Current Biology
Volume 8, Issue 5, 26 February 1998, Pages 257-266
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Research Paper
Design of allele-specific inhibitors to probe protein kinase signaling

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Abstract

Background: Deconvoluting protein kinase signaling pathways using conventional genetic and biochemical approaches has been difficult because of the overwhelming number of closely related kinases. If cell-permeable inhibitors of individual kinases could be designed, the role of each kinase could be systematically assessed.

Results: We have devised an approach combining chemistry and genetics to develop the first highly specific cell-permeable inhibitor of the oncogenic tyrosine kinase v-Src. A functionally silent active-site mutation was made in v-Src to distinguish it from all other cellular kinases. A tight-binding cell-permeable inhibitor of this mutant kinase that does not inhibit wild-type kinases was designed and synthesized. In vitro and whole-cell assays established the unique specificity of the mutant v-Src–inhibitor pair. The inhibitor reversed cell transformation by the engineered but not the ‘wild type’ v-Src, establishing that changes in cellular signaling can be attributed to specific inhibition of the engineered kinase. The generality of the method was tested by engineering another tyrosine kinase, Fyn, to contain the corresponding active-site mutation to the one in v-Src. The same compound that inhibited mutant v-Src could also potently inhibit the engineered Fyn kinase.

Conclusions: Allele-specific cell-permeable inhibitors of individual Src family kinases can be rapidly developed in an approach that should be applicable to all kinases. This approach will be useful for the deconvolution of kinase-mediated cellular pathways and for validating novel kinases as good targets for drug discovery both in vitro and in vivo.

Cited by (0)

AC Bishop, K Shah, Y Liu, L Witucki and C Kung, Department of Chemistry, Princeton University, Princeton, New Jersey, 08544, USA.

KM Shokat (corresponding author), Department of Chemistry and Department of Molecular Biology, Princeton University, Princeton, New Jersey, 08544, USA. e-mail: [email protected].