In vivo speciation studies and antioxidant properties of bromine in Laminaria digitata reinforce the significance of iodine accumulation for kelps

The metabolism of bromine in marine brown algae remains poorly understood. This contrasts with the recent finding that the accumulation of iodide in the brown alga Laminaria serves the provision of an inorganic antioxidant – the first case documented from a living system. The aim of this study was t...

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Published in	Journal of experimental botany Vol. 64; no. 10; pp. 2653 - 2664
Main Authors	Küpper, Frithjof C, Carpenter, Lucy J, Leblanc, Catherine, Toyama, Chiaki, Uchida, Yuka, Maskrey, Benjamin H, Robinson, Joanne, Verhaeghe, Elodie F, Malin, Gill, Luther, George W, Kroneck, Peter M. H, Kloareg, Bernard, Meyer-Klaucke, Wolfram, Muramatsu, Yasuyuki, Megson, Ian L, Potin, Philippe, Feiters, Martin C
Format	Journal Article
Language	English
Published	Oxford Oxford University Press [etc.] 01.07.2013 Oxford University Press
Subjects	absorption antioxidant activity antioxidants Antioxidants - metabolism Biological and medical sciences bromine Bromine - analysis Bromine - metabolism chemical speciation Fundamental and applied biological sciences. Psychology Iodide Peroxidase - genetics Iodide Peroxidase - metabolism iodides iodine Iodine - analysis Iodine - metabolism Kelp - chemistry Kelp - genetics Kelp - metabolism Laminaria Laminaria - chemistry Laminaria - genetics Laminaria - metabolism Laminaria digitata macroalgae metabolism oxidative stress Plant physiology and development reactive oxygen species RESEARCH PAPER spectroscopy vanadium X-radiation Bromine Reactive oxygen species Algae Marine alga halocarbons Antioxidant Heterokontophyta In vivo X ray absorption spectrometry Botany Electron paramagnetic resonance X-ray absorption spectroscopy Laminaria digitata brown algae Speciation Phaeophyceae Iodine electron paramagnetic resonance reactive oxygen species
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Abstract	The metabolism of bromine in marine brown algae remains poorly understood. This contrasts with the recent finding that the accumulation of iodide in the brown alga Laminaria serves the provision of an inorganic antioxidant – the first case documented from a living system. The aim of this study was to use an interdisciplinary array of techniques to study the chemical speciation, transformation, and function of bromine in Laminaria and to investigate the link between bromine and iodine metabolism, in particular in the antioxidant context. First, bromine and iodine levels in different Laminaria tissues were compared by inductively coupled plasma MS. Using in vivo X-ray absorption spectroscopy, it was found that, similarly to iodine, bromine is predominantly present in this alga in the form of bromide, albeit at lower concentrations, and that it shows similar behaviour upon oxidative stress. However, from a thermodynamic and kinetic standpoint, supported by in vitro and reconstituted in vivo assays, bromide is less suitable than iodide as an antioxidant against most reactive oxygen species except superoxide, possibly explaining why kelps prefer to accumulate iodide. This constitutes the first-ever study exploring the potential antioxidant function of bromide in a living system and other potential physiological roles. Given the tissue-specific differences observed in the content and speciation of bromine, it is concluded that the bromide uptake mechanism is different from the vanadium iodoperoxidase-mediated uptake of iodide in L. digitata and that its function is likely to be complementary to the iodide antioxidant system for detoxifying superoxide.
AbstractList	The metabolism of bromine in marine brown algae remains poorly understood. This contrasts with the recent finding that the accumulation of iodide in the brown alga Laminaria serves the provision of an inorganic antioxidant – the first case documented from a living system. The aim of this study was to use an interdisciplinary array of techniques to study the chemical speciation, transformation, and function of bromine in Laminaria and to investigate the link between bromine and iodine metabolism, in particular in the antioxidant context. First, bromine and iodine levels in different Laminaria tissues were compared by inductively coupled plasma MS. Using in vivo X-ray absorption spectroscopy, it was found that, similarly to iodine, bromine is predominantly present in this alga in the form of bromide, albeit at lower concentrations, and that it shows similar behaviour upon oxidative stress. However, from a thermodynamic and kinetic standpoint, supported by in vitro and reconstituted in vivo assays, bromide is less suitable than iodide as an antioxidant against most reactive oxygen species except superoxide, possibly explaining why kelps prefer to accumulate iodide. This constitutes the first-ever study exploring the potential antioxidant function of bromide in a living system and other potential physiological roles. Given the tissue-specific differences observed in the content and speciation of bromine, it is concluded that the bromide uptake mechanism is different from the vanadium iodoperoxidase-mediated uptake of iodide in L. digitata and that its function is likely to be complementary to the iodide antioxidant system for detoxifying superoxide. The metabolism of bromine in marine brown algae remains poorly understood. This contrasts with the recent finding that the accumulation of iodide in the brown alga Laminaria serves the provision of an inorganic antioxidant – the first case documented from a living system. The aim of this study was to use an interdisciplinary array of techniques to study the chemical speciation, transformation, and function of bromine in Laminaria and to investigate the link between bromine and iodine metabolism, in particular in the antioxidant context. First, bromine and iodine levels in different Laminaria tissues were compared by inductively coupled plasma MS. Using in vivo X-ray absorption spectroscopy, it was found that, similarly to iodine, bromine is predominantly present in this alga in the form of bromide, albeit at lower concentrations, and that it shows similar behaviour upon oxidative stress. However, from a thermodynamic and kinetic standpoint, supported by in vitro and reconstituted in vivo assays, bromide is less suitable than iodide as an antioxidant against most reactive oxygen species except superoxide, possibly explaining why kelps prefer to accumulate iodide. This constitutes the first-ever study exploring the potential antioxidant function of bromide in a living system and other potential physiological roles. Given the tissue-specific differences observed in the content and speciation of bromine, it is concluded that the bromide uptake mechanism is different from the vanadium iodoperoxidase-mediated uptake of iodide in L. digitata and that its function is likely to be complementary to the iodide antioxidant system for detoxifying superoxide.
Author	Luther, George W Verhaeghe, Elodie F Carpenter, Lucy J Toyama, Chiaki Megson, Ian L Meyer-Klaucke, Wolfram Kloareg, Bernard Feiters, Martin C Malin, Gill Maskrey, Benjamin H Muramatsu, Yasuyuki Leblanc, Catherine Kroneck, Peter M. H Robinson, Joanne Uchida, Yuka Potin, Philippe Küpper, Frithjof C
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Keywords	Bromine Reactive oxygen species Algae Marine alga halocarbons Antioxidant Heterokontophyta In vivo X ray absorption spectrometry Botany Electron paramagnetic resonance X-ray absorption spectroscopy Laminaria digitata brown algae Speciation Phaeophyceae Iodine electron paramagnetic resonance reactive oxygen species
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Snippet	The metabolism of bromine in marine brown algae remains poorly understood. This contrasts with the recent finding that the accumulation of iodide in the brown...
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SubjectTerms	absorption antioxidant activity antioxidants Antioxidants - metabolism Biological and medical sciences bromine Bromine - analysis Bromine - metabolism chemical speciation Fundamental and applied biological sciences. Psychology Iodide Peroxidase - genetics Iodide Peroxidase - metabolism iodides iodine Iodine - analysis Iodine - metabolism Kelp - chemistry Kelp - genetics Kelp - metabolism Laminaria Laminaria - chemistry Laminaria - genetics Laminaria - metabolism Laminaria digitata macroalgae metabolism oxidative stress Plant physiology and development reactive oxygen species RESEARCH PAPER spectroscopy vanadium X-radiation
Title	In vivo speciation studies and antioxidant properties of bromine in Laminaria digitata reinforce the significance of iodine accumulation for kelps
URI	https://www.jstor.org/stable/24041784 https://www.ncbi.nlm.nih.gov/pubmed/23606364 https://search.proquest.com/docview/1373438878 https://search.proquest.com/docview/1412561436 https://pubmed.ncbi.nlm.nih.gov/PMC3697951
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