Extreme metal adapted, knockout and knockdown strains reveal a coordinated gene expression among different Tetrahymena thermophila metallothionein isoforms

Metallothioneins (MT) constitute a superfamily of small cytosolic proteins that are able to bind metal cations through numerous cysteine (Cys) residues. Like other organisms the ciliate Tetrahymena thermophila presents several MT isoforms, which have been classified into two subfamilies (Cd- and Cu-...

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Bibliographic Details
Published in:PloS one 2017-12, Vol.12 (12), p.e0189076
Main Authors: de Francisco, Patricia, Martín-González, Ana, Turkewitz, Aaron P, Gutiérrez, Juan Carlos
Format: Article
Language:English
Subjects:
Adaptation
Adaptation, Physiological
Animals
Biology and Life Sciences
Cadmium
Cations
Cell growth
Copper
Cysteine
Evolution (Biology)
Gene Expression
Gene regulation
Genes
Genes, Protozoan
Genomes
Homeostasis
Insects
Isoforms
Lead
Medicine and Health Sciences
Metallothionein
Metallothionein - genetics
Metallothioneins
Metals
Metals - toxicity
Microorganisms
Oxidative stress
Protein Isoforms - genetics
Proteins
Research and Analysis Methods
Strains (organisms)
Studies
Tetrahymena thermophila
Tetrahymena thermophila - drug effects
Tetrahymena thermophila - genetics
Tetrahymena thermophila - physiology
Transcription
Transcription (Genetics)
Transcription factors
Zinc
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Description
Summary:Metallothioneins (MT) constitute a superfamily of small cytosolic proteins that are able to bind metal cations through numerous cysteine (Cys) residues. Like other organisms the ciliate Tetrahymena thermophila presents several MT isoforms, which have been classified into two subfamilies (Cd- and Cu-metallothioneins). The main aim of this study was to examine the specific functions and transcriptional regulation of the five MT isoforms present in T. thermophila, by using several strains of this ciliate. After a laboratory evolution experiment over more than two years, three different T. thermophila strains adapted to extreme metal stress (Cd2+, Cu2+ or Pb2+) were obtained. In addition, three knockout and/or knockdown strains for different metallothionein (MT) genes were generated. These strains were then analyzed for expression of the individual MT isoforms. Our results provide a strong basis for assigning differential roles to the set of MT isoforms. MTT1 appears to have a key role in adaptation to Cd. In contrast, MTT2/4 are crucial for Cu-adaptation and MTT5 appears to be important for Pb-adaptation and might be considered as an "alarm" MT gene for responding to metal stress. Moreover, results indicate that likely a coordinated transcriptional regulation exists between the MT genes, particularly among MTT1, MTT5 and MTT2/4. MTT5 appears to be an essential gene, a first such report in any organism of an essential MT gene.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0189076