TitleMechanistic insight into the repair of C8-linked pyrrolobenzodiazepine monomer-mediated DNA damage.
Publication TypeJournal Article
Year of Publication2022
AuthorsJoseph AMary, Nahar K, Daw S, Hasan MMahbub, Lo R, Le TBK, Rahman KMiraz, Badrinarayanan A
JournalRSC Med Chem
Volume13
Issue12
Pagination1621-1633
Date Published2022 Dec 14
ISSN2632-8682
Abstract

Pyrrolobenzodiazepines (PBDs) are naturally occurring DNA binding compounds that possess anti-tumor and anti-bacterial activity. Chemical modifications of PBDs can result in improved DNA binding, sequence specificity and enhanced efficacy. More recently, synthetic PBD monomers have shown promise as payloads for antibody drug conjugates and anti-bacterial agents. The precise mechanism of action of these PBD monomers and their role in causing DNA damage remains to be elucidated. Here we characterized the damage-inducing potential of two C8-linked PBD bi-aryl monomers in and investigated the strategies employed by cells to repair the same. We show that these compounds cause DNA damage and efficiently kill bacteria, in a manner comparable to the extensively used DNA cross-linking agent mitomycin-C (MMC). However, in stark contrast to MMC which employs a mutagenic lesion tolerance pathway, we implicate essential functions for error-free mechanisms in repairing PBD monomer-mediated damage. We find that survival is severely compromised in cells lacking nucleotide excision repair and to a lesser extent, in cells with impaired recombination-based repair. Loss of nucleotide excision repair leads to significant increase in double-strand breaks, underscoring the critical role of this pathway in mediating repair of PBD-induced DNA lesions. Together, our study provides comprehensive insights into how mono-alkylating DNA-targeting therapeutic compounds like PBD monomers challenge cell growth, and identifies the specific mechanisms employed by the cell to counter the same.

DOI10.1039/d2md00194b
Alternate JournalRSC Med Chem
PubMed ID36561066
PubMed Central IDPMC9749960