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Alleviation of heavy metal and silver nanoparticle toxicity and enhancement of their removal by hydrogen sulfide in Phanerochaete chrysosporium.

Identifieur interne : 000091 ( Main/Exploration ); précédent : 000090; suivant : 000092

Alleviation of heavy metal and silver nanoparticle toxicity and enhancement of their removal by hydrogen sulfide in Phanerochaete chrysosporium.

Auteurs : Zhenzhen Huang [République populaire de Chine] ; Kai He [République populaire de Chine] ; Zhongxian Song [République populaire de Chine] ; Guangming Zeng [République populaire de Chine] ; Anwei Chen [République populaire de Chine] ; Lei Yuan [République populaire de Chine] ; Hui Li [République populaire de Chine] ; Guiqiu Chen [République populaire de Chine]

Source :

RBID : pubmed:30844588

Descripteurs français

English descriptors

Abstract

Hydrogen sulfide (H2S), an important cellular signaling molecule, plays vital roles in mediating responses to biotic/abiotic stresses. Influences of H2S on metal removal, cell viability, and antioxidant response of Phanerochaete chrysosporium upon exposure to heavy metals and silver nanoparticles (AgNPs) in the present study were investigated. An enhancement in Pb(ΙΙ) removal with an increase in concentration of the H2S donor sodium hydrosulfide (NaHS) was observed, and the maximum removal efficiencies increased by 31% and 17% under 100 and 200 mg/L Pb(ΙΙ) exposure, respectively, in the presence of 500 μM NaHS. Application of 500 μM NaHS increased the cell viability by 15%-39% under Pb(II) stress (10-200 mg/L) with relative to the untreated control. Increase in total Ag uptake and cell survival was also elicited by NaHS in a concentration-dependent manner under AgNP stress. Meanwhile, activities of superoxide dismutase and catalase were significantly enhanced with the introduction of NaHS under stresses of Pb(II), Cd(II), Cu(II), Zn(II), Ni(II), and AgNPs. The inhibition in lipid peroxidation and oxidative stress was observed in P. chrysosporium cells exposed to these toxicants following NaHS pretreatment, which could be attributed to the upregulation in antioxidant enzymes. The results obtained suggest that H2S can alleviate heavy metals and AgNP-induced toxicity to P. chrysosporium and improve the removal efficiency of these toxicants from wastewater.

DOI: 10.1016/j.chemosphere.2019.02.190
PubMed: 30844588


Affiliations:

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Le document en format XML

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<term>Metal Nanoparticles (analysis)</term>
<term>Metal Nanoparticles (chemistry)</term>
<term>Metal Nanoparticles (toxicity)</term>
<term>Metals, Heavy (isolation & purification)</term>
<term>Metals, Heavy (metabolism)</term>
<term>Metals, Heavy (toxicity)</term>
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<term>Métaux lourds (métabolisme)</term>
<term>Métaux lourds (toxicité)</term>
<term>Nanoparticules métalliques (analyse)</term>
<term>Nanoparticules métalliques (composition chimique)</term>
<term>Nanoparticules métalliques (toxicité)</term>
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<term>Phanerochaete (effets des médicaments et des substances chimiques)</term>
<term>Phanerochaete (métabolisme)</term>
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<term>Argent</term>
<term>Nanoparticules métalliques</term>
<term>Sulfure d'hydrogène</term>
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<div type="abstract" xml:lang="en">Hydrogen sulfide (H
<sub>2</sub>
S), an important cellular signaling molecule, plays vital roles in mediating responses to biotic/abiotic stresses. Influences of H
<sub>2</sub>
S on metal removal, cell viability, and antioxidant response of Phanerochaete chrysosporium upon exposure to heavy metals and silver nanoparticles (AgNPs) in the present study were investigated. An enhancement in Pb(ΙΙ) removal with an increase in concentration of the H
<sub>2</sub>
S donor sodium hydrosulfide (NaHS) was observed, and the maximum removal efficiencies increased by 31% and 17% under 100 and 200 mg/L Pb(ΙΙ) exposure, respectively, in the presence of 500 μM NaHS. Application of 500 μM NaHS increased the cell viability by 15%-39% under Pb(II) stress (10-200 mg/L) with relative to the untreated control. Increase in total Ag uptake and cell survival was also elicited by NaHS in a concentration-dependent manner under AgNP stress. Meanwhile, activities of superoxide dismutase and catalase were significantly enhanced with the introduction of NaHS under stresses of Pb(II), Cd(II), Cu(II), Zn(II), Ni(II), and AgNPs. The inhibition in lipid peroxidation and oxidative stress was observed in P. chrysosporium cells exposed to these toxicants following NaHS pretreatment, which could be attributed to the upregulation in antioxidant enzymes. The results obtained suggest that H
<sub>2</sub>
S can alleviate heavy metals and AgNP-induced toxicity to P. chrysosporium and improve the removal efficiency of these toxicants from wastewater.</div>
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<AbstractText>Hydrogen sulfide (H
<sub>2</sub>
S), an important cellular signaling molecule, plays vital roles in mediating responses to biotic/abiotic stresses. Influences of H
<sub>2</sub>
S on metal removal, cell viability, and antioxidant response of Phanerochaete chrysosporium upon exposure to heavy metals and silver nanoparticles (AgNPs) in the present study were investigated. An enhancement in Pb(ΙΙ) removal with an increase in concentration of the H
<sub>2</sub>
S donor sodium hydrosulfide (NaHS) was observed, and the maximum removal efficiencies increased by 31% and 17% under 100 and 200 mg/L Pb(ΙΙ) exposure, respectively, in the presence of 500 μM NaHS. Application of 500 μM NaHS increased the cell viability by 15%-39% under Pb(II) stress (10-200 mg/L) with relative to the untreated control. Increase in total Ag uptake and cell survival was also elicited by NaHS in a concentration-dependent manner under AgNP stress. Meanwhile, activities of superoxide dismutase and catalase were significantly enhanced with the introduction of NaHS under stresses of Pb(II), Cd(II), Cu(II), Zn(II), Ni(II), and AgNPs. The inhibition in lipid peroxidation and oxidative stress was observed in P. chrysosporium cells exposed to these toxicants following NaHS pretreatment, which could be attributed to the upregulation in antioxidant enzymes. The results obtained suggest that H
<sub>2</sub>
S can alleviate heavy metals and AgNP-induced toxicity to P. chrysosporium and improve the removal efficiency of these toxicants from wastewater.</AbstractText>
<CopyrightInformation>Copyright © 2019 Elsevier Ltd. All rights reserved.</CopyrightInformation>
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<LastName>Chen</LastName>
<ForeName>Guiqiu</ForeName>
<Initials>G</Initials>
<AffiliationInfo>
<Affiliation>College of Environmental Science and Engineering, Hunan University and Key Laboratory of Environmental Biology and Pollution Control (Hunan University), Ministry of Education, Changsha 410082, PR China.</Affiliation>
</AffiliationInfo>
</Author>
</AuthorList>
<Language>eng</Language>
<PublicationTypeList>
<PublicationType UI="D016428">Journal Article</PublicationType>
</PublicationTypeList>
<ArticleDate DateType="Electronic">
<Year>2019</Year>
<Month>02</Month>
<Day>28</Day>
</ArticleDate>
</Article>
<MedlineJournalInfo>
<Country>England</Country>
<MedlineTA>Chemosphere</MedlineTA>
<NlmUniqueID>0320657</NlmUniqueID>
<ISSNLinking>0045-6535</ISSNLinking>
</MedlineJournalInfo>
<ChemicalList>
<Chemical>
<RegistryNumber>0</RegistryNumber>
<NameOfSubstance UI="D000975">Antioxidants</NameOfSubstance>
</Chemical>
<Chemical>
<RegistryNumber>0</RegistryNumber>
<NameOfSubstance UI="D019216">Metals, Heavy</NameOfSubstance>
</Chemical>
<Chemical>
<RegistryNumber>3M4G523W1G</RegistryNumber>
<NameOfSubstance UI="D012834">Silver</NameOfSubstance>
</Chemical>
<Chemical>
<RegistryNumber>YY9FVM7NSN</RegistryNumber>
<NameOfSubstance UI="D006862">Hydrogen Sulfide</NameOfSubstance>
</Chemical>
</ChemicalList>
<CitationSubset>IM</CitationSubset>
<MeshHeadingList>
<MeshHeading>
<DescriptorName UI="D000975" MajorTopicYN="N">Antioxidants</DescriptorName>
<QualifierName UI="Q000378" MajorTopicYN="N">metabolism</QualifierName>
</MeshHeading>
<MeshHeading>
<DescriptorName UI="D006862" MajorTopicYN="N">Hydrogen Sulfide</DescriptorName>
<QualifierName UI="Q000737" MajorTopicYN="Y">chemistry</QualifierName>
</MeshHeading>
<MeshHeading>
<DescriptorName UI="D015227" MajorTopicYN="N">Lipid Peroxidation</DescriptorName>
</MeshHeading>
<MeshHeading>
<DescriptorName UI="D053768" MajorTopicYN="N">Metal Nanoparticles</DescriptorName>
<QualifierName UI="Q000032" MajorTopicYN="Y">analysis</QualifierName>
<QualifierName UI="Q000737" MajorTopicYN="N">chemistry</QualifierName>
<QualifierName UI="Q000633" MajorTopicYN="N">toxicity</QualifierName>
</MeshHeading>
<MeshHeading>
<DescriptorName UI="D019216" MajorTopicYN="N">Metals, Heavy</DescriptorName>
<QualifierName UI="Q000302" MajorTopicYN="N">isolation & purification</QualifierName>
<QualifierName UI="Q000378" MajorTopicYN="Y">metabolism</QualifierName>
<QualifierName UI="Q000633" MajorTopicYN="N">toxicity</QualifierName>
</MeshHeading>
<MeshHeading>
<DescriptorName UI="D018384" MajorTopicYN="N">Oxidative Stress</DescriptorName>
<QualifierName UI="Q000187" MajorTopicYN="N">drug effects</QualifierName>
</MeshHeading>
<MeshHeading>
<DescriptorName UI="D020075" MajorTopicYN="N">Phanerochaete</DescriptorName>
<QualifierName UI="Q000187" MajorTopicYN="N">drug effects</QualifierName>
<QualifierName UI="Q000254" MajorTopicYN="N">growth & development</QualifierName>
<QualifierName UI="Q000378" MajorTopicYN="Y">metabolism</QualifierName>
</MeshHeading>
<MeshHeading>
<DescriptorName UI="D012834" MajorTopicYN="N">Silver</DescriptorName>
<QualifierName UI="Q000737" MajorTopicYN="Y">chemistry</QualifierName>
</MeshHeading>
</MeshHeadingList>
<KeywordList Owner="NOTNLM">
<Keyword MajorTopicYN="N">Antioxidant response</Keyword>
<Keyword MajorTopicYN="N">Bioremediation</Keyword>
<Keyword MajorTopicYN="N">Heavy metals</Keyword>
<Keyword MajorTopicYN="N">Hydrogen sulfide</Keyword>
<Keyword MajorTopicYN="N">Phanerochaete chrysosporium</Keyword>
<Keyword MajorTopicYN="N">Silver nanoparticles</Keyword>
</KeywordList>
</MedlineCitation>
<PubmedData>
<History>
<PubMedPubDate PubStatus="received">
<Year>2018</Year>
<Month>11</Month>
<Day>19</Day>
</PubMedPubDate>
<PubMedPubDate PubStatus="revised">
<Year>2019</Year>
<Month>02</Month>
<Day>19</Day>
</PubMedPubDate>
<PubMedPubDate PubStatus="accepted">
<Year>2019</Year>
<Month>02</Month>
<Day>27</Day>
</PubMedPubDate>
<PubMedPubDate PubStatus="pubmed">
<Year>2019</Year>
<Month>3</Month>
<Day>8</Day>
<Hour>6</Hour>
<Minute>0</Minute>
</PubMedPubDate>
<PubMedPubDate PubStatus="medline">
<Year>2019</Year>
<Month>6</Month>
<Day>14</Day>
<Hour>6</Hour>
<Minute>0</Minute>
</PubMedPubDate>
<PubMedPubDate PubStatus="entrez">
<Year>2019</Year>
<Month>3</Month>
<Day>8</Day>
<Hour>6</Hour>
<Minute>0</Minute>
</PubMedPubDate>
</History>
<PublicationStatus>ppublish</PublicationStatus>
<ArticleIdList>
<ArticleId IdType="pubmed">30844588</ArticleId>
<ArticleId IdType="pii">S0045-6535(19)30420-5</ArticleId>
<ArticleId IdType="doi">10.1016/j.chemosphere.2019.02.190</ArticleId>
</ArticleIdList>
</PubmedData>
</pubmed>
<affiliations>
<list>
<country>
<li>République populaire de Chine</li>
</country>
</list>
<tree>
<country name="République populaire de Chine">
<noRegion>
<name sortKey="Huang, Zhenzhen" sort="Huang, Zhenzhen" uniqKey="Huang Z" first="Zhenzhen" last="Huang">Zhenzhen Huang</name>
</noRegion>
<name sortKey="Chen, Anwei" sort="Chen, Anwei" uniqKey="Chen A" first="Anwei" last="Chen">Anwei Chen</name>
<name sortKey="Chen, Guiqiu" sort="Chen, Guiqiu" uniqKey="Chen G" first="Guiqiu" last="Chen">Guiqiu Chen</name>
<name sortKey="He, Kai" sort="He, Kai" uniqKey="He K" first="Kai" last="He">Kai He</name>
<name sortKey="Li, Hui" sort="Li, Hui" uniqKey="Li H" first="Hui" last="Li">Hui Li</name>
<name sortKey="Song, Zhongxian" sort="Song, Zhongxian" uniqKey="Song Z" first="Zhongxian" last="Song">Zhongxian Song</name>
<name sortKey="Yuan, Lei" sort="Yuan, Lei" uniqKey="Yuan L" first="Lei" last="Yuan">Lei Yuan</name>
<name sortKey="Zeng, Guangming" sort="Zeng, Guangming" uniqKey="Zeng G" first="Guangming" last="Zeng">Guangming Zeng</name>
</country>
</tree>
</affiliations>
</record>

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