Selective distribution of oxysterols in atherosclerotic lesions and human plasma lipoproteins

The presence of oxidized sterols (oxysterols) in human serum and lesions has been linked to the initiation and progression of atherosclerosis. Data concerning the origin, identity and quantity of oxysterols in biological samples are controversial and inconsistent. This inconsistency may arise from different analytical methods or handling conditions used by different investigators. In the present study, oxysterol levels and distribution were analyzed by an optimized GC-MS method, in human atherosclerotic coronary and carotid lesions, in atherosclerotic apolipoprotein E deficient mice (E degrees mice) and in native and in vitro oxidized human low and high density lipoproteins. Oxysterol levels were analyzed with a limit of detection of 0.06 - 0.24 ng, with 25-hydroxycholesterol (25-OH) being the least sensitive. In human coronary and carotid lesions, obtained from endatherectomic samples, 27-hydroxycholesterol (27-OH) was the major oxysterol, with about 85% as sterols esterified to fatty acids. While total cholesterol and oxysterols levels were similar in both kinds of human lesions, oxysterol distribution was significantly different. In coronary lesions the mean levels of 27-OH and 7beta-hydroxycholesterol (7beta-OH) were 38% and 20% of total oxysterols, whereas in carotid lesions their mean levels were 66% and 5%, respectively. Unlike in human aortic lesions, 27-OH was entirely absent in E degrees mice, whereas the level of 7alpha-hydroxycholesterol (7alpha-OH) was 28% of the total oxysterols, vs. 5% in human coronary lesions. As 27-OH is an enzymatic product of cholesterol oxidation, this finding may indicate that such an enzymatic process does not take place in E degrees mice.     

Xanthomonas maltophilia CBS 897.97 as a source of new 7beta- and 7alpha-hydroxysteroid dehydrogenases and cholylglycine hydrolase: improved biotransformations of bile acids

The paper reports the partial purification and characterization of the 7beta- and 7alpha-hydroxysteroid dehydrogenases (HSDH) and cholylglycine hydrolase (CGH), isolated from Xanthomonas maltophilia CBS 897.97. The activity of 7beta-HSDH and 7alpha-HSDH in the reduction of the 7-keto bile acids is determined. The affinity of 7beta-HSDH for bile acids is confirmed by the reduction, on analytical scale, to the corresponding 7beta-OH derivatives. A crude mixture of 7alpha- and 7beta-HSDH, in soluble or immobilized form, is employed in the synthesis, on preparative scale, of ursocholic and ursodeoxycholic acids starting from the corresponding 7alpha-derivatives. On the other hand, a partially purified 7beta-HSDH in a double enzyme system, where the couple formate/formate dehydrogenase allows the cofactor recycle, affords 6alpha-fluoro-3alpha, 7beta-dihydroxy-5beta-cholan-24-oic acid (6-FUDCA) by reduction of the corresponding 7-keto derivative. This compound is not obtainable by microbiological route. The efficient and mild hydrolysis of glycinates and taurinates of bile acids with CGH is also reported. Very promising results are also obtained with bile acid containing raw materials.     

Guaianolides from two subspecies of Amphoricarpos neumayeri from Montenegro

Quantitative (1)H NMR measurements revealed delta(11(13)) sesquiterpene gamma-lactones as the main constituents ( >or= 1% per weight of dried plant material) in the crude extracts of the aerial parts of Amphoricarpos neumayeri ssp. neumayeri and ssp. murbeckii from mountains Orjen and Visitor (Montenegro), respectively. Preparative silica gel chromatography afforded thirteen guai-11(13)-en-12,6alpha-olides, named amphoricarpolides (1-13), with the same relative (1alphaH,4betaH,5alphaH,7betaH) configuration of the basic skeleton. The common structural feature of lactones 2-13 was 3beta,15-dioxygenation pattern. The only exception was 1 (3-deoxyamphoricarpolide), containing a single oxygen substituent (15-OH). Eight of them exhibited an additional oxygen substituent, 9beta-OH (5 and 6), 2alpha-OH (8-12), or 2alpha-OAc (13). Compound 7 was epoxydated at 10alpha(14)-position, whereas the remaining lactones contained a 10(14) double bond.     

Effect of chronic ethanol feeding on oxysterols in rat liver

It was our hypothesis that, as a consequence of increased oxidative stress, cholesterol-derived hydroperoxides and oxysterols are increased in livers of rats exposed to ethanol. To test this we dosed Wistar rats (approximately 0.1 kg initial body weight) with ethanol chronically (rats fed a nutritionally complete liquid diet containing ethanol as 35% of total calories; sampled liver at approximately 6-7 weeks). We measured concentrations of 7 alpha- and 7 beta-hydroperoxycholest-5-en-3 beta-ol (7 alpha-OOH and 7 beta-OOH) as well as 7 alpha- and 7 beta-hydroxycholesterol (7 alpha-OH and 7 beta-OH), and 3 beta-hydroxycholest-5-en-7-one (also termed 7-ketocholesterol; 7-keto). In response to chronic alcohol feeding, there were significant elevations in the concentrations of 7 alpha-OOH (+169%, P = 0.005) and 7 beta-OOH (+199%, P = 0.011). Increases in the concentrations of hepatic 7-keto (+74%, P = 0.01) and decreases in cholesterol (-43%; P = 0.03) also occurred. In contrast, the concentrations of both 7 alpha-OH and 7 beta-OH were not significant (NS). However, when oxysterols in chronic ethanol-fed rats were expressed relative to cholesterol there were significant increases in 7-keto/cholesterol (P = 0.0006), 7 alpha-OH/cholesterol (P = 0.0018) and 7 beta-OH/cholesterol (P = 0.0047). In conclusion, this is the first report of increased 7 alpha-OOH, 7 beta-OOH, and 7-keto in liver of rats and their elevation in chronic experimental alcoholism represent evidence of increased oxidative stress.     

Influence of 1-double bond and 11 beta-hydroxy group on stereospecific microbial reductions of 4-en-3-oxo-steroids

The yeast Rhodotorula glutinis and the anaerobic bacterium Clostridium paraputrificum were used for stereospecific reductions of 4-chloro-11 beta-hydroxy-17 alpha-methyl-testosterone and the corresponding 1-dehydro compound to prepare 5 alpha- and 5 beta-H derivatives, respectively. C. paraputrificum was able to 5 beta-reduce both substances, whereas the 5 alpha-reduction by R. glutinis was inhibited by the structure elements 1-en and 11 beta-OH so that the substrate with both structure elements was not 5 alpha-reduced. The microbial conversion of the four steroids with and without 1-en and 11 beta-OH was compared in semiquantitative experiments. A number of new substances are described, 11 beta-hydroxy and 11-oxo derivatives of 5 alpha- and 5 beta-dihydro-4-chloro-17 alpha-methyltestosterone including some 3-OH compounds and characterized by NMR, mass spectrometric and further data.     

Narcotic antagonist activity of several metabolites of naloxone and naltrexone tested in morphine dependent mice (38558).

A rabbit liver enzyme system was used to produce the 6beta-OH reduced metabolites of naloxone and naltrexone. GC analysis indicated the presence of some 6alpha-OH metabolite in these samples. The narcotic antagonist activity of these 6beta-OH metabolite samples were compared to naloxone, naltrexone and standard 6alpha-OH naltrexone (EN-2260A) using the jumping response of morphine pellet implanted mice. For the naloxone series, the potencies were: Naloxone greater than EN 2265A greater than 6 beta-OH maloxone. For the naltrexone series: Naltrexone greater than EN 2260A greater than beta-OH naltrexone. The low potency of the reduced metabolites the rapid onset of action of the parent compounds militate against the formation of these metabolites contributing substantially to the overall narcotic antagonist action of the parent compounds.     

Tibolone exerts progestational inhibition of matrix metalloproteinase expression in human endometrial stromal cells

Tibolone and its metabolites were evaluated on matrix metalloproteinase (MMP) expression in human endometrial stromal cells (HESCs) under the hypothesis that these steroids would act as progestins on MMP-1, -2, and -3 expression. After 7 days of priming and 24h experimental incubation of confluent cultured HESCs, 10(-7) M medroxyprogesterone acetate (P) reduced MMP-1 to 49+/-34% (p<0.05) and MMP-3 to 33+/-22% of basal levels (mean+/-S.E.M., p<0.05, n=5). Although HESCs were unaffected by 10(-8) M estradiol (E), E+P reduced MMP-1 and MMP-3 levels an additional 2.5-fold from P alone. Tibolone and Delta-4 tibolone were equivalent to E+P in inhibiting MMP-1 and MMP-3 output, whereas 10(-6)M of 3alpha-OH or 3beta-OH tibolone was required to elicit significant inhibition of both MMPs (p<0.05). By contrast, none of the treatments affected HESC-secreted MMP-2 output. The ELISA results were confirmed by Western blotting and by substrate gel zymography. Quantitative RT-PCR demonstrated corresponding changes in MMP-1 and MMP-3 mRNA levels. Inhibition of MMP-1 and MMP-3 expression by tibolone and Delta-4 tibolone is consistent with the metabolism of tibolone to Delta-4 tibolone, and subsequent binding of Delta-4 tibolone to the progesterone receptor. Since 3alpha-OH and 3beta-OH tibolone bind exclusively to the estrogen receptor, their inhibition of MMP-1 and MMP-3 suggests metabolism by HESCs to Delta-4 tibolone. These observations help to explain the paradox that the endometrium becomes atrophic after tibolone administration despite the persistence in the circulation of 3alpha-OH and 3beta-OH tibolone, but not tibolone or Delta-4 tibolone.     

Regulation of SULT1E1 expression in Ishikawa adenocarcinoma cells by tibolone

Tibolone is used therapeutically as a hormone replacement agent and has beneficial effects on osteoporosis and hot flushes as well as libido in post-menopausal women without stimulatory effects in the breast and endometrium. The lack of effect in the endometrium is due in part to the tissue specific sulfation of tibolone and its active metabolites in endometrial tissues. Tibolone is metabolized into 3alpha-OH and 3beta-OH tibolone as well as the Delta4-isomer. Tibolone and the Delta4-isomer bind and activate progesterone and androgen receptors whereas 3alpha-OH and 3beta-OH tibolone activate the estrogen receptors. Human endometrium and Ishikawa endometrial adenocarcinoma cells express SULT1E1 that efficiently sulfates both 3-OH tibolone metabolites and has trace activity with tibolone but no activity with the Delta4-isomer. Treatment of Ishikawa cells with all four tibolone compounds resulted in the induction of SULT1E1 activity similar to the induction by progesterone. The induction of SULT1E1 was inhibited by RU486 indicating a role for the progesterone receptor. Sulfation of the tibolone compounds by Ishikawa cells and Ishikawa cells expressing physiological levels of SULT1E1 activity resulted in the sulfation of tibolone and the 3-OH metabolites but not Delta4-tibolone. These results indicate that the lack of endometrial stimulation involves induction of SULT1E1 and the selective sulfation and inactivation of the estrogenic 3-OH tibolones and interconversion of the tibolone metabolites to generate the progestagenic non-sulfated Delta4-isomer.     

Stimulation of tyrosine phosphorylation by progesterone and its 11-OH derivatives: dissection of a Ca(2+)-dependent and a Ca(2+)-independent mechanism

Progesterone has previously been shown to exert non-genomic effects on human spermatozoa by opening plasma membrane ion channels and by stimulating protein tyrosine phosphorylation. Here we examined how these two activities are influenced by 11-hydroxyl substitution of the steroid molecule either in the alpha- or in the beta-configuration. Both the 11alpha-OH and the 11beta-OH derivatives of progesterone were more effective than progesterone in stimulating tyrosine phosphorylation, although 11alpha-OH-progesterone was a markedly weaker Ca(2+)-influx inducing agonist than the other two steroids. In Ca(2+)-containing medium, the agonist activity of the 11alpha-OH derivative was weaker than that of the 11beta-OH derivative, and it was completely abolished by genistein, whereas that of progesterone and its 11beta-OH derivative was inhibited only partly by this drug. In contrast, when applied in Ca(2+)-free medium, the 11alpha-OH derivative was the strongest of the three agonists tested, and the effects of all the three steroids were completely abolished by genistein. These data show that the structural motifs of steroid molecules that are responsible for the stimulation of tyrosine phosphorylation are different from those mediating the steroid action on Ca2+ influx through plasma membrane channels. The synthesis of selective agonists of both activities may lead to the development of new pharmacological agents to be used in the treatment of steroid-dependent pathologies.     

Oxysterols as indices of oxidative stress in man after paraquat ingestion

The aim of this study is to evaluate oxidative stress in man after paraquat ingestion by analyzing 7alpha- and 7beta-hydroperoxycholest-5-en-3beta-ol (7alpha- and 7beta-OOH) as well as oxysterols, cholesterol oxidation products, as indices of lipid peroxidation. Lung, kidney, and liver were collected at autopsy from seven patients with paraquat poisoning and seven controls matched for age and sex. We identified for the first time 7-ketocholesterol (7-keto) and 7-hydroxycholesterol (7alpha-OH and 7beta-OH) in human kidney by LC-MS. Next, we quantified 7alpha-OOH and 7beta-OOH by HPLC with postcolumn chemiluminescence as well as oxysterols by HPLC-UV. Both 7alpha-OOH and 7beta-OOH detected in lung and kidney from the controls were as low as the paraquat group. In contrast, we found both 7-keto and 7beta-OH in lung and 7-keto in kidney from the paraquat group were significantly higher than from the controls. This is the first report on accumulated oxysterols in lung and kidney from human paraquat poisoning. It seems to reflect greater oxidative stress in the pathology of paraquat intoxication.     

A highly selective method for 11 beta-OH protection of steroidal 11 beta, 17 alpha-diols

A highly selective method to protect the 11 beta-OH position of steroid (1) has been developed. This is achieved via double silyl protection of the 11 beta, 17 alpha-diol, followed by selective desilylation of the 17 alpha-OH under basic conditions without the need for a fluoride source.     

Effect of bile acid oxazoline derivatives on microorganisms participating in 7 alpha-hydroxyl epimerization of primary bile acids

We tested bile acid oxazoline derivatives of chenodeoxycholic (CDC-OX), 7-ketolithocholic (7-KLC-OX), ursodeoxycholic (UDC-OX), and deoxycholic (DC-OX) as inhibitors of the 7-epimerization of the primary bile acids cholic acid (CA) and CDC in cultures of four species of bacteria and the human fecal flora. The organisms tested elaborate a 7 alpha- and/or 7 beta-hydroxysteroid dehydrogenase (HSDH); they were Escherichia coli (7 alpha-HSDH), Bacteroides fragilis (7 alpha-HSDH), Clostridium absonum (7 alpha- and 7 beta-HSDH) and Eubacterium aerofaciens (7 beta-HSDH). None of the oxazolines affected 7 alpha-OH oxidation of CA or CDC by E. coli or the growth of the organism. All the oxazolines (except UDC-OX) inhibited the growth of B. fragilis and its 7 alpha-HSDH. In contrast, only DC-OX blocked 7 alpha-OH epimerization of CA by C. absonum. Surprisingly, the other three oxazolines enhanced 7 alpha-OH epimerization of CA, but not that of CDC, which was inhibited (CDC-OX greater than 7-KLC-OX much greater than UDC-OX). Enzymic data suggest that CDC-OX in the presence of CA can induce a greater level of both 7 alpha- and 7 beta-HSDH than CA or CDC-OX alone, CDC-OX being more toxic in the presence of CDC. Formation of urso-bile acid from 7-keto substrates by E. aerofaciens is totally blocked by the oxazolines (except UDC-OX). Similarly, suppression of urso-bile acid formation from primary bile acids by the human fecal flora was evident with DC-OX greater than 7-KLC-OX greater than CDC-OX much greater than UDC-OX, the last being ineffective. The inhibitory activity of the oxazolines on the 7-dehydroxylation of primary bile acids by human fecal flora followed the same order.     

The urinary metabolites of 17alpha-ethynylestradiol-9alpha,11xi-3H in women. Chromatographic profiling and indentification of ethynyl and non-ethynyl compounds.

Metabolites of 17alpha-ethynylestradiol (EE2) were obtained from human urine following ingestion of tritium-labeled EE2. Over 95% of the recovered activity was found as conjugated steroids and these were separated into four groups by chromatography of the urine extract on Sephadex LH-20 with chloroform-methanol (1/1) + 0.01M NaCl. The two major conjugate fractions appeared to be almost exclusively glucosiduronates. Enzymatic hydrolysis liberated at least ten different EE2 metabolites as shown by chromatography on Sephadex LH-20 with benzene-methanol (85/15). After additional separation and purification of these metabolites, positive identification was obtained for nine radioactive compounds by either gas liquid chromatography-mass spectrometry or reverse-isotope recrystallization. Five were ethynyl compounds: EE2, 2-MeO EE2, 16beta-OH EE2, 2-OH EE2 and 6alpha-OH EE2. The other four were de-ethynylated estrogens: estrone, estradiol-17beta, estriol, and 2-Me-O-estradiol-17beta.     

Urinary equol excretion in relation to 2-hydroxyestrone and 16alpha-hydroxyestrone concentrations: an observational study of young to middle-aged women

Approximately one-third to one-half of individuals harbor the colonic bacteria that are capable of metabolizing the soy isoflavone daidzein to equol. Results of prior studies suggest beneficial effects of producing equol in relation to breast cancer risk, potentially through effects on endogenous hormones. High urinary excretion of 2-hydroxyestrone (2-OH E(1)) relative to 16alpha-hydroxyestrone (16alpha-OH E(1)) has been associated with a reduced risk of breast cancer. In this pilot study we examined associations between urinary excretion of equol and 2-OH E(1), 16alpha-OH E(1), and their ratio, and investigated whether excretion of these estrogen metabolites differed between two samples collected 48h apart. Isoflavones (genistein, daidzein, O-desmethylangolensin (ODMA), and equol) were measured in two overnight urines from 126 women. Excretion of 2-OH E(1) and 16alpha-OH E(1) were measured in the first overnight urine from all 126 women and in the second overnight urine from 30 of these women; there were no significant differences between samples collected 48h apart in excretion of 2-OH E(1) or 16alpha-OH E(1) (P=0.75 and 0.17, respectively). Among all women, correlations between total isoflavone excretion (sum of genistein, daidzein, ODMA, and equol) and estrogen metabolites were non-significant (P>0.05). Among women with detectable levels of equol, total isoflavone excretion was significantly positively correlated with 16alpha-OH E(1) (r=0.32, P=0.02), but was not correlated with 2-OH E(1) or 2-OH E(1):16alpha-OH E(1) ratio (r=0.21, P=0.14, and r=-0.05, P=0.70, respectively). Equol excretion (adjusted for other isoflavone excretion) was significantly positively correlated with 2-OH E(1):16alpha-OH E(1) ratio (r=0.38, P=0.005), but was not correlated with 2-OH E(1) or 16alpha-OH E(1) (r=0.15, P=0.29, and r=-0.17, P=0.24, respectively). The finding that equol excretion, but not total isoflavone excretion, correlated positively with the 2-OH E(1):16alpha-OH E(1) ratio suggests that the colonic bacterial profile associated with equol production may be involved in estrogen metabolism, and may therefore possibly influence breast cancer risk.     

Sterol metabolism: XXXVII. On the oxidation of cholesterol by dioxygenases

The oxidation of cholesterol by plant and mammalian dioxygenases yielding cholesterol 7α- and 7β-hydroperoxides has been demonstrated. Cholesterol oxidation is coupled to the oxygenation of polyunsaturated fatty acid esters by soybean lipoxygenase, to the reduction of hydrogen peroxide catalyzed by horseradish peroxidase, and to the oxidation of NADPH by the NADPH-dependent microsomal lipid peroxidation system of rat liver. The initially formed epimeric cholesterol 7-hydroperoxides are transformed in each case to the commonly encountered corresponding 7-alcohol and 7-ketone derivatives. These dioxygenase transformations thus mimic in detail the radiation-induced free radical oxidation of cholesterol by molecular oxygen. Electronically excited (singlet) molecular oxygen is not implicated in these transformations.     

Novel 5beta-hydroxyspirostan-6-ones ecdysteroid antagonists: synthesis and biological testing

Eight new 5beta-hydroxy-spirostan-6-ones bearing hydroxy and amino functions in the A ring, i.e., 3beta-OH, 3alpha-OH, 2beta,3beta-OH, 2alpha,3beta-OH, 3beta-NH2, 2alpha-NH2-3beta-OH, 2beta-NH2-3beta-OH, and 2beta-OH-3beta-NH2, were efficiently synthesized, and their antiecdysteroid activities were evaluated on the metamorphosis bioassay of mosquito Aedes aegypti. To our knowledge, these new steroids represent the first 5beta-hydroxy-spirostanes which have been tested for antiecdysteroid activity in mosquitoes. The higher antagonistic effect was found for compounds bearing the 3beta-hydroxy and 2beta,3beta-dihydroxy functionality, which show promise as environmental friendly insecticides.     

Role of residue 478 as a determinant of the substrate specificity of cytochrome P450 2B1.

Two allelic variants and eight site-directed mutants of cytochrome P450 2B1 differing at residue 478 have been expressed in COS cells and assayed for androstenedione hydroxylase activities. The 478Gly and 478Ala variants and five mutants (Ser, Thr, Val, Ile, and Leu) exhibited 16 beta-OH:16 alpha-OH ratios ranging from 0.7 to 9.3, whereas the Pro, Glu, and Arg mutants were expressed but inactive. The seven samples active toward androstenedione also exhibited testosterone 16 beta-OH:16 alpha-OH ratios ranging from 0.4 to 2.3. With both steroids, the Gly variant had the highest 16 beta-hydroxylase activity, and the 16 beta-OH:16 alpha-OH ratio increased with the size of aliphatic size chains (Ala, Val, and Ile/Leu). The highest ratio of androgen 15 alpha:16-hydroxylation was observed with the Ser mutant. On the basis of previous work indicating decreased susceptibility of the 478Ala variant in liver microsomal and reconstituted systems to inactivation by chloramphenicol analogs, methodology was refined for monitoring enzyme inactivation in COS cell microsomes. The Gly and Ala variants were inactivated by chloramphenicol with similar rate constants, whereas the Ser and Val mutants were inactivated more slowly, and the Leu mutant was refractory. Only the Gly variant was inactivated by the chloramphenicol analog N-(2-p-nitrophenethyl)chlorofluoroacetamide. Thus, the side chain of residue 478 appears to be a major determinant of enzyme inactivation as well as of androgen hydroxylation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Biotransformation of the diperpenoid, isosteviol, by Aspergillus niger, Penicillium chrysogenum and Rhizopus arrhizus.

The biotransformation of isosteviol (ent-16-ketobeyeran-19-oic acid) by three fungi is described. Aspergillus niger produced the 7 beta-OH derivative, ent-7 alpha-hydroxy-16-ketobeyeran-19-oic, and the 1 alpha, 7 beta-diOH derivative, ent-1 beta, 7 alpha-dihydroxy-16-ketobeyeran-19-oic acid. The 17-OH compound, ent-17-hydroxy-16-ketobeyeran-19-oic acid, was obtained with Penicillium chrysogenum. Rhizopus arrhizus produced the 7 beta-OH derivative, ent-7 alpha-hydroxy-16-ketobeyeran-19-oic acid. The isolated metabolites were characterised by IR, NMR and MS.     

Primary and secondary progesterone hydroxylation by the rabbit liver microsomal cytochromes P-450 system

Progesterone metabolism by the rabbit liver microsomal cytochromes P-450 system has been investigated with reverse phase (C18) high performance liquid chromatography. Time-course studies indicated that 6 beta-OHDOC accumulated as a secondary metabolite produced by the sequential 6 beta- and 21-hydroxylation of progesterone. When 21-hydroxylation occurred first, DOC accumulated and 6-hydroxylation was reduced. 16-OHP was resistant to secondary metabolism at both the 6- and 21-positions. The variable rates of 21-hydroxylase activity between different rabbits was further influenced by the nature of C-6-function in the order of 6-oxo greater than 6 beta-OH greater than 6 beta-OH greater than 6 alpha-OH greater than 6-H greater than 6 beta-acetoxy. These results indicate the potential interaction of the microsomal cytochromes P-450 and/or products in the sequential hydroxylation of a single steroid substrate at multiple sites.     

Radiolabeled cholesterol as a reporter for assessing one-electron turnover of lipid hydroperoxides.

A novel approach for assessing the peroxidative chain initiation potency of lipid hydroperoxides has been developed, which involves use of 14C-labeled cholesterol (Ch) as a "reporter" lipid. Unilamellar liposomes containing 1-palmitoyl-2-oleoyl-phosphatidylcholine, [14C]Ch, and 3beta-hydroxy-5alpha-cholest-6-ene-5-hydroperoxide (5alpha-OOH) or 3beta-hydroxycholest-5-ene-7alpha-hydroperoxide (7alpha-OOH) [100:75:5, mol/mol] were used as a test system. Liposomes incubated in the presence of ascorbate and a lipophilic iron complex were analyzed for radiolabeled oxidation products/intermediates (ChOX) by means of silica gel high-performance thin layer chromatography with phosphorimaging detection. The following ChOX were detected and quantified: 7alpha-OOH, 7beta-OOH, 7alpha-OH, 7beta-OH, and 5, 6-epoxide. Total ChOX yield increased in essentially the same time- and [iron]-dependent fashion for initiating 5alpha-OOH and 7alpha-OOH. The initial rate of [14C]7alphabeta-OH formation was greatly diminished when GSH and ebselen (a selenoperoxidase mimetic) were present, consistent with the attenuation of one-electron peroxide turnover. [14C]Ch-labeled L1210 cells also accumulated ChOX when incubated with 5alpha-OOH-containing liposomes. The rate of accumulation was substantially greater for Se-deficient than Se-sufficient cells, indicating that peroxide-induced chain reactions were modulated by selenoperoxidase action. These results illustrate the advantages of the new approach for highly sensitive in situ monitoring of cellular peroxidative damage.