Conversion of SB 203580-insensitive MAP kinase family members to drug-sensitive forms by a single amino-acid substitution

Background: Specific inhibitors of protein kinases have great therapeutic potential, but the molecular basis underlying their specificity is only poorly understood. We have investigated the drug SB 203580 which belongs to a class of pyridinyl imidazoles that inhibits the stress-activated protein (SAP) kinases SAPK2a/p38 and SAPK2b/p38β2 but not other mitogen-activated protein kinase family members. Like inhibitors of other protein kinases, SB 203580 binds in the ATP-binding pocket of SAPK2a/p38. Results: The SAP kinases SAPK1γ/JNK1, SAPK3 and SAPK4 are not inhibited by SB 203580, because they have methionine in the position equivalent to Thr106 in the ATP-binding region of SAPK2a/p38 and SAPK2b/p38β2. Using site-directed mutagenesis of five SAP kinases and the type I and type II TGFβ receptors, we have established that for a protein kinase to be inhibited by SB 203580, the sidechain of this residue must be no larger than that of threonine. Sensitivity to inhibition by SB 203580 is greatly enhanced when the sidechain is even smaller, as in serine, alanine or glycine. Thus, the type I TGFβ receptor, which has serine at the position equivalent to Thr106 of SAPK2a/p38 and SAPK2b/p38β2, is inhibited by SB 203580. Conclusions: These findings explain how drugs that target the ATP-binding site can inhibit protein kinases specifically, and show that the presence of threonine or a smaller amino acid at the position equivalent to Thr106 of SAPK2a/p38 and SAPK2b/p38β2 is diagnostic of whether a protein kinase is sensitive to the pyridinyl imidazole class of inhibitor.