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PDBsum entry 6ntc
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Transferase/protein binding
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PDB id
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6ntc
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References listed in PDB file
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Key reference
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Title
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Conformation-Specific inhibitors of activated ras gtpases reveal limited ras dependency of patient-Derived cancer organoids.
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Authors
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S.Wiechmann,
P.Maisonneuve,
B.M.Grebbin,
M.Hoffmeister,
M.Kaulich,
H.Clevers,
K.Rajalingam,
I.Kurinov,
H.F.Farin,
F.Sicheri,
A.Ernst.
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Ref.
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J Biol Chem, 2020,
295,
4526-4540.
[DOI no: ]
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PubMed id
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Abstract
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The small GTPases H, K, and NRAS are molecular switches indispensable for proper
regulation of cellular proliferation and growth. Several mutations in the genes
encoding members of this protein family are associated with cancer and result in
aberrant activation of signaling processes caused by a deregulated recruitment
of downstream effector proteins. In this study, we engineered variants of the
Ras-binding domain (RBD) of the C-Raf proto-oncogene, Ser/Thr kinase (CRAF).
These variants bound with high affinity with the effector-binding site of Ras in
an active conformation. Structural characterization disclosed how the newly
identified RBD mutations cooperate and thereby enhance affinity with the
effector-binding site in Ras compared with WT RBD. The engineered RBD variants
closely mimicked the interaction mode of naturally occurring Ras effectors and
acted as dominant-negative affinity reagents that block Ras signal transduction.
Experiments with cancer cells showed that expression of these RBD variants
inhibits Ras signaling, reducing cell growth and inducing apoptosis. Using these
optimized RBD variants, we stratified patient-derived colorectal cancer
organoids with known Ras mutational status according to their response to Ras
inhibition. These results revealed that the presence of Ras mutations was
insufficient to predict sensitivity to Ras inhibition, suggesting that not all
of these tumors required Ras signaling for proliferation. In summary, by
engineering the Ras/Raf interface of the CRAF-RBD, we identified potent and
selective inhibitors of Ras in its active conformation that outcompete binding
of Ras-signaling effectors.
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