Chemical Insights in the Concept of Hybrid Drugs:  The Antitumor Effect of Nitric Oxide-Donating Aspirin Involves A Quinone Methide but Not Nitric Oxide nor Aspirin

Hulsman, Niels; Medema, Jan Paul; Bos, Carina L.; Jongejan, Aldo; Leurs, Rob; Smit, Martine J.; Esch, Iwan J. P. de; Richel, Dick J.

doi:10.1021/jm061371e

Cited by 140 publications

(121 citation statements)

References 41 publications

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“…We first performed liquid chromatography-mass spectrometry (LC-MS/MS) analysis to confirm the generation of QM and cinnamladehyde in cells. The generation of QM from QCA was indirectly confirmed by measuring the level of cellular GSH, because it is impossible to detect QM that is an intermediate and rapidly reacts with nucleophilic GSH 7,20 . As shown in Supplementary Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Cells were treated with various concentrations of QCA or Q 1 for 1.5 h and then the level of GSH was quantitatively measured using Ellman's reagent as previously reported 7 . As shown in Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Accumulating evidence has suggested that abnormal cancer cells are under oxidative stress associated with an increased production of ROS due to disrupted ROS homeostasis and cancer cells have also adapted to oxidative stress by activating antioxidant systems often through the upregulation of glutathione (GSH) 2,[7][8][9][10] . Ironically, cancer cells are also known to utilize ROS to drive proliferation and other events required for tumour development 11,12 .…”

mentioning

confidence: 99%

“…QM was reported to rapidly alkylate GSH, one of the key antioxidant systems in cells and trigger apoptotic cell death 20 . Hulsman et al 7 reported that the potent anticancer activity of nitric oxide-donating aspirin is attributed to QM, but not nitric oxide. Combined use of an ROSgenerating agent with an inhibitor of ROS scavenging systems has been also reported to amplify oxidative stress and be effective in the treatment of advanced solid tumours in terms of both efficacy and selectivity 8,19 .…”

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confidence: 99%

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Amplification of oxidative stress by a dual stimuli-responsive hybrid drug enhances cancer cell death

et al. 2015

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Cancer cells, compared with normal cells, are under oxidative stress associated with the increased generation of reactive oxygen species (ROS) including H 2 O 2 and are also susceptible to further ROS insults. Cancer cells adapt to oxidative stress by upregulating antioxidant systems such as glutathione to counteract the damaging effects of ROS. Therefore, the elevation of oxidative stress preferentially in cancer cells by depleting glutathione or generating ROS is a logical therapeutic strategy for the development of anticancer drugs. Here we report a dual stimuli-responsive hybrid anticancer drug QCA, which can be activated by H 2 O 2 and acidic pH to release glutathione-scavenging quinone methide and ROS-generating cinnamaldehyde, respectively, in cancer cells. Quinone methide and cinnamaldehyde act in a synergistic manner to amplify oxidative stress, leading to preferential killing of cancer cells in vitro and in vivo. We therefore anticipate that QCA has promising potential as an anticancer therapeutic agent.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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Amplification of oxidative stress by a dual stimuli-responsive hybrid drug enhances cancer cell death

et al. 2015

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“…Recently, our group [57]and Hulsman et al [58] raised the possibility that, at least in the case of NO-ASA, the NO releasing moiety is not required for its anti-cancer effect. Both sets of data demonstrate that carboxylic ester hydrolysis of NO-ASA leads to the formation of quinone methide which reacts at least with cellular GSH.…”

Section: The No Requirement For the Anticancer Effect Of No-nsaidsmentioning

confidence: 99%

NO-donating NSAIDs and cancer: An overview with a note on whether NO is required for their action

Rigas

Williams

2008

Nitric Oxide

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Nitric oxide-donating nonsteroidal anti-inflammatory drugs (NO-NSAIDs) consist of a conventional NSAID to which an NO-releasing moiety is attached covalently, often via a spacer molecule. NONSAIDs represent an emerging class of compounds with chemopreventive properties against a variety of cancers, demonstrated in preclinical models including cell culture systems and animal tumor models; their potential efficacy in humans has not been assessed. Their mechanism of action appears complex and involves the generation of reactive oxygen species, suppression of microsatellite instability in mismatch repair-deficient cells, and modulation of several signaling cascades that culminate in inhibited cell renewal and enhanced apoptosis. NO, long appreciated to be able to protect from and also promote cancer, is released form NO-NSAIDs and constitutes their defining property. Existing data are consistent with the notion that NO may mediate their anticancer effect. In addition there is evidence that long term administration of NO-donating compounds is not associated with increased incidence of colon cancer. Whether NO release is required for the anticancer effect of NO-NSAIDs has being questioned by recent data indicating that, at least in the case of NO-aspirin, the NO-releasing moiety may serve as a leaving group while the spacer actually being the moiety responsible for its pharmacological action. Regardless of mechanistic issues, these compounds promise to contribute to the control of cancer.

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Reversible Alkylation of DNA by Quinone Methides

Rokita

2009

Quinone Methides

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Chemical Insights in the Concept of Hybrid Drugs: The Antitumor Effect of Nitric Oxide-Donating Aspirin Involves A Quinone Methide but Not Nitric Oxide nor Aspirin

Cited by 140 publications

References 41 publications

Amplification of oxidative stress by a dual stimuli-responsive hybrid drug enhances cancer cell death

Amplification of oxidative stress by a dual stimuli-responsive hybrid drug enhances cancer cell death

NO-donating NSAIDs and cancer: An overview with a note on whether NO is required for their action

Reversible Alkylation of DNA by Quinone Methides

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