Effects of cadmium on calcium homeostasis in the white-rot fungus Phanerochaete chrysosporium.
Identifieur interne : 000123 ( Main/Exploration ); précédent : 000122; suivant : 000124Effects of cadmium on calcium homeostasis in the white-rot fungus Phanerochaete chrysosporium.
Auteurs : Xiaoxiao Zhang [République populaire de Chine] ; Jihai Shao [République populaire de Chine] ; Anwei Chen [République populaire de Chine] ; Cui Shang [République populaire de Chine] ; Xinjiang Hu [République populaire de Chine] ; Si Luo [République populaire de Chine] ; Ming Lei [République populaire de Chine] ; Liang Peng [République populaire de Chine] ; Qingru Zeng [République populaire de Chine]Source :
- Ecotoxicology and environmental safety [ 1090-2414 ] ; 2018.
Descripteurs français
- KwdFr :
- MESH :
- effets des médicaments et des substances chimiques : Phanerochaete.
- métabolisme : Calcium, Phanerochaete.
- toxicité : Cadmium, Polluants environnementaux.
- Dépollution biologique de l'environnement, Homéostasie, Stress physiologique.
English descriptors
- KwdEn :
- MESH :
- chemical , metabolism : Calcium.
- chemical , toxicity : Cadmium, Environmental Pollutants.
- drug effects : Phanerochaete.
- metabolism : Phanerochaete.
- Biodegradation, Environmental, Homeostasis, Stress, Physiological.
Abstract
Due to the widespread application of white-rot fungi for the treatment of pollutants, it's crucial to exploit the special effects of pollutants on the microbes. Here, we studied the effects of cadmium on calcium homeostasis in the most studied white-rot fungus Phanerochaete chrysosporium. The response of P. chrysosporium to cadmium stress is concentration-dependent. A high concentration of cadmium caused the release of calcium from P. chrysosporium, while a hormesis effect was observed at a lower cadmium concentration (10 μM), which resulted in a significant increase in calcium uptake and reversed the decrease in cell viability. Calcium (50 μM) promoted cell viability (127.2% of control), which reflects that calcium can protect P. chrysosporium from environmental stress. Real-time changes in the Ca2+ and Cd2+ fluxes of P. chrysosporium were quantified using the noninvasive microtest technique. Ca2+ influx decreased significantly under cadmium exposure, and the Ca2+ channel was involved in Ca2+ and Cd2+ influx. The cadmium and/or calcium uptake results coupled with the real-time Ca2+ and Cd2+ influxes microscale signatures can enhance our knowledge of the homeostasis of P. chrysosporium with respect to cadmium stress, which may provide useful information for improving the bioremediation process.
DOI: 10.1016/j.ecoenv.2018.03.071
PubMed: 29609109
Affiliations:
Links toward previous steps (curation, corpus...)
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last="Shao">Jihai Shao</name><affiliation wicri:level="1"><nlm:affiliation>College of Resources and Environment, Hunan Agricultural University, Changsha 410128, PR China.</nlm:affiliation><country xml:lang="fr">République populaire de Chine</country><wicri:regionArea>College of Resources and Environment, Hunan Agricultural University, Changsha 410128</wicri:regionArea><wicri:noRegion>Changsha 410128</wicri:noRegion></affiliation></author><author><name sortKey="Chen, Anwei" sort="Chen, Anwei" uniqKey="Chen A" first="Anwei" last="Chen">Anwei Chen</name><affiliation wicri:level="1"><nlm:affiliation>College of Resources and Environment, Hunan Agricultural University, Changsha 410128, PR China. 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wicri:level="1"><nlm:affiliation>College of Environmental Science and Engineering, Central South University of Forestry and Technology, Changsha 410004, PR China.</nlm:affiliation><country xml:lang="fr">République populaire de Chine</country><wicri:regionArea>College of Environmental Science and Engineering, Central South University of Forestry and Technology, Changsha 410004</wicri:regionArea><wicri:noRegion>Changsha 410004</wicri:noRegion></affiliation></author><author><name sortKey="Luo, Si" sort="Luo, Si" uniqKey="Luo S" first="Si" last="Luo">Si Luo</name><affiliation wicri:level="1"><nlm:affiliation>College of Resources and Environment, Hunan Agricultural University, Changsha 410128, PR China.</nlm:affiliation><country xml:lang="fr">République populaire de Chine</country><wicri:regionArea>College of Resources and Environment, Hunan Agricultural University, Changsha 410128</wicri:regionArea><wicri:noRegion>Changsha 410128</wicri:noRegion></affiliation></author><author><name 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410128</wicri:noRegion></affiliation></author><author><name sortKey="Zeng, Qingru" sort="Zeng, Qingru" uniqKey="Zeng Q" first="Qingru" last="Zeng">Qingru Zeng</name><affiliation wicri:level="1"><nlm:affiliation>College of Resources and Environment, Hunan Agricultural University, Changsha 410128, PR China.</nlm:affiliation><country xml:lang="fr">République populaire de Chine</country><wicri:regionArea>College of Resources and Environment, Hunan Agricultural University, Changsha 410128</wicri:regionArea><wicri:noRegion>Changsha 410128</wicri:noRegion></affiliation></author></analytic><series><title level="j">Ecotoxicology and environmental safety</title><idno type="eISSN">1090-2414</idno><imprint><date when="2018" type="published">2018</date></imprint></series></biblStruct></sourceDesc></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Biodegradation, Environmental (MeSH)</term><term>Cadmium (toxicity)</term><term>Calcium (metabolism)</term><term>Environmental Pollutants (toxicity)</term><term>Homeostasis (MeSH)</term><term>Phanerochaete (drug effects)</term><term>Phanerochaete (metabolism)</term><term>Stress, Physiological (MeSH)</term></keywords><keywords scheme="KwdFr" xml:lang="fr"><term>Cadmium (toxicité)</term><term>Calcium (métabolisme)</term><term>Dépollution biologique de l'environnement (MeSH)</term><term>Homéostasie (MeSH)</term><term>Phanerochaete (effets des médicaments et des substances chimiques)</term><term>Phanerochaete (métabolisme)</term><term>Polluants environnementaux (toxicité)</term><term>Stress physiologique (MeSH)</term></keywords><keywords scheme="MESH" type="chemical" qualifier="metabolism" xml:lang="en"><term>Calcium</term></keywords><keywords scheme="MESH" type="chemical" qualifier="toxicity" xml:lang="en"><term>Cadmium</term><term>Environmental Pollutants</term></keywords><keywords scheme="MESH" qualifier="drug effects" xml:lang="en"><term>Phanerochaete</term></keywords><keywords scheme="MESH" qualifier="effets des médicaments et des substances chimiques" xml:lang="fr"><term>Phanerochaete</term></keywords><keywords scheme="MESH" qualifier="metabolism" xml:lang="en"><term>Phanerochaete</term></keywords><keywords scheme="MESH" qualifier="métabolisme" xml:lang="fr"><term>Calcium</term><term>Phanerochaete</term></keywords><keywords scheme="MESH" qualifier="toxicité" xml:lang="fr"><term>Cadmium</term><term>Polluants environnementaux</term></keywords><keywords scheme="MESH" xml:lang="en"><term>Biodegradation, Environmental</term><term>Homeostasis</term><term>Stress, Physiological</term></keywords><keywords scheme="MESH" xml:lang="fr"><term>Dépollution biologique de l'environnement</term><term>Homéostasie</term><term>Stress physiologique</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Due to the widespread application of white-rot fungi for the treatment of pollutants, it's crucial to exploit the special effects of pollutants on the microbes. Here, we studied the effects of cadmium on calcium homeostasis in the most studied white-rot fungus Phanerochaete chrysosporium. The response of P. chrysosporium to cadmium stress is concentration-dependent. A high concentration of cadmium caused the release of calcium from P. chrysosporium, while a hormesis effect was observed at a lower cadmium concentration (10 μM), which resulted in a significant increase in calcium uptake and reversed the decrease in cell viability. Calcium (50 μM) promoted cell viability (127.2% of control), which reflects that calcium can protect P. chrysosporium from environmental stress. Real-time changes in the Ca<sup>2+</sup> and Cd<sup>2+</sup> fluxes of P. chrysosporium were quantified using the noninvasive microtest technique. Ca<sup>2+</sup> influx decreased significantly under cadmium exposure, and the Ca<sup>2+</sup> channel was involved in Ca<sup>2+</sup> and Cd<sup>2+</sup> influx. The cadmium and/or calcium uptake results coupled with the real-time Ca<sup>2+</sup> and Cd<sup>2+</sup> influxes microscale signatures can enhance our knowledge of the homeostasis of P. chrysosporium with respect to cadmium stress, which may provide useful information for improving the bioremediation process.</div></front></TEI><pubmed><MedlineCitation Status="MEDLINE" IndexingMethod="Curated" Owner="NLM"><PMID Version="1">29609109</PMID><DateCompleted><Year>2018</Year><Month>07</Month><Day>24</Day></DateCompleted><DateRevised><Year>2018</Year><Month>12</Month><Day>02</Day></DateRevised><Article PubModel="Print-Electronic"><Journal><ISSN IssnType="Electronic">1090-2414</ISSN><JournalIssue CitedMedium="Internet"><Volume>157</Volume><PubDate><Year>2018</Year><Month>Aug</Month><Day>15</Day></PubDate></JournalIssue><Title>Ecotoxicology and environmental safety</Title><ISOAbbreviation>Ecotoxicol Environ Saf</ISOAbbreviation></Journal><ArticleTitle>Effects of cadmium on calcium homeostasis in the white-rot fungus Phanerochaete chrysosporium.</ArticleTitle><Pagination><MedlinePgn>95-101</MedlinePgn></Pagination><ELocationID EIdType="pii" ValidYN="Y">S0147-6513(18)30258-6</ELocationID><ELocationID EIdType="doi" ValidYN="Y">10.1016/j.ecoenv.2018.03.071</ELocationID><Abstract><AbstractText>Due to the widespread application of white-rot fungi for the treatment of pollutants, it's crucial to exploit the special effects of pollutants on the microbes. Here, we studied the effects of cadmium on calcium homeostasis in the most studied white-rot fungus Phanerochaete chrysosporium. The response of P. chrysosporium to cadmium stress is concentration-dependent. A high concentration of cadmium caused the release of calcium from P. chrysosporium, while a hormesis effect was observed at a lower cadmium concentration (10 μM), which resulted in a significant increase in calcium uptake and reversed the decrease in cell viability. Calcium (50 μM) promoted cell viability (127.2% of control), which reflects that calcium can protect P. chrysosporium from environmental stress. Real-time changes in the Ca<sup>2+</sup> and Cd<sup>2+</sup> fluxes of P. chrysosporium were quantified using the noninvasive microtest technique. Ca<sup>2+</sup> influx decreased significantly under cadmium exposure, and the Ca<sup>2+</sup> channel was involved in Ca<sup>2+</sup> and Cd<sup>2+</sup> influx. The cadmium and/or calcium uptake results coupled with the real-time Ca<sup>2+</sup> and Cd<sup>2+</sup> influxes microscale signatures can enhance our knowledge of the homeostasis of P. chrysosporium with respect to cadmium stress, which may provide useful information for improving the bioremediation process.</AbstractText><CopyrightInformation>Copyright © 2018 Elsevier Inc. All rights reserved.</CopyrightInformation></Abstract><AuthorList CompleteYN="Y"><Author ValidYN="Y"><LastName>Zhang</LastName><ForeName>Xiaoxiao</ForeName><Initials>X</Initials><AffiliationInfo><Affiliation>College of Resources and Environment, Hunan Agricultural University, Changsha 410128, PR China.</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Shao</LastName><ForeName>Jihai</ForeName><Initials>J</Initials><AffiliationInfo><Affiliation>College of Resources and Environment, Hunan Agricultural University, Changsha 410128, PR China.</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Chen</LastName><ForeName>Anwei</ForeName><Initials>A</Initials><AffiliationInfo><Affiliation>College of Resources and Environment, Hunan Agricultural University, Changsha 410128, PR China. Electronic address: A.Chen@hunau.edu.cn.</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Shang</LastName><ForeName>Cui</ForeName><Initials>C</Initials><AffiliationInfo><Affiliation>College of Resources and Environment, Hunan Agricultural University, Changsha 410128, PR China.</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Hu</LastName><ForeName>Xinjiang</ForeName><Initials>X</Initials><AffiliationInfo><Affiliation>College of Environmental Science and Engineering, Central South University of Forestry and Technology, Changsha 410004, PR China.</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Luo</LastName><ForeName>Si</ForeName><Initials>S</Initials><AffiliationInfo><Affiliation>College of Resources and Environment, Hunan Agricultural University, Changsha 410128, PR China.</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Lei</LastName><ForeName>Ming</ForeName><Initials>M</Initials><AffiliationInfo><Affiliation>College of Resources and Environment, Hunan Agricultural University, Changsha 410128, PR China.</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Peng</LastName><ForeName>Liang</ForeName><Initials>L</Initials><AffiliationInfo><Affiliation>College of Resources and Environment, Hunan Agricultural University, Changsha 410128, PR China.</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Zeng</LastName><ForeName>Qingru</ForeName><Initials>Q</Initials><AffiliationInfo><Affiliation>College of Resources and Environment, Hunan Agricultural University, Changsha 410128, PR China.</Affiliation></AffiliationInfo></Author></AuthorList><Language>eng</Language><PublicationTypeList><PublicationType UI="D016428">Journal Article</PublicationType></PublicationTypeList><ArticleDate DateType="Electronic"><Year>2018</Year><Month>03</Month><Day>30</Day></ArticleDate></Article><MedlineJournalInfo><Country>Netherlands</Country><MedlineTA>Ecotoxicol Environ Saf</MedlineTA><NlmUniqueID>7805381</NlmUniqueID><ISSNLinking>0147-6513</ISSNLinking></MedlineJournalInfo><ChemicalList><Chemical><RegistryNumber>0</RegistryNumber><NameOfSubstance UI="D004785">Environmental Pollutants</NameOfSubstance></Chemical><Chemical><RegistryNumber>00BH33GNGH</RegistryNumber><NameOfSubstance UI="D002104">Cadmium</NameOfSubstance></Chemical><Chemical><RegistryNumber>SY7Q814VUP</RegistryNumber><NameOfSubstance UI="D002118">Calcium</NameOfSubstance></Chemical></ChemicalList><CitationSubset>IM</CitationSubset><MeshHeadingList><MeshHeading><DescriptorName UI="D001673" MajorTopicYN="N">Biodegradation, Environmental</DescriptorName></MeshHeading><MeshHeading><DescriptorName UI="D002104" MajorTopicYN="N">Cadmium</DescriptorName><QualifierName UI="Q000633" MajorTopicYN="Y">toxicity</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D002118" MajorTopicYN="N">Calcium</DescriptorName><QualifierName UI="Q000378" MajorTopicYN="Y">metabolism</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D004785" MajorTopicYN="N">Environmental Pollutants</DescriptorName><QualifierName UI="Q000633" MajorTopicYN="Y">toxicity</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D006706" MajorTopicYN="N">Homeostasis</DescriptorName></MeshHeading><MeshHeading><DescriptorName UI="D020075" MajorTopicYN="N">Phanerochaete</DescriptorName><QualifierName UI="Q000187" MajorTopicYN="Y">drug effects</QualifierName><QualifierName UI="Q000378" MajorTopicYN="N">metabolism</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D013312" MajorTopicYN="N">Stress, Physiological</DescriptorName></MeshHeading></MeshHeadingList><KeywordList Owner="NOTNLM"><Keyword MajorTopicYN="N">Cadmium</Keyword><Keyword MajorTopicYN="N">Calcium</Keyword><Keyword MajorTopicYN="N">Homeostasis</Keyword><Keyword MajorTopicYN="N">Phanerochaete chrysosporium</Keyword><Keyword MajorTopicYN="N">Stress</Keyword></KeywordList></MedlineCitation><PubmedData><History><PubMedPubDate PubStatus="received"><Year>2017</Year><Month>10</Month><Day>30</Day></PubMedPubDate><PubMedPubDate PubStatus="revised"><Year>2018</Year><Month>03</Month><Day>23</Day></PubMedPubDate><PubMedPubDate PubStatus="accepted"><Year>2018</Year><Month>03</Month><Day>25</Day></PubMedPubDate><PubMedPubDate PubStatus="pubmed"><Year>2018</Year><Month>4</Month><Day>3</Day><Hour>6</Hour><Minute>0</Minute></PubMedPubDate><PubMedPubDate PubStatus="medline"><Year>2018</Year><Month>7</Month><Day>25</Day><Hour>6</Hour><Minute>0</Minute></PubMedPubDate><PubMedPubDate PubStatus="entrez"><Year>2018</Year><Month>4</Month><Day>3</Day><Hour>6</Hour><Minute>0</Minute></PubMedPubDate></History><PublicationStatus>ppublish</PublicationStatus><ArticleIdList><ArticleId IdType="pubmed">29609109</ArticleId><ArticleId IdType="pii">S0147-6513(18)30258-6</ArticleId><ArticleId IdType="doi">10.1016/j.ecoenv.2018.03.071</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="Zhang, Xiaoxiao" sort="Zhang, Xiaoxiao" uniqKey="Zhang X" first="Xiaoxiao" last="Zhang">Xiaoxiao Zhang</name></noRegion><name sortKey="Chen, Anwei" sort="Chen, Anwei" uniqKey="Chen A" first="Anwei" last="Chen">Anwei Chen</name><name sortKey="Hu, Xinjiang" sort="Hu, Xinjiang" uniqKey="Hu X" first="Xinjiang" last="Hu">Xinjiang Hu</name><name sortKey="Lei, Ming" sort="Lei, Ming" uniqKey="Lei M" first="Ming" last="Lei">Ming Lei</name><name sortKey="Luo, Si" sort="Luo, Si" uniqKey="Luo S" first="Si" last="Luo">Si Luo</name><name sortKey="Peng, Liang" sort="Peng, Liang" uniqKey="Peng L" first="Liang" last="Peng">Liang Peng</name><name sortKey="Shang, Cui" sort="Shang, Cui" uniqKey="Shang C" first="Cui" last="Shang">Cui Shang</name><name sortKey="Shao, Jihai" sort="Shao, Jihai" uniqKey="Shao J" first="Jihai" last="Shao">Jihai Shao</name><name sortKey="Zeng, Qingru" sort="Zeng, Qingru" uniqKey="Zeng Q" first="Qingru" last="Zeng">Qingru Zeng</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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