordingly, the proteins... Drugs that inhibit specific kinases now represent one of the main classes of targeted therapies. A majority of drug development efforts in this space focus on...
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SubjectTerms	Allosteric Regulation Biological Sciences Enzyme Activation Enzyme Stability Humans MAP Kinase Kinase Kinases - antagonists & inhibitors MAP Kinase Kinase Kinases - chemistry MAP Kinase Kinase Kinases - metabolism Phosphorylation Protein Conformation Protein Kinase Inhibitors - pharmacology Proto-Oncogene Proteins B-raf - metabolism Signal Transduction
Title	Allosteric MEK inhibitors act on BRAF/MEK complexes to block MEK activation
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