Bifunctional Rhodium Intercalator Conjugates as Mismatch-Directing DNA Alkylating Agents

Schatzschneider, Ulrich; Barton, Jacqueline K.

doi:10.1021/ja048543m

Cited by 37 publications

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“…[12][13][14] Studies of these conjugates demonstrate that the Rh moiety tunes the reactivity of the agent linked to the metalloinsertor. Figure 1) promotes lightindependent DNA backbone cleavage showing more localized cleavage sites than those generated by [Fe(EDTA)] 2−.15-17 The complex Cu tethered to various DNA-binding moieties exhibits efficient DNA scission.…”

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“…The Rh complex [Rh (bpy) 2 (chrysi)] 3+ in Rh+Cu ( Figure 1) was synthesized as described. 18 For the conjugate Rh −Cu, we prepared its 12 with the modified phen ligand (phen' = 5-(1,10-phenanthrolin-5-ylamino)-5-oxopentanoic acid), 19 as described in Scheme 1 and Supporting Information. Copper coordination was accomplished in situ (vide infra), affording the conjugate Rh−Cu.…”

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DNA Strand Cleavage near a CC Mismatch Directed by a Metalloinsertor

2007

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Reagents for recognition and efficient cleavage of mismatched DNA without photoactivation were designed. They contain a combination of a mismatch-directing metalloinsertor, [Rh (bpy) 2 (chrysi)] 3+ (chrysi = 5,6-chrysenequinone diimine), and an oxidative cleavage functionality, [Cu(phen) 2 ] + (Cu). Both unconjugated (Rh+Cu) and conjugated (Rh−Cu) frameworks of the Rh insertor and Cu were prepared. Compared to Cu, both constructs Rh+Cu and Rh−Cu exhibit efficient site-specific DNA scission only with mismatched DNA, confirmed by experiments with 32 P-labeled oligonucleotides. Furthermore, these studies indicate that DNA cleavage occurs near the mismatch in the minor groove and on both strands. Interestingly, the order of reactivity of the three systems with a CC mismatch is Rh+Cu > Rh−Cu ≫ Cu. Rh binding appears to direct Cu reactivity with or without tethering. These results illustrate advantages and disadvantages in bifunctional conjugation.Base pair mismatches in the genome can arise from damage by environmental agents (i.e. UV light), a wide range of genotoxic chemicals as well as errors made by DNA polymerase during synthesis. 1,2 These base mispairs are generally corrected by the mismatch repair machinery; if they are not repaired, however, mutations arise, which subsequently lead to increased cancer susceptibility. [1][2][3][4] To recognize DNA mismatches, we have developed rhodium complexes containing an intercalating ligand that is too bulky to insert at stable matched sites and instead preferentially binds to thermodynamically destabilized mismatched sites. [5][6][7][8] The complex [Rh (bpy) 2 (chrysi)] 3+ (Figure 1), designed by our laboratory, targets more than 80% of mismatches with high selectivity and promotes single-stranded cleavage of the DNA backbone next to the mismatch site upon photoactivation. [5][6][7] More interestingly, this Rh complex can detect and photocleave a single base mismatch in a linearized 2725 base pair plasmid. 6 We have recently elucidated how the complex [Rh(bpy) 2 (chrysi)] 3+ interacts with the mismatched sites in DNA by crystal structural determination and NMR analysis. 9,10 The binding mode of this complex to the mismatch site is not classical intercalation but rather insertion. The expansive chrysi ligand is deeply inserted into the mismatch site in the minor groove resulting in the complete ejection of mismatched nucleotides from the base stack.Recently, this mismatch-specific metalloinsertor has shown promise in cell-selective strategies for chemotherapeutic design. 11 The Rh complex selectively inhibits cellular proliferation in mismatch repair-deficient cells as compared to mismatch repair-proficient cells. In another possible chemotherapeutic approach, bifunctional conjugates that combine a metalloinsertor targeting DNA mismatches with a reactive species such as an aniline mustard or a cisplatin *To whom correspondence should be addressed. Email: jkbarton@caltech.edu. Supporting Information Available: Preparation of the conjugate Rh-Cu and Figures S1-S3. ...

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DNA Strand Cleavage near a CC Mismatch Directed by a Metalloinsertor

2007

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“…The assignment of the N7 atom of residue A6 as the binding site of the dirhodium complex, instead of the N7 atom of residue A7, is mainly due to the downfield chemical shift of the H8 proton of A6 (Dd = 0.14 ppm) in contrast to the upfield shift (Dd = À0.12 ppm) of the H8 proton of the A7 residue. The downfield shift of A6H8 is rather small when compared with the dirhodium adduct from the reaction of Rh 2 (O 2 CCH 3 ) 4 with the same AA12 mer (Dd = 0.55 ppm) [29] in which the dirhodium unit binds to the N7 atom of the A6 residue. In the present case, however, the change in chemical shift for A6H8 reflects both the downfield shift induced by the coordinative binding of the metal on the protons near the metal-binding site (inductive effect) [30] and the upfield shift induced by the intercalation effect on the protons located above or below the intercalator, due to the ring current of the aromatic group.…”

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2D NMR Spectroscopic Evidence for Unprecedented Interactions of cis‐[Rh₂(dap)(μ‐O₂CCH₃)₂(η¹‐O₂CCH₃)(CH₃OH)](O₂CCH₃) with a DNA Oligonucleotide: Combination of Intercalative and Coordinative Binding

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“…[15] Selbst die Erkennung von Basenfehlpaarungen mittels intercalierender Metallkomplexe ist möglich; [16] die Kombination alkylierender Seitengruppen mit intercalierenden Einheiten in entsprechenden Konjugaten ermöglicht die kovalente Markierung fehlgepaarter DNA-Basen und weist Wege zu neuen chemotherapeutischen Wirkstoffen. [17] Allerdings geht nicht jeder Komplex, der aufgrund planarer aromatischer Liganden theoretisch intercalieren kann, auch diese Art der Bindung ein. So wurde für einige Beispiele eine Abhängigkeit der Art der Bindung von Faktoren wie der DNA-Basensequenz, dem Substitutionsmuster des aromatischen Liganden und der relativen Konzentration von DNA und Metallkomplex postuliert.…”

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Erzwingung oder Erkennung einer dreiarmigen DNA‐Kreuzung: Metall‐Tripelhelicat trifft Doppelhelix

Müller

Lippert

2006

Angewandte Chemie

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Bifunctional Rhodium Intercalator Conjugates as Mismatch-Directing DNA Alkylating Agents

Cited by 37 publications

References 28 publications

DNA Strand Cleavage near a CC Mismatch Directed by a Metalloinsertor

DNA Strand Cleavage near a CC Mismatch Directed by a Metalloinsertor

2D NMR Spectroscopic Evidence for Unprecedented Interactions of cis‐[Rh₂(dap)(μ‐O₂CCH₃)₂(η¹‐O₂CCH₃)(CH₃OH)](O₂CCH₃) with a DNA Oligonucleotide: Combination of Intercalative and Coordinative Binding

Erzwingung oder Erkennung einer dreiarmigen DNA‐Kreuzung: Metall‐Tripelhelicat trifft Doppelhelix

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Bifunctional Rhodium Intercalator Conjugates as Mismatch-Directing DNA Alkylating Agents

Cited by 37 publications

References 28 publications

DNA Strand Cleavage near a CC Mismatch Directed by a Metalloinsertor

DNA Strand Cleavage near a CC Mismatch Directed by a Metalloinsertor

2D NMR Spectroscopic Evidence for Unprecedented Interactions of cis‐[Rh2(dap)(μ‐O2CCH3)2(η1‐O2CCH3)(CH3OH)](O2CCH3) with a DNA Oligonucleotide: Combination of Intercalative and Coordinative Binding

Erzwingung oder Erkennung einer dreiarmigen DNA‐Kreuzung: Metall‐Tripelhelicat trifft Doppelhelix

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2D NMR Spectroscopic Evidence for Unprecedented Interactions of cis‐[Rh₂(dap)(μ‐O₂CCH₃)₂(η¹‐O₂CCH₃)(CH₃OH)](O₂CCH₃) with a DNA Oligonucleotide: Combination of Intercalative and Coordinative Binding