Author
Listed:
- Krzysztof P. Bzymek
(Beckman Research Institute of City of Hope)
- James W. Puckett
(Beckman Research Institute of City of Hope)
- Cindy Zer
(Beckman Research Institute of City of Hope)
- Jun Xie
(Beckman Research Institute of City of Hope)
- Yuelong Ma
(Beckman Research Institute of City of Hope)
- Jeremy D. King
(Beckman Research Institute of City of Hope)
- Leah H. Goodstein
(Beckman Research Institute of City of Hope)
- Kendra N. Avery
(Beckman Research Institute of City of Hope
Xencor)
- David Colcher
(Beckman Research Institute of City of Hope)
- Gagandeep Singh
(Beckman Research Institute of City of Hope)
- David A. Horne
(Beckman Research Institute of City of Hope)
- John C. Williams
(Beckman Research Institute of City of Hope)
Abstract
Because monoclonal antibodies (mAbs) have exceptional specificity and favorable pharmacology, substantial efforts have been made to functionalize them, either with potent cytotoxins, biologics, radionuclides, or fluorescent groups for therapeutic benefit and/or use as theranostic agents. To exploit our recently discovered meditope–Fab interaction as an alternative means to efficiently functionalize mAbs, we used insights from the structure to enhance the affinity and lifetime of the interaction by four orders of magnitude. To further extend the lifetime of the complex, we created a mechanical bond by incorporating an azide on the meditope, threading the azide through the Fab, and using click chemistry to add a steric group. The mechanically interlocked, meditope–Fab complex retains antigen specificity and is capable of imaging tumors in mice. These studies indicate it is possible to “snap” functionality onto mAbs, opening the possibility of rapidly creating unique combinations of mAbs with an array of cytotoxins, biologics, and imaging agents.
Suggested Citation
Krzysztof P. Bzymek & James W. Puckett & Cindy Zer & Jun Xie & Yuelong Ma & Jeremy D. King & Leah H. Goodstein & Kendra N. Avery & David Colcher & Gagandeep Singh & David A. Horne & John C. Williams, 2018.
"Mechanically interlocked functionalization of monoclonal antibodies,"
Nature Communications, Nature, vol. 9(1), pages 1-9, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-03976-5
DOI: 10.1038/s41467-018-03976-5
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