Development and Application of a Peroxyl Radical Clock Approach for Measuring Both Hydrogen-Atom Transfer and Peroxyl Radical Addition Rate Constants

Do, Quynh; Lee, David D.; Dinh, Andrew N.; Seguin, Ryan P.; Zhang, Rutan; Xu, Libin

doi:10.1021/acs.joc.0c01920

Cited by 25 publications

(31 citation statements)

References 71 publications

(159 reference statements)

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“…CLnAs have been reported to have a particularly high rate of peroxyl radical generation due to the triene structure of their double bonds [ 58 , 59 ]. Since ferroptosis relies on an extensive accumulation of PUFA-derived lipid peroxides [ 32 , 33 ], we assumed that PunA may trigger ferroptosis in carcinoma cells.…”

Section: Resultsmentioning

confidence: 99%

Punicic Acid Triggers Ferroptotic Cell Death in Carcinoma Cells

et al. 2021

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Plant-derived conjugated linolenic acids (CLnA) have been widely studied for their preventive and therapeutic properties against diverse diseases such as cancer. In particular, punicic acid (PunA), a conjugated linolenic acid isomer (C18:3 c9t11c13) present at up to 83% in pomegranate seed oil, has been shown to exert anti-cancer effects, although the mechanism behind its cytotoxicity remains unclear. Ferroptosis, a cell death triggered by an overwhelming accumulation of lipid peroxides, has recently arisen as a potential mechanism underlying CLnA cytotoxicity. In the present study, we show that PunA is highly cytotoxic to HCT-116 colorectal and FaDu hypopharyngeal carcinoma cells grown either in monolayers or as three-dimensional spheroids. Moreover, our data indicate that PunA triggers ferroptosis in carcinoma cells. It induces significant lipid peroxidation and its effects are prevented by the addition of ferroptosis inhibitors. A combination with docosahexaenoic acid (DHA), a known polyunsaturated fatty acid with anticancer properties, synergistically increases PunA cytotoxicity. Our findings highlight the potential of using PunA as a ferroptosis-sensitizing phytochemical for the prevention and treatment of cancer.

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Section: Resultsmentioning

confidence: 99%

Punicic Acid Triggers Ferroptotic Cell Death in Carcinoma Cells

et al. 2021

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“…There is reason to believe that 14-dehydrosterols like 14-dZym and 14-dZyme would also form reactive sterol electrophiles under peroxidation conditions, although the free radical chemistry of these sterols has not been explored in detail. Conjugated dienes like those present in these structures typically undergo peroxyl radical addition reactions, giving reactive allylic epoxide electrophiles, as shown in Figure B. , …”

Section: Discussionmentioning

confidence: 99%

Dose–Response Effects of 7-Dehydrocholesterol Reductase Inhibitors on Sterol Profiles and Vesicular Stomatitis Virus Replication

Korade

Tallman

Kim

et al. 2022

ACS Pharmacol. Transl. Sci.

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Cholesterol is ubiquitous in cells; it plays a critical role in membrane structure and transport as well as in intracellular trafficking processes. There are suggestions that cholesterol metabolism is linked to innate immunity with inhibitors of DHCR7, the last enzyme in the cholesterol pathway, suggested to have potential as viral therapeutics nearly a decade ago. In fact, there are a number of highly prescribed pharmaceuticals that are off-target inhibitors of DHCR7, causing increased cellular levels of 7-dehydrodesmosterol (7-DHD) and 7-dehydrocholesterol (7-DHC). We report here dose–response studies of six such inhibitors on late-stage cholesterol biosynthesis in Neuro2a cells as well as their effect on infection of vesicular stomatitis virus (VSV). Four of the test compounds are FDA-approved drugs (cariprazine, trazodone, metoprolol, and tamoxifen), one (ifenprodil) has been the object of a recent Phase 2b COVID trial, and one (AY9944) is an experimental compound that has seen extensive use as a DHCR7 inhibitor. The three FDA-approved drugs inhibit replication of a GFP-tagged VSV with efficacies that mirror their effect on DHCR7. Ifenprodil and AY9944 have complex inhibitory profiles, acting on both DHCR7 and DHCR14, while tamoxifen does not inhibit DHCR7 and is toxic to Neuro2a at concentrations where it inhibits the Δ7−Δ8 isomerase of the cholesterol pathway. VSV itself affects the sterol profile in Neuro2a cells, showing a dose–response increase of dehydrolathosterol and lathosterol, the substrates for DHCR7, with a corresponding decrease in desmosterol and cholesterol. 7-DHD and 7-DHC are orders of magnitude more vulnerable to free radical chain oxidation than other sterols as well as polyunsaturated fatty esters, and the effect of these sterols on viral infection is likely a reflection of this fact of Nature.

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“…It is noteworthy that the magnitudes of the rate constants, which we have ascribed to peroxyl radical addition (10 5 –10 6 M –1 s –1 ), are even larger than those that have been reported for addition to highly conjugated species, such as the polyenes β-carotene ( cf. Figure D) and retinal (∼6 × 10 3 M –1 s –1 ) . The reactivity of the conjugated polyenes is confounded by the reversibility of the addition (and the O 2 addition which follows it), which generally leads to the measured rate constants being lower bounds of the true rate constants .…”

Section: Discussionmentioning

confidence: 99%

“…Figure 1D) and retinal (∼6 × 10 3 M −1 s −1 ). 44 The reactivity of the conjugated polyenes is confounded by the reversibility of the addition (and the O 2 addition which follows it), which generally leads to the measured rate constants being lower bounds of the true rate constants. 25 In the case of the metal bis(thiosemicarbazone)s, the subsequent HAT reaction from the weak N−H bond can drive the reaction forward.…”

Section: ■ Discussionmentioning

confidence: 99%

Radical-Trapping Antioxidant Activity of Copper and Nickel Bis(Thiosemicarbazone) Complexes Underlies Their Potency as Inhibitors of Ferroptotic Cell Death

2021

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Herein we demonstrate that copper(II)-diacetylbis(N 4 -methylthiosemicarbazone)(CuATSM), clinical candidate for the treatment of ALS and Parkinson's disease, is a highly potent radical-trapping antioxidant (RTA) and inhibitor of (phospho)lipid peroxidation. In THF autoxidations, CuATSM reacts with THF-derived peroxyl radicals with k inh = 2.2 × 10 6 M −1 s −1 roughly 10-fold greater than α-tocopherol (α-TOH), Nature's best RTA. Mechanistic studies reveal no H/D kinetic isotope effects and a lack of rate-suppressing effects from Hbonding interactions, implying a different mechanism from α-TOH and other canonical RTAs, which react by H-atom transfer (HAT). Similar reactivity was observed for the corresponding Ni 2+ complex and complexes of both Cu 2+ and Ni 2+ with other bis(thiosemicarbazone) ligands. Computations corroborate the experimental finding that rate-limiting HAT cannot account for the observed RTA activity and instead suggest that the reversible addition of a peroxyl radical to the bis(thiosemicarbazone) ligand is responsible. Subsequent HAT or combination with another peroxyl radical drives the reaction forward, such that a maximum of four radicals are trapped per molecule of CuATSM. This sequence is supported by spectroscopic and mass spectrometric experiments on isolated intermediates. Importantly, the RTA activity of CuATSM (and its analogues) translates from organic solution to phospholipid bilayers, thereby accounting for its (their) ability to inhibit ferroptosis. Experiments in mouse embryonic fibroblasts and hippocampal cells reveal that lipophilicity as well as inherent RTA activity contribute to the potency of ferroptosis rescue, and that one compound (CuATSP) is almost 20-fold more potent than CuATSM and among the most potent ferroptosis inhibitors reported to date.

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Development and Application of a Peroxyl Radical Clock Approach for Measuring Both Hydrogen-Atom Transfer and Peroxyl Radical Addition Rate Constants

Cited by 25 publications

References 71 publications

Punicic Acid Triggers Ferroptotic Cell Death in Carcinoma Cells

Punicic Acid Triggers Ferroptotic Cell Death in Carcinoma Cells

Dose–Response Effects of 7-Dehydrocholesterol Reductase Inhibitors on Sterol Profiles and Vesicular Stomatitis Virus Replication

Radical-Trapping Antioxidant Activity of Copper and Nickel Bis(Thiosemicarbazone) Complexes Underlies Their Potency as Inhibitors of Ferroptotic Cell Death

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