Activity-based probes (ABPs) provide a powerful suite of reagents that react only with the functionally active form of target enzymes to measure its activity state within a proteome, living cell or even in vivo. In addition to monitoring enzyme activity in vitro and in vivo, ABPs have also been used to identify and evaluate the binding affinity of potential enzyme inhibitors for disease treatment.
In the past decade, many different kinds of ABPs have been developed for the therapy of cancer, cardiovascular, and neurology diseases. However, more investigations in the field are still in demand, such as continuous development of novel ABPs that can identify more critical enzymes in the organism, or improvement of the pharmaceutical kinetics and specificity of ABPs to get more rapid and precise recognition by the target enzymes. Furthermore, a combination of ABP-based assays and imaging of relevant biological processes is necessary to understand the function of the enzyme in cancer or other diseases. Furthermore, ABPs for multi-modal imaging and theranostic application have extended their application in biology and more studies are needed to increase the effectiveness of ABPs in these applications.
This Research Topic focuses on the development and application of ABPs. We welcome manuscripts that deal with the synthesis of novel ABPs and their use in (multi-modal) imaging, theranostics, and enzyme inhibitor discovery.
Activity-based probes (ABPs) provide a powerful suite of reagents that react only with the functionally active form of target enzymes to measure its activity state within a proteome, living cell or even in vivo. In addition to monitoring enzyme activity in vitro and in vivo, ABPs have also been used to identify and evaluate the binding affinity of potential enzyme inhibitors for disease treatment.
In the past decade, many different kinds of ABPs have been developed for the therapy of cancer, cardiovascular, and neurology diseases. However, more investigations in the field are still in demand, such as continuous development of novel ABPs that can identify more critical enzymes in the organism, or improvement of the pharmaceutical kinetics and specificity of ABPs to get more rapid and precise recognition by the target enzymes. Furthermore, a combination of ABP-based assays and imaging of relevant biological processes is necessary to understand the function of the enzyme in cancer or other diseases. Furthermore, ABPs for multi-modal imaging and theranostic application have extended their application in biology and more studies are needed to increase the effectiveness of ABPs in these applications.
This Research Topic focuses on the development and application of ABPs. We welcome manuscripts that deal with the synthesis of novel ABPs and their use in (multi-modal) imaging, theranostics, and enzyme inhibitor discovery.