Intramolecular NH···S Hydrogen Bonding in the Zinc Thiolate Complex [Tm<sup>Ph</sup>]ZnSCH<sub>2</sub>C(O)NHPh:  A Mechanistic Investigation of Thiolate Alkylation as Probed by Kinetics Studies and by Kinetic Isotope Effects

Morlok, Melissa M.; Janak, Kevin E.; Zhu, Guang; Quarless, Duncan A.; Parkin, Gerard

doi:10.1021/ja0536670

Cited by 82 publications

(100 citation statements)

References 75 publications

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“…5). The frequencies of bending modes have been shown to contribute significantly to the normal secondary isotope effect observed for S N 2 reactions in alkyl and ethyl halides (17)(18)(19)(20). In our computational model, the O-H stretch and OH ip bend are clean modes that are easily mapped in the H/D-substituted reactant and TS complexes.…”

Section: Resultsmentioning

confidence: 85%

Further insights into the mechanism of the reaction of activated bleomycin with DNA

Chow

Liu

Solomon

2008

Proc. Natl. Acad. Sci. U.S.A.

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Bleomycin (BLM) is a glycopeptide anticancer drug that effectively carries out single-and double-stranded DNA cleavage. Activated BLM (ABLM), a low-spin ferric-hydroperoxide, BLM-Fe III -OOH, is the last intermediate detected before DNA cleavage. We have previously shown through experiments and DFT calculations that both ABLM decay and reaction with H atom donors proceed via direct H atom abstraction. However, the rate of ABLM decay had been previously found, based on indirect methods, to be independent of the presence of DNA. In this study, we use a circular dichroism (CD) feature unique to ABLM to directly monitor the kinetics of ABLM reaction with a DNA oligonucleotide. Our results show that the ABLM ؉ DNA reaction is appreciably faster, has a different kinetic isotope effect, and has a lower Arrhenius activation energy than does ABLM decay. In the ABLM reaction with DNA, the small normal k H/kD ratio is attributed to a secondary solvent effect through DFT vibrational analysis of reactant and transition state (TS) frequencies, and the lower E a is attributed to the weaker bond involved in the abstraction reaction (C-H for DNA and N-H for the decay in the absence of DNA). The DNA dependence of the ABLM reaction indicates that DNA is involved in the TS for ABLM decay and thus reacts directly with BLM-Fe III -OOH instead of its decay product.non-heme iron ͉ kinetics ͉ isotope effects ͉ reactivity B leomycins (BLMs) (Fig. 1) are a group of glycopeptide antibiotics that are used clinically to treat Hodgkin's lymphoma, head and neck tumors, and testicular cancer (1-4). Activated BLM (ABLM), a low-spin ferric hydroperoxide complex, BLM-Fe III -OOH, (5-7) is the last intermediate detected before DNA strand cleavage (8, 9). ABLM can be formed from the reaction of Fe II BLM with O 2 and one additional electron (8, 10). Through deuterium and tritium labeling studies, it was established that DNA cleavage involves H atom abstraction from the C4Ј of the deoxyribose sugar (11,12). O 18 isotope studies indicated that O-O bond cleavage is in the rate-determining step (13). We have recently provided strong experimental and computational evidence that ABLM decay and reactions with H atom donors proceed via H atom abstraction by the low-spin ferric hydroperoxide (14). However, an alternative mechanism that parallels heme chemistry was recently reemphasized, where BLM-Fe III -OOH is protonated and decays to produce the H atom abstracting species, BLM-Fe V AO, via heterolytic cleavage of the O-O bond (15). This heterolytic cleavage mechanism would not show a dependence on H atom availability and would appear to be ruled out by the fact that the decay of ABLM is accelerated by H atom donors. However, the rate of ABLM reaction with DNA as the substrate had been experimentally observed to be very similar to that in the absence of DNA (8). In those experiments, the rate of the ABLM reaction was studied by using primarily the indirect method of quantitative analysis of DNA product. We have defined a method to directly monitor the decay...

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Section: Resultsmentioning

confidence: 85%

Further insights into the mechanism of the reaction of activated bleomycin with DNA

Chow

Liu

Solomon

2008

Proc. Natl. Acad. Sci. U.S.A.

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“…74,75 In this regard, the thiolate copmplexes [Tm R ]ZnSCH 2 C(O)N(H)Ph (R = Ph, Bu t ), which incorporate an N-H hydrogen bonding functionality, provide a more refined structural analogue for the Ada protein. 71b, 76 The presence of hydrogen bonding interactions within [Tm R ]ZnSCH 2 C(O)N(H)Ph was confirmed by X-ray diffraction, as illustrated in Figure 13. Selected data pertaining to the hydrogen bonding interactions are summarized in Table 3 In an effort to discern further details concerned with the nature of alkylation reactions involving [Tm R ]ZnSR derivatives, a series of kinetics studies were performed for the reaction of [Tm Ph ]ZnSCH 2 C(O)N(H)Ph with MeI (Scheme 14).…”

Section: 5-aminolevulinate Dehydratase and Lead Poisoningmentioning

confidence: 90%

“…Selected data pertaining to the hydrogen bonding interactions are summarized in Table 3 In an effort to discern further details concerned with the nature of alkylation reactions involving [Tm R ]ZnSR derivatives, a series of kinetics studies were performed for the reaction of [Tm Ph ]ZnSCH 2 C(O)N(H)Ph with MeI (Scheme 14). 76 However, the derived kinetics were incapable of distinguishing between associative and dissociative reaction mechanisms. Specifically, although the kinetics indicate a second order rate law, such an observation does not prove that the mechanism is associative because a dissociative reaction can also exhibit second order kinetics if re-coordination of RS − to the zinc center competes with alkylation by MeI.…”

Section: 5-aminolevulinate Dehydratase and Lead Poisoningmentioning

confidence: 99%

Applications of tripodal [S3] and [Se3] L2X donor ligands to zinc, cadmium and mercury chemistry: organometallic and bioinorganic perspectives

Parkin

2007

New J. Chem.

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“…[15] The influence of the nature of the metal cation on the nucleophilicity of p-toluenethiolate has been studied both experimentally and by DFT computation, revealing that nickel-and zinc-thiolate complexes are more reactive than ironand cobalt-thiolate complexes. [16] In the case of zinc complexes, both the composition of the ligand set, [17][18][19][20] in terms of donating capability and steric hindrance, and the presence of hydrogen bonding towards the reactive thiolate [21][22][23][24] have been shown to modulate the reactivity against electrophiles.…”

Section: Introductionmentioning

confidence: 99%

“…In the case of zinc-bound thiolates, several studies provide the rate constants of their reaction against electrophile but it is difficult from these data to have a general view of their relative nucleophilicities as the experimental conditions are not the same. [19,21,23,24,29] Such a determination would however be of great significance in order to evaluate the relative reactivity of enzymes and to determine which thiolate is reactive in zinc active sites including more than one cysteinate.…”

Section: Introductionmentioning

confidence: 99%

Nucleophilicity of zinc-bound thiolates

Picot

Ohanessian

Frison

2009

Comptes Rendus. Chimie

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Abstract:The nucleophilicity of biomimetic zinc-thiolate complexes against methyl iodide has been studied. The activation barrier has been computed with the B3LYP functional. The reactivity depends on the global charge, the nature of the ligand set and the presence of hydrogen bonds. This shows that the understanding of zinc site nucleophilicity can not be achieved by the knowledge of the atom donor set for zinc only, as currently done in the literature. Moreover, we show that sulfur proton affinity and activation barrier are directly proportional, thus providing a good nucleophilicity index for zinc-bound thiolate.Keywords: Density functional calculations, zinc, Nucleophilicity, Hydrogen bonds, S ligands, Tridentate ligands, bioinorganic chemistry Résumé: Nucléophilie du motif zinc-thiolateNous avons étudié la réactivité nucléophilie de complexes biomimétiques du zinc, incluant le motif Zn-thiolate, vis-à-vis de l'iodure de méthyle. La barrière d'activation a été calculée en utilisant la fonctionnelle de la densité B3LYP. Les facteurs influençant la réactivité (charge totale, nature des ligands du métal, liaisons hydrogène) montrent que la seule connaissance des atomes liés au zinc, comme souvent fait dans la littérature, ne permet pas de comprendre la nucléophilie du site. De plus, l'affinité protonique du soufre corrèle avec la barrière d'activation, fournissant ainsi un indice de nucléophilie performant pour le motif zincthiolate.

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Intramolecular NH···S Hydrogen Bonding in the Zinc Thiolate Complex [Tm^Ph]ZnSCH₂C(O)NHPh: A Mechanistic Investigation of Thiolate Alkylation as Probed by Kinetics Studies and by Kinetic Isotope Effects

Cited by 82 publications

References 75 publications

Further insights into the mechanism of the reaction of activated bleomycin with DNA

Further insights into the mechanism of the reaction of activated bleomycin with DNA

Applications of tripodal [S3] and [Se3] L2X donor ligands to zinc, cadmium and mercury chemistry: organometallic and bioinorganic perspectives

Nucleophilicity of zinc-bound thiolates

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Intramolecular NH···S Hydrogen Bonding in the Zinc Thiolate Complex [TmPh]ZnSCH2C(O)NHPh: A Mechanistic Investigation of Thiolate Alkylation as Probed by Kinetics Studies and by Kinetic Isotope Effects

Cited by 82 publications

References 75 publications

Further insights into the mechanism of the reaction of activated bleomycin with DNA

Further insights into the mechanism of the reaction of activated bleomycin with DNA

Applications of tripodal [S3] and [Se3] L2X donor ligands to zinc, cadmium and mercury chemistry: organometallic and bioinorganic perspectives

Nucleophilicity of zinc-bound thiolates

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Product

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Intramolecular NH···S Hydrogen Bonding in the Zinc Thiolate Complex [Tm^Ph]ZnSCH₂C(O)NHPh: A Mechanistic Investigation of Thiolate Alkylation as Probed by Kinetics Studies and by Kinetic Isotope Effects