The genome of the nematode Caenorhabditis elegans encodes for two multifunctional metal binding metallothioneins (MTs), CeMT-1 and CeMT-2. Here we applied qPCR to identify a transcriptional up-regulation following the exposure to free radical generators (ROS) paraquat or hydrogen peroxide, a trend that was confirmed with Pmtl::GFP expressing alleles. The deletion of the MT loci resulted in an elevation of in vivo levels of hydrogen peroxide and exposure to ROS caused a reduction in total egg production, growth and life span in wild type nematodes, effects that were particularly pronounced in the CeMT-2 and double knockout. Moreover, in vitro incubation of recombinant MTs with hydrogen peroxide demonstrated the presence of direct oxidation of the CeMTs, with zinc released from both isoforms and concomitant formation of intra-molecular disulfides. Finally, metabolic profiling (metabolomic) analysis of wild type and MT knockouts in the presence/absence of oxidative stressors, confirmed the overall trend described by the other experiments, and identified 2-aminoadipate as a potential novel small-molecule marker of oxidative stress. In summary, this study highlights that C. elegans metallothioneins scavenge and protect against reactive oxygen species and potentially against oxidative stress, with CeMT-2 being more effective than CeMT-1.
%0 Journal Article
%1 ZeitounGhandour2011C
%A Zeitoun-Ghandour, Sukaina
%A Leszczyszyn, Oksana I.
%A Blindauer, Claudia A.
%A Geier, Florian M.
%A Bundy, Jacob G.
%A Sturzenbaum, Stephen R.
%D 2011
%I The Royal Society of Chemistry
%J Mol. BioSyst.
%K ros
%R 10.1039/c1mb05114h
%T C. elegans metallothioneins: response to and defence against ROS toxicity
%U http://dx.doi.org/10.1039/c1mb05114h
%X The genome of the nematode Caenorhabditis elegans encodes for two multifunctional metal binding metallothioneins (MTs), CeMT-1 and CeMT-2. Here we applied qPCR to identify a transcriptional up-regulation following the exposure to free radical generators (ROS) paraquat or hydrogen peroxide, a trend that was confirmed with Pmtl::GFP expressing alleles. The deletion of the MT loci resulted in an elevation of in vivo levels of hydrogen peroxide and exposure to ROS caused a reduction in total egg production, growth and life span in wild type nematodes, effects that were particularly pronounced in the CeMT-2 and double knockout. Moreover, in vitro incubation of recombinant MTs with hydrogen peroxide demonstrated the presence of direct oxidation of the CeMTs, with zinc released from both isoforms and concomitant formation of intra-molecular disulfides. Finally, metabolic profiling (metabolomic) analysis of wild type and MT knockouts in the presence/absence of oxidative stressors, confirmed the overall trend described by the other experiments, and identified 2-aminoadipate as a potential novel small-molecule marker of oxidative stress. In summary, this study highlights that C. elegans metallothioneins scavenge and protect against reactive oxygen species and potentially against oxidative stress, with CeMT-2 being more effective than CeMT-1.
@article{ZeitounGhandour2011C,
abstract = {The genome of the nematode Caenorhabditis elegans encodes for two multifunctional metal binding metallothioneins ({MTs}), {CeMT}-1 and {CeMT}-2. Here we applied {qPCR} to identify a transcriptional up-regulation following the exposure to free radical generators ({ROS}) paraquat or hydrogen peroxide, a trend that was confirmed with {Pmtl::GFP} expressing alleles. The deletion of the {MT} loci resulted in an elevation of in vivo levels of hydrogen peroxide and exposure to {ROS} caused a reduction in total egg production, growth and life span in wild type nematodes, effects that were particularly pronounced in the {CeMT}-2 and double knockout. Moreover, in vitro incubation of recombinant {MTs} with hydrogen peroxide demonstrated the presence of direct oxidation of the {CeMTs}, with zinc released from both isoforms and concomitant formation of intra-molecular disulfides. Finally, metabolic profiling (metabolomic) analysis of wild type and {MT} knockouts in the presence/absence of oxidative stressors, confirmed the overall trend described by the other experiments, and identified 2-aminoadipate as a potential novel small-molecule marker of oxidative stress. In summary, this study highlights that C. elegans metallothioneins scavenge and protect against reactive oxygen species and potentially against oxidative stress, with {CeMT}-2 being more effective than {CeMT}-1.},
added-at = {2018-12-02T16:09:07.000+0100},
author = {Zeitoun-Ghandour, Sukaina and Leszczyszyn, Oksana I. and Blindauer, Claudia A. and Geier, Florian M. and Bundy, Jacob G. and Sturzenbaum, Stephen R.},
biburl = {https://www.bibsonomy.org/bibtex/2c0536fe14b80647b2c7abfbfdeacef26/karthikraman},
citeulike-article-id = {9412607},
citeulike-linkout-0 = {http://dx.doi.org/10.1039/c1mb05114h},
citeulike-linkout-1 = {http://www.rsc.org/Publishing/Journals/article.asp?doi=C1MB05114H},
doi = {10.1039/c1mb05114h},
interhash = {f62a71ddf07cf7ea2eb98f4c5756cb7a},
intrahash = {c0536fe14b80647b2c7abfbfdeacef26},
journal = {Mol. BioSyst.},
keywords = {ros},
posted-at = {2011-07-01 07:25:27},
priority = {2},
publisher = {The Royal Society of Chemistry},
timestamp = {2018-12-02T16:09:07.000+0100},
title = {C. elegans metallothioneins: response to and defence against {ROS} toxicity},
url = {http://dx.doi.org/10.1039/c1mb05114h},
year = 2011
}