Classification of kinase inhibitors using nonlinear optical techniques
First Claim
1. A method for classifying a kinase inhibitor as a type I or type II kinase inhibitor based on a conformational change that the kinase inhibitor induces in the structure of a kinase labeled with a second harmonic-active label, wherein the label has a net orientation at an interface, the method comprising:
- a. contacting the kinase with a kinase inhibitor, wherein the kinase specifically interacts with said kinase inhibitor;
b. detecting an interaction between the kinase and said kinase inhibitor in solution and in real-time by measuring a first signal or signal change generated by the second harmonic-active label using a surface-selective technique, wherein the first signal or signal change indicates a conformational change in the structure of the kinase that is specific for the kinase inhibitor; and
c. classifying the kinase inhibitor as a type I or type II kinase inhibitor by comparing the first signal or signal change of (b) with a second signal or signal change detected by an interaction between the kinase and a known type I or type II inhibitor of the kinase, wherein the second signal or signal change indicates a conformational change in the structure of the kinase that is specific for the known type I or type II inhibitor of the kinase.
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Abstract
A method is disclosed for classifying and distinguishing between type I and type II kinase inhibitors. The method involves the use of non-linear optical techniques, in particular second-harmonic generation (SHG) to identify conformational changes in kinase proteins obtained from known type I or type II inhibitors. The method further involves deducing the manner of binding of unknown inhibitors by comparison with the signal changes produced by known ligands. The method is also applied to comparing the conformational changes induced by the binding of generic and branded kinase inhibitor drugs to a target kinase.
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Citations
18 Claims
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1. A method for classifying a kinase inhibitor as a type I or type II kinase inhibitor based on a conformational change that the kinase inhibitor induces in the structure of a kinase labeled with a second harmonic-active label, wherein the label has a net orientation at an interface, the method comprising:
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a. contacting the kinase with a kinase inhibitor, wherein the kinase specifically interacts with said kinase inhibitor; b. detecting an interaction between the kinase and said kinase inhibitor in solution and in real-time by measuring a first signal or signal change generated by the second harmonic-active label using a surface-selective technique, wherein the first signal or signal change indicates a conformational change in the structure of the kinase that is specific for the kinase inhibitor; and c. classifying the kinase inhibitor as a type I or type II kinase inhibitor by comparing the first signal or signal change of (b) with a second signal or signal change detected by an interaction between the kinase and a known type I or type II inhibitor of the kinase, wherein the second signal or signal change indicates a conformational change in the structure of the kinase that is specific for the known type I or type II inhibitor of the kinase. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method for classifying an unknown candidate kinase inhibitor as a type I or type II kinase inhibitor based on a conformational change that the candidate kinase inhibitor induces in the structure of a kinase labeled with a second harmonic-active label, wherein the label has a net orientation at an interface, and wherein the kinase has no known type I or type II inhibitors, the method comprising:
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a. contacting the kinase with the candidate kinase inhibitor, wherein the kinase specifically interacts with said candidate kinase inhibitor; b. detecting an interaction between the kinase and said candidate kinase inhibitor in solution and in real-time by measuring a signal or signal change generated by the second harmonic-active label using a surface-selective technique, wherein the signal or signal change indicates a conformational change in the structure of the kinase that is specific for the candidate kinase inhibitor; and c. comparing the signal or signal change detected in (b) with a signal or signal change produced by the interaction between a known type I or type II kinase inhibitor and a kinase known to be inhibited by said known type I or type II kinase inhibitor to classify the candidate kinase inhibitor based on the conformational change it induces in the structure of the kinase.
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11. A method for classifying a first kinase inhibitor as a type I or type II kinase inhibitor based on a conformational change that the first kinase inhibitor induces in the structure of a first kinase labeled with a first second harmonic-active label, wherein the label has a net orientation at an interface, the method comprising:
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a. contacting the first kinase with a first kinase inhibitor, wherein the first kinase specifically interacts with said first kinase inhibitor; b. detecting an interaction between the first kinase and said first kinase inhibitor in solution and in real-time by measuring a first signal or signal change generated by the first second harmonic-active label using a surface-selective technique, wherein the first signal or signal change indicates a conformational change in the structure of the first kinase that is specific for the first kinase inhibitor; and c. classifying the first kinase inhibitor as a type I or type II kinase inhibitor by comparing the first signal or signal change of (b) with a second signal or signal change detected by an interaction between a second kinase and a known type I or type II inhibitor of the second kinase, wherein the second signal or signal change indicates a conformational change in the structure of the second kinase that is specific for the known type I or type II inhibitor of the second kinase. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
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Specification