Simultaneous multielement-specific detection of a novel glutathione-arsenic-selenium ion [(GS)2AsSe]? by ICP AES after micellar size- exclusion chromatography

Gailer, Jürgen; Madden, Sean; Burke, Michael; Denton, M. Bonner; Aposhian, H. Vasken

doi:10.1002/1099-0739(200007)14:7<355::aid-aoc8>3.0.co;2-0

Cited by 28 publications

(24 citation statements)

References 24 publications

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“…The selenoproteins are thought to discharge the nutritional essentiality of Se, the bioavailability of which is a function of its liberation from foods to be metabolized to selenoprotein-bound SeCys. Suboptimal Se status in humans has been associated with increased risk of cancer, and HIV/AIDS and other viral diseases (measles, hepatitis, influenza) including an endemic cardiomyopathy, Keshan Disease, in China (Combs 2001;Gailer et al 2000;Rayman 2002). Supranutritional intakes of Se have been shown to reduce cancer risk (Clark et al 1996), and hundreds of studies with animal tumor models have shown Se to be antitumorigenic through several cellular and metabolic mechanisms (Combs and Lu Junxuan 2001;Combs and Lu 2006;Jackson and Combs 2008).…”

Section: Se-biofortification Of Lentilsmentioning

confidence: 99%

The potential of lentil (Lens culinaris L.) as a whole food for increased selenium, iron, and zinc intake: preliminary results from a 3 year study

et al. 2011

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Micronutrient malnutrition, especially selenium (Se), iron (Fe), and zinc (Zn) deficiency, is a major global health problem. Previous attempts to prevent micronutrient malnutrition through food fortification, supplementation, and enrichment of staple crops has had limited success. Canadian grown lentils are rich in micronutrients Fe (73-90 mg kg -1 ), Zn (44-54 mg kg -1 ), Se (425-673 lg kg -1 ), and have very low concentrations of phytic acid (2.5-4.4 mg g -1 ). Our preliminary studies using a Caco-2 cell model show that the uptake of Fe from lentils is relatively greater than that of most other staple food crops. Moreover, preliminary results from our human nutrition study in Sri Lanka show an increased trend in blood Se concentration after lentil consumption. This article briefly overviews our previously published results as well as data from international lentil field trials, and describes the potential for biofortified lentil to provide a whole food solution to combat global human micronutrient malnutrition.

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Section: Se-biofortification Of Lentilsmentioning

confidence: 99%

The potential of lentil (Lens culinaris L.) as a whole food for increased selenium, iron, and zinc intake: preliminary results from a 3 year study

et al. 2011

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“…We have shown that this species is formed in vivo and subsequently excreted in bile (12)(13)(14). [(GS) 2 AsSe] -therefore represents a fundamental molecular link between the metabolism of arsenite and selenite in mammals and thus is of considerable toxicological importance (12).…”

Section: Introductionmentioning

confidence: 99%

Biliary Excretion of [(GS)₂AsSe]^- after Intravenous Injection of Rabbits with Arsenite and Selenate

Gailer

George

Pickering

et al. 2002

Chem. Res. Toxicol.

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It has been shown that the seleno-bis (S-glutathionyl) arsinium ion, [(GS)(2)AsSe](-), is the major arsenic and selenium excretory product in bile of rabbits treated with arsenite and selenite [Gailer, J., Madden, S., Buttigieg, G. A., Denton, M. B., and Younis, H. S. (2002) Appl. Organomet. Chem. 16, 72-75]. To investigate the in vivo interaction between the other environmentally common oxy-anions of arsenic and selenium in mammals, we have intravenously injected rabbits with different combinations of the arsenic and selenium oxo-anions (arsenite + selenate, arsenate + selenite, and arsenate + selenate) and analyzed the collected bile and whole blood samples by X-ray absorption spectroscopy. Only the injection of arsenite and selenate led to the biliary excretion of [(GS)(2)AsSe](-) within 25 min. Whole blood collected from these animals (25 min postinjection) contained predominantly unchanged selenate, which suggests the presence of a mammalian selenate reductase in the liver. The lack of any significant biliary excretion of [(GS)(2)AsSe](-) in the other treatment groups implies that arsenate was not reduced in the liver on the time scale of our experiments. The relevance of these results for the human toxicology of arsenic and selenium is discussed.

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“…Additionally, the latter retention strategy would most likely also minimize a possible decomposition of [(CH 3 ) 2 As(Se) 2 ] − during the chromatographic separation process, as was previously observed with the structurally related species [(GS) 2 AsSe] − on anion-exchange columns. 6 Since the ultimate goal was to develop a chromatographic method for the identification of [(CH 3 ) 2 As(Se) 2 ] − in biological samples, PBS buffers (0.01 mol dm −3 ) were investigated as mobile phases (the utilization of other mobile phases could lead to the decomposition of [(CH 3 ) 2 As(Se) 2 ] − on the chromatographic system). The decomposition of [(CH 3 ) 2 As(Se) 2 ] − below pH 7.0, however, required a mobile phase with pH > 7.0.…”

Section: Resultsmentioning

confidence: 99%

“…14,15 The simultaneous exposure of the general population to dimethylarsinate and dietary selenium compounds could, therefore, lead to the in vivo formation of [(CH 3 ) 2 As(Se) 2 During the development of an SEC-ICP-AES method for the identification of [(GS) 2 AsSe] − in aqueous solutions, we previously noticed that the stationary phase must be chosen carefully in order to prevent the decomposition of this species during the chromatographic separation. 6 In view of these findings, and with regard to the similar chemical properties of [(GS) 2 AsSe] − and [(CH 3 ) 2 As(Se) 2 ] − (both are oxygen sensitive and decompose below pH 7.0), 6,10 the development of an HPLC method for the identification of [(CH 3 ) 2 As(Se) 2 ] − requires that this species can be passed through the stationary phase unchanged and structurally intact. [(CH 3 ) 2 As(Se) 2 ] − contains two As-C and two As-Se single bonds.…”

Section: Introductionmentioning

confidence: 99%

Simultaneous arsenic‐ and selenium‐specific detection of the dimethyldiselenoarsinate anion by high‐performance liquid chromatography–inductively coupled plasma atomic emission spectrometry

Gailer¹,

Buttigieg²,

Denton³

2003

Applied Organom Chemis

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Simultaneous multielement-specific detection of a novel glutathione-arsenic-selenium ion [(GS)2AsSe]? by ICP AES after micellar size- exclusion chromatography

Cited by 28 publications

References 24 publications

The potential of lentil (Lens culinaris L.) as a whole food for increased selenium, iron, and zinc intake: preliminary results from a 3 year study

The potential of lentil (Lens culinaris L.) as a whole food for increased selenium, iron, and zinc intake: preliminary results from a 3 year study

Biliary Excretion of [(GS)₂AsSe]^- after Intravenous Injection of Rabbits with Arsenite and Selenate

Simultaneous arsenic‐ and selenium‐specific detection of the dimethyldiselenoarsinate anion by high‐performance liquid chromatography–inductively coupled plasma atomic emission spectrometry

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Simultaneous multielement-specific detection of a novel glutathione-arsenic-selenium ion [(GS)2AsSe]? by ICP AES after micellar size- exclusion chromatography

Cited by 28 publications

References 24 publications

The potential of lentil (Lens culinaris L.) as a whole food for increased selenium, iron, and zinc intake: preliminary results from a 3 year study

The potential of lentil (Lens culinaris L.) as a whole food for increased selenium, iron, and zinc intake: preliminary results from a 3 year study

Biliary Excretion of [(GS)2AsSe]- after Intravenous Injection of Rabbits with Arsenite and Selenate

Simultaneous arsenic‐ and selenium‐specific detection of the dimethyldiselenoarsinate anion by high‐performance liquid chromatography–inductively coupled plasma atomic emission spectrometry

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Biliary Excretion of [(GS)₂AsSe]^- after Intravenous Injection of Rabbits with Arsenite and Selenate