Fully human monoclonal antibody targeting activated ADAM10 on colorectal cancer cells Journal Article

   


Authors: Saha, N.; Baek, D. S.; Mendoza, R. P.; Robev, D.; Xu, Y.; Goldgur, Y.; De La Cruz, M. J.; de Stanchina, E.; Janes, P. W.; Xu, K.; Dimitrov, D. S.; Nikolov, D. B.
Article Title: Fully human monoclonal antibody targeting activated ADAM10 on colorectal cancer cells
Abstract: Metastasis and chemoresistance in colorectal cancer are mediated by certain poorly differentiated cancer cells, known as cancer stem cells, that are maintained by Notch downstream signaling initiated upon Notch cleavage by the metalloprotease ADAM10. It has been shown that ADAM10 overexpression correlates with aberrant signaling from Notch, erbBs, and other receptors, as well as a more aggressive metastatic phenotype, in a range of cancers including colon, gastric, prostate, breast, ovarian, uterine, and leukemia. ADAM10 inhibition, therefore, stands out as an important and new approach to deter the progression of advanced CRC. For targeting the ADAM10 substrate-binding region, which is located outside of the catalytic domain of the protease, we generated a human anti-ADAM10 monoclonal antibody named 1H5. Structural and functional characterization of 1H5 reveals that it binds to the substrate-binding cysteine-rich domain and recognizes an activated ADAM10 conformation present on tumor cells. The mAb inhibits Notch cleavage and proliferation of colon cancer cell lines in vitro and in mouse models. Consistent with its binding to activated ADAM10, the mAb augments the catalytic activity of ADAM10 towards small peptide substrates in vitro. Most importantly, in a mouse model of colon cancer, when administered in combination with the therapeutic agent Irinotecan, 1H5 causes highly effective tumor growth inhibition without any discernible toxicity effects. Our singular approach to target the ADAM10 substrate-binding region with therapeutic antibodies could overcome the shortcomings of previous intervention strategies of targeting the protease active site with small molecule inhibitors that exhibit musculoskeletal toxicity. © 2023 The Authors
Keywords: chemotherapy; colorectal cancer; monoclonal antibody; xenograft; notch; adam10; colo205
Journal Title: Biomedicine and Pharmacotherapy
Volume: 161
ISSN: 0753-3322
Publisher: Elsevier Inc.  
Date Published: 2023-05-01
Start Page: 114494
Language: English
DOI: 10.1016/j.biopha.2023.114494
PROVIDER: scopus
PUBMED: 36917886
PMCID: PMC10499537
DOI/URL:

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85149782300&doi=10.1016%2fj.biopha.2023.114494&partnerID=40&md5=3466cd9a377b2b77473a49fdcc38fc07
Notes: The MSK Cancer Center Support Grant (P30 CA008748) is acknowledged in PubMed and PDF --Corresponding author is MSK authors: Nayanendu Saha and Dimitar Nikolov -- Source: Scopus
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MSK Authors
  1. Dimitar B Nikolov
    86 Nikolov
  2. Yehuda Goldgur
    42 Goldgur
  3. Elisa De Stanchina
    345 De Stanchina
  4. Nayanendu Saha
    23 Saha
  5. Dorothea Dimitrova Robev
    16 Robev
  6. Michael Jason V De La Cruz
    12 De La Cruz
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