An Exceptionally Potent Inducer of Cytoprotective Enzymes

Dinkova‐Kostova, Albena T.; Talalay, Paul; Sharkey, John; Zhang, Ying; Holtzclaw, W. David; Wang, Xiu Jun; David, Emilie; Schiavoni, Katherine H.; Finlayson, Stewart D.; Mierke, Dale F.; Honda, Tadashi

doi:10.1074/jbc.m110.163485

Cited by 100 publications

(60 citation statements)

References 39 publications

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“…33c Variable temperature NMR also demonstrated the reversibility of the reaction, as 411 was regenerated upon heating of the DTT- 411 adduct. 33c Other cyanoenones, such as tricyclic TBE-31 ( 434 ) 149 and monocyclic compounds 435-437 , 150 have shown similar reactivity towards thiols using the same UV and 1 H NMR methods (Figure 35). Surprisingly, compounds 439-440 showed no reactivity with DTT and 441-442 showed greatly reduced reactivity requiring 10 equiv of DTT for adduct formation, thereby demonstrating the importance of the surrounding structure on electrophilicity.…”

Section: Dually Activated Michael Acceptorsmentioning

confidence: 98%

Covalent Modifiers: A Chemical Perspective on the Reactivity of α,β-Unsaturated Carbonyls with Thiols via Hetero-Michael Addition Reactions

et al. 2016

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Although Michael acceptors display a potent and broad spectrum of bioactivity, they have largely been ignored in drug discovery because of their presumed indiscriminate reactivity. As such, a dearth of information exists relevant to the thiol reactivity of natural products and their analogs possessing this moiety. In the midst of recently approved acrylamide-containing drugs, it is clear that a good understanding of the hetero-Michael addition reaction and the relative reactivities of biological thiols with Michael acceptors under physiological conditions is needed for the design and use of these compounds as biological tools and potential therapeutics. This perspective provides information that will contribute to this understanding, such as kinetics of thiol addition reactions, bioactivities, as well as steric and electronic factors that influence the electrophilicity and reversibility of Michael acceptors. This perspective is focused on α,β-unsaturated carbonyls given their preponderance in bioactive natural products.

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Section: Dually Activated Michael Acceptorsmentioning

confidence: 98%

Covalent Modifiers: A Chemical Perspective on the Reactivity of α,β-Unsaturated Carbonyls with Thiols via Hetero-Michael Addition Reactions

et al. 2016

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“…1 The oral administration of 1 indicated excellent oral bioavailability, and resulted in a dose-dependent induction of cytoprotective enzymes, NAD(P)H:quinone oxidoreductase 1 (NQO1), and glutathione S-transferase (GST) in the stomach, skin, and liver. 2 Furthermore, longterm (five days per week for four weeks) daily topical applications in small quantities (200 nmol) of 1 caused a robust systemic induction of the Keap1/Nrf2/ARE pathway and decreased 6-thioguanine incorporation into DNA of skin, blood, and liver of azathioprine-treated mice, indicating extraordinary bioavailability and efficacy. 3 Tricyclic compound 1 is orally highly active against aflatoxininduced liver cancer in rats.…”

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An Improved Synthesis of a Hydroxymethyl Tricyclic Ketone from Cyclohexanone, the Key Processes for the Synthesis of a Highly Potent Anti-inflammatory and Cytoprotective Agent

et al. 2013

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An improved synthesis of hydroxymethyl tricyclic ketone, (±)-(4aS,8aS)-8a-(hydroxymethyl)-1, 1,4a-trimethyl-3,4,4a,6,7,8,8a,9,10,10a-decahydrophenanthren-2(1H)-one, in five steps (34% yield) from cyclohexanone has been successfully established. Accordingly, 10 grams of a highly potent anti-inflammatory and cytoprotective agent, (±)-(4bS,8aR,10aS)-10a- 8,4b,7,8,8a,9,10,, was obtained in 15 steps (9.2% overall yield) via the hydroxymethyl tricyclic ketone from 32 grams of cyclohexanone.Tricyclic compound 1 (code number in house, TBE-31, Scheme 1) is the most potent activator of the Keap1/Nrf2/ARE (antioxidant response element) pathway so far. 1 The oral administration of 1 indicated excellent oral bioavailability, and resulted in a dose-dependent induction of cytoprotective enzymes, NAD(P)H:quinone oxidoreductase 1 (NQO1), and glutathione S-transferase (GST) in the stomach, skin, and liver. 2 Furthermore, longterm (five days per week for four weeks) daily topical applications in small quantities (200 nmol) of 1 caused a robust systemic induction of the Keap1/Nrf2/ARE pathway and decreased 6-thioguanine incorporation into DNA of skin, blood, and liver of azathioprine-treated mice, indicating extraordinary bioavailability and efficacy. 3 Tricyclic compound 1 is orally highly active against aflatoxininduced liver cancer in rats. 4 Thus, we envision the preclinical and future clinical studies on 1 as a first in class therapeutic agent for the treatment of inflammation and cancer. For this objective, initially we had to improve the synthesis of hydroxymethyl tricyclic ketone 4c, (±)-(4aS,8aS)-8a-(hydroxymethyl)-1,1,4a-trimethyl-3,4,4a,6,7,8,8a,9,10,10a-decahydrophenanthren-2(1H)-one, from cyclohexanone in order to obtain 10-100 grams of 1. Herein, we report the improved synthesis of 4c from cyclohexanone.We have previously reported the synthesis of 4c from cyclohexanone, but under these processes the reductive methylation step of 3 gives three compounds 4a-c, whose separation requires column chromatography. Moreover, the consequent conversion of 4a and 4b into TBE-31 requires additional steps than that of 4c (Scheme 1). 1,5 Although these three intermediates 4a-c were very useful for the synthesis of various other tricyclic compounds, 6 the previously reported synthesis 1 of 1 could not give a sufficient amount of 1 for preclinical studies. For the efficient synthesis of 1, only intermediate 4c is necessary. Thus we envisioned that, if the new compound 8a can be obtained in a few steps from the previously reported acid 2, which is prepared in two steps from cyclohexanone, 6,7 reductive methylation of 8a would only produce 4c (Scheme 2).Initially we attempted to directly prepare 8a from 2 by selective reduction of the carboxyl group with diborane (strategy A). This method did not give 8a, instead it gave some undesired compounds without UV absorption at 254 nm on TLC. Secondly, we tried to obtain 8a through selective reduction of acyl chloride 5 with reducing agents (strategy B in Scheme 2). Acyl chloride 5 was prepared ...

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“…We have previously shown that cyanoenones react with cysteine residues in Keap1, the main negative regulator of Nrf2. 6,7,14 In a variety of cell lines and animal tissues, we have demonstrated that Nrf2 activation by cyanoenones leads to the coordinate transcriptional upregulation of NQO1 together with other Nrf2-target genes, such as multiple isoforms of glutathione S-transferase (GST), heme oxygenase 1, -glutamyl cysteine ligase catalytic (GCLC) subunit, as well as an ARE-luciferase reporter, a direct readout of Nrf2-mediated transcription. 6,7,14 Furthermore, Nrf2 is required for the NQO1 inducer activity of cyanoenones as NQO1 induction is not observed in Nrf2-deficient cells.…”

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confidence: 99%

“…6,7,14 In a variety of cell lines and animal tissues, we have demonstrated that Nrf2 activation by cyanoenones leads to the coordinate transcriptional upregulation of NQO1 together with other Nrf2-target genes, such as multiple isoforms of glutathione S-transferase (GST), heme oxygenase 1, -glutamyl cysteine ligase catalytic (GCLC) subunit, as well as an ARE-luciferase reporter, a direct readout of Nrf2-mediated transcription. 6,7,14 Furthermore, Nrf2 is required for the NQO1 inducer activity of cyanoenones as NQO1 induction is not observed in Nrf2-deficient cells. 6,7 The electron affinity of these new compounds can be calculated via the energy of their lowest unoccupied molecular orbital, E (LUMO) in eV, and was quantified at two quantum mechanical levels: the semiempirical AM1, 16 and the density functional theory (DFT) 17 (see Table 1).…”

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confidence: 99%

“…6,7,14 Furthermore, Nrf2 is required for the NQO1 inducer activity of cyanoenones as NQO1 induction is not observed in Nrf2-deficient cells. 6,7 The electron affinity of these new compounds can be calculated via the energy of their lowest unoccupied molecular orbital, E (LUMO) in eV, and was quantified at two quantum mechanical levels: the semiempirical AM1, 16 and the density functional theory (DFT) 17 (see Table 1). Briefly, no solvent model was used for the calculation of the LUMO energies.…”

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confidence: 99%

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Electron affinity of tricyclic, bicyclic, and monocyclic compounds containing cyanoenones correlates with their potency as inducers of a cytoprotective enzyme

Bensasson

Dinkova‐Kostova

Zheng

et al. 2016

Bioorganic & Medicinal Chemistry Letters

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An Exceptionally Potent Inducer of Cytoprotective Enzymes

Cited by 100 publications

References 39 publications

Covalent Modifiers: A Chemical Perspective on the Reactivity of α,β-Unsaturated Carbonyls with Thiols via Hetero-Michael Addition Reactions

Covalent Modifiers: A Chemical Perspective on the Reactivity of α,β-Unsaturated Carbonyls with Thiols via Hetero-Michael Addition Reactions

An Improved Synthesis of a Hydroxymethyl Tricyclic Ketone from Cyclohexanone, the Key Processes for the Synthesis of a Highly Potent Anti-inflammatory and Cytoprotective Agent

Electron affinity of tricyclic, bicyclic, and monocyclic compounds containing cyanoenones correlates with their potency as inducers of a cytoprotective enzyme

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