The Impact of N ε -Acryloyllysine Piperazides on the Conformational Dynamics of Transglutaminase 2

In addition to the classic functions of proteins, such as acting as a biocatalyst or binding partner, the conformational states of proteins and their remodeling upon stimulation need to be considered. A prominent example of a protein that undergoes comprehensive conformational remodeling is transglu...

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Published in:International journal of molecular sciences 2023-01, Vol.24 (2), p.1650
Main Authors: Heerwig, Andreas, Kick, Alfred, Sommerfeld, Paul, Eimermacher, Sophia, Hartung, Frederick, Laube, Markus, Fischer, Dietmar, Pietzsch, Hans-Jürgen, Pietzsch, Jens, Löser, Reik, Mertig, Michael, Pietsch, Markus, Wodtke, Robert
Format: Article
Language:English
Subjects:
Amino acids
Binding
binding kinetics
Computer applications
conformational change
DNA lever
Electric fields
Electrodes
Electrophoresis
Fibrosis
Gel electrophoresis
Gold
Inhibitors
Levers
Medical prognosis
Molecular Conformation
Physiology
Polyacrylamide
Polyamines
Protein Conformation
Protein Glutamine gamma Glutamyltransferase 2 - chemistry
Proteins
Radiation
Radioactive tracers
transamidase inhibitor
Transglutaminase 2
Transglutaminases - metabolism
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Summary:In addition to the classic functions of proteins, such as acting as a biocatalyst or binding partner, the conformational states of proteins and their remodeling upon stimulation need to be considered. A prominent example of a protein that undergoes comprehensive conformational remodeling is transglutaminase 2 (TGase 2), the distinct conformational states of which are closely related to particular functions. Its involvement in various pathophysiological processes, including fibrosis and cancer, motivates the development of theranostic agents, particularly based on inhibitors that are directed toward the transamidase activity. In this context, the ability of such inhibitors to control the conformational dynamics of TGase 2 emerges as an important parameter, and methods to assess this property are in great demand. Herein, we describe the application of the switchSENSE principle to detect conformational changes caused by three irreversibly binding -acryloyllysine piperazides, which are suitable radiotracer candidates of TGase 2. The switchSENSE technique is based on DNA levers actuated by alternating electric fields. These levers are immobilized on gold electrodes with one end, and at the other end of the lever, the TGase 2 is covalently bound. A novel computational method is introduced for describing the resulting lever motion to quantify the extent of stimulated conformational TGase 2 changes. Moreover, as a complementary biophysical method, native polyacrylamide gel electrophoresis was performed under similar conditions to validate the results. Both methods prove the occurrence of an irreversible shift in the conformational equilibrium of TGase 2, caused by the binding of the three studied -acryloyllysine piperazides.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms24021650