1. Academic Validation
  2. Design, synthesis, and evaluation of a novel pyrrolobenzodiazepine DNA-interactive agent with highly efficient cross-linking ability and potent cytotoxicity

Design, synthesis, and evaluation of a novel pyrrolobenzodiazepine DNA-interactive agent with highly efficient cross-linking ability and potent cytotoxicity

  • J Med Chem. 2001 Mar 1;44(5):737-48. doi: 10.1021/jm001064n.
S J Gregson 1 P W Howard J A Hartley N A Brooks L J Adams T C Jenkins L R Kelland D E Thurston
Affiliations

Affiliation

  • 1 CRC Gene Targeted Drug Design Research Group, Cancer Research Laboratories, University of Nottingham, University Park, Nottingham NG7 2RD, UK.
Abstract

A novel sequence-selective pyrrolobenzodiazepine (PBD) dimer 5 (SJG-136) has been developed that comprises two C2-exo-methylene-substituted DC-81 (3) subunits tethered through their C8 positions via an inert propanedioxy linker. This symmetric molecule is a highly efficient minor groove interstrand DNA cross-linking agent (XL(50) = 0.045 microM) that is 440-fold more potent than melphalan. Thermal denaturation studies show that, after 18 h incubation with calf thymus DNA at a 5:1 DNA/ligand ratio, it increases the T(m) value by 33.6 degrees C, the highest value so far recorded in this assay. The analogous dimer 4 (DSB-120) that lacks substitution/unsaturation at the C2 position elevates melting by only 15.1 degrees C under the same conditions, illustrating the effect of introducing C2-exo-unsaturation which serves to flatten the C-rings and achieve a superior isohelical fit within the DNA minor groove. This behavior is supported by molecular modeling studies which indicate that (i) the PBD units are covalently bonded to guanines on opposite strands to form a cross-link, (ii) 5 has a greater binding energy compared to 4, and (iii) 4 and 5 have equivalent binding sites that span six base pairs. Dimer 5 is significantly more cytotoxic than 4 in a number of human ovarian Cancer cell lines (e.g., IC(50) values of 0.0225 nM vs 7.2 nM, respectively, in A2780 cells). Furthermore, it retains full potency in the cisplatin-resistant cell line A2780cisR (0.024 nM), whereas 4 loses activity (0.21 microM) with a resistance factor of 29.2. This may be due to a lower level of inactivation of 5 by intracellular thiol-containing molecules. A dilactam analogue (21) of 5 that lacks the electrophilic N10-C11/N10'-C11' imine moieties has also been synthesized and evaluated. Although unable to interact covalently with DNA, 21 still stabilizes the helix (Delta T(m) = 0.78 degrees C) and has significant cytotoxicity in some cell lines (i.e., IC(50) = 0.57 microM in CH1 cells), presumably exerting its effect through noncovalent interaction with DNA.

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