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MEKK2 mediates aberrant ERK activation in neurofibromatosis type I.

Nature communications (2020-11-13)
Seoyeon Bok, Dong Yeon Shin, Alisha R Yallowitz, Mark Eiseman, Michelle Cung, Ren Xu, Na Li, Jun Sun, Alfred L Williams, John E Scott, Bing Su, Jae-Hyuck Shim, Matthew B Greenblatt
RÉSUMÉ

Neurofibromatosis type I (NF1) is characterized by prominent skeletal manifestations caused by NF1 loss. While inhibitors of the ERK activating kinases MEK1/2 are promising as a means to treat NF1, the broad blockade of the ERK pathway produced by this strategy is potentially associated with therapy limiting toxicities. Here, we have sought targets offering a more narrow inhibition of ERK activation downstream of NF1 loss in the skeleton, finding that MEKK2 is a novel component of a noncanonical ERK pathway in osteoblasts that mediates aberrant ERK activation after NF1 loss. Accordingly, despite mice with conditional deletion of Nf1 in mature osteoblasts (Nf1fl/fl;Dmp1-Cre) and Mekk2-/- each displaying skeletal defects, Nf1fl/fl;Mekk2-/-;Dmp1-Cre mice show an amelioration of NF1-associated phenotypes. We also provide proof-of-principle that FDA-approved inhibitors with activity against MEKK2 can ameliorate NF1 skeletal pathology. Thus, MEKK2 functions as a MAP3K in the ERK pathway in osteoblasts, offering a potential new therapeutic strategy for the treatment of NF1.

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Sigma-Aldrich
Bosutinib, ≥98% (HPLC)
Sigma-Aldrich
MEK1 Protein, inactive, 50 g, Unactive, N-terminal GST & C-terminal His6-tagged, recombinant full-length human MEK1, for use in Kinase Assays.
Sigma-Aldrich
MEK2 Protein, inactive, 50 g, Unactive, N-terminal His6-tagged recombinant, full-length human MEK2, for use in Kinase Assays.