Reference of 1H-Pyrazole-4-sulfonyl chloride. The mechanism of aromatic electrophilic substitution of aromatic heterocycles is consistent with that of benzene. Compound: 1H-Pyrazole-4-sulfonyl chloride, is researched, Molecular C3H3ClN2O2S, CAS is 438630-64-9, about Purinylpyridinylamino-based DFG-in/αC-helix-out B-Raf inhibitors: Applying mutant versus wild-type B-Raf selectivity indices for compound profiling. Author is Liu, Longbin; Lee, Matthew R.; Kim, Joseph L.; Whittington, Douglas A.; Bregman, Howard; Hua, Zihao; Lewis, Richard T.; Martin, Matthew W.; Nishimura, Nobuko; Potashman, Michele; Yang, Kevin; Yi, Shuyan; Vaida, Karina R.; Epstein, Linda F.; Babij, Carol; Fernando, Manory; Carnahan, Josette; Norman, Mark H..
One of the challenges for targeting B-RafV600E with small mol. inhibitors had been achieving adequate selectivity over the wild-type protein B-RafWT, as inhibition of the latter has been associated with hyperplasia in normal tissues. Recent studies suggest that B-Raf inhibitors inducing the ‘DFG-in/αC-helix-out’ conformation (Type IIB) likely will exhibit improved selectivity for B-RafV600E. To explore this hypothesis, we transformed Type IIA inhibitor (1) into a series of Type IIB inhibitors (sulfonamides and sulfamides 4-6) and examined the SAR. Three selectivity indexes were introduced to facilitate the analyses: the B-RafV600E/B-RafWT biochem. (bS), cellular (cS) selectivity, and the phospho-ERK activation (pA). Our data indicates that α-branched sulfonamides and sulfamides show higher selectivities than the linear derivatives We rationalized this finding based on anal. of structural information from the literature and provided evidence for a monomeric B-Raf-inhibitor complex previously hypothesized to be responsible for the desired B-RafV600E selectivity.
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