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Modulating multi-functional ERK complexes by covalent targeting of a recruitment site in vivo.

Nature communications (2019-11-21)
Tamer S Kaoud, William H Johnson, Nancy D Ebelt, Andrea Piserchio, Diana Zamora-Olivares, Sabrina X Van Ravenstein, Jacey R Pridgen, Ramakrishna Edupuganti, Rachel Sammons, Micael Cano, Mangalika Warthaka, Matthew Harger, Clint D J Tavares, Jihyun Park, Mohamed F Radwan, Pengyu Ren, Eric V Anslyn, Kenneth Y Tsai, Ranajeet Ghose, Kevin N Dalby
ABSTRACT

Recently, the targeting of ERK with ATP-competitive inhibitors has emerged as a potential clinical strategy to overcome acquired resistance to BRAF and MEK inhibitor combination therapies. In this study, we investigate an alternative strategy of targeting the D-recruitment site (DRS) of ERK. The DRS is a conserved region that lies distal to the active site and mediates ERK-protein interactions. We demonstrate that the small molecule BI-78D3 binds to the DRS of ERK2 and forms a covalent adduct with a conserved cysteine residue (C159) within the pocket and disrupts signaling in vivo. BI-78D3 does not covalently modify p38MAPK, JNK or ERK5. BI-78D3 promotes apoptosis in BRAF inhibitor-naive and resistant melanoma cells containing a BRAF V600E mutation. These studies provide the basis for designing modulators of protein-protein interactions involving ERK, with the potential to impact ERK signaling dynamics and to induce cell cycle arrest and apoptosis in ERK-dependent cancers.

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Sigma-Aldrich
Anticorpo anti-actina, clone C4, clone C4, Chemicon®, from mouse
Sigma-Aldrich
Anti-phospho-BMK1/Erk5 (Thr218/Tyr220) Antibody, Upstate®, from rabbit
Sigma-Aldrich
Anti-phospho-p38α(Thr180/Tyr182) Antibody, clone 8.78.8, rabbit monoclonal, culture supernatant, clone 8.78.8, from rabbit