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Targeting a proteolytic neoepitope on CUB domain containing protein 1 (CDCP1) for RAS-driven cancers.

Authors :
Lim, Shion A
Lim, Shion A
Zhou, Jie
Martinko, Alexander J
Wang, Yung-Hua
Filippova, Ekaterina V
Steri, Veronica
Wang, Donghui
Remesh, Soumya G
Liu, Jia
Hann, Byron
Kossiakoff, Anthony A
Evans, Michael J
Leung, Kevin K
Wells, James A
Lim, Shion A
Lim, Shion A
Zhou, Jie
Martinko, Alexander J
Wang, Yung-Hua
Filippova, Ekaterina V
Steri, Veronica
Wang, Donghui
Remesh, Soumya G
Liu, Jia
Hann, Byron
Kossiakoff, Anthony A
Evans, Michael J
Leung, Kevin K
Wells, James A
Source :
The Journal of clinical investigation; vol 132, iss 4, e154604; 0021-9738
Publication Year :
2022

Abstract

Extracellular proteolysis is frequently dysregulated in disease and can generate proteoforms with unique neoepitopes not found in healthy tissue. Here, we demonstrate that Abs that selectively recognize a proteolytic neoepitope on CUB domain containing protein 1 (CDCP1) could enable more effective and safer treatments for solid tumors. CDCP1 is highly overexpressed in RAS-driven cancers, and its ectodomain is cleaved by extracellular proteases. Biochemical, biophysical, and structural characterization revealed that the 2 cleaved fragments of CDCP1 remain tightly associated with minimal proteolysis-induced conformational change. Using differential phage display, we generated recombinant Abs that are exquisitely selective to cleaved CDCP1 with no detectable binding to the uncleaved form. These Abs potently targeted cleaved CDCP1-expressing cancer cells as an Ab-drug conjugate, an Ab-radionuclide conjugate, and a bispecific T cell engager. In a syngeneic pancreatic tumor model, these cleaved-specific Abs showed tumor-specific localization and antitumor activity with superior safety profiles compared with a pan-CDCP1 approach. Targeting proteolytic neoepitopes could provide an orthogonal "AND" gate for improving the therapeutic index.

Details

Database :
OAIster
Journal :
The Journal of clinical investigation; vol 132, iss 4, e154604; 0021-9738
Notes :
application/pdf, The Journal of clinical investigation vol 132, iss 4, e154604 0021-9738
Publication Type :
Electronic Resource
Accession number :
edsoai.on1325585613
Document Type :
Electronic Resource