Effects of Cadmium Sulfate on the Brown Garden Snail <i>Cornu aspersum</i>: Implications for DNA Methylation

Effects of Cadmium Sulfate on the Brown Garden Snail <i>Cornu aspersum</i>: Implications for DNA Methylation

An extensive literature exists regarding the cellular, physiological, and genetic effects of cadmium (Cd)—A highly toxic, but commonly used trace metal in modern industry. However, limited data are available on its epigenetic effects, especially for terrestrial sentinel invertebrates. We determined...

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Autores principales: Marius Georgescu, George Andrei Drăghici, Eliza-Florentina Oancea, Cristina Adriana Dehelean, Codruţa Şoica, Nicolae-Valentin Vlăduţ, Dragoș Vasile Nica
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
cadmium exposure
DNA methylation
5-methylcytosine
metallothioneins
cadmium sulfate
CdMT gene
Chemical technology
TP1-1185
Acceso en línea:https://doaj.org/article/9b79c0dbe2b0430a9039355a2ad9314a
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Sumario:An extensive literature exists regarding the cellular, physiological, and genetic effects of cadmium (Cd)—A highly toxic, but commonly used trace metal in modern industry. However, limited data are available on its epigenetic effects, especially for terrestrial sentinel invertebrates. We determined Cd retention, total DNA methylation, and the methylation status of 5′ end of the <i>Cd-MT</i> gene in the hepatopancreas of the brown garden snail, <i>Cornu aspersum,</i> fed Cd sulfate for four weeks. Bodyweight changes and survival were also measured. Hepatopancreas cadmium increased in a dose-dependent manner from the third-lowest dose onward, with very large amounts being found for the highest treatment group. However, no mortalities occurred, irrespective of dietary Cd dose. We identified significant genome-wide hypermethylation in specimens given the highest dose, which overlapped with a significant bodyweight decrease. The <i>Cd-MT</i> gene showed an unmethylated 5′ end of the <i>Cd-MT</i> gene and this status was not affected by cadmium exposure. Hepatopancreas DNA methylation is as sensitive as bodyweight to non-lethal concentrations of dietary Cd given as cadmium sulfate but less responsive than tissue accumulation. Such an exposure event, by contrast, does not affect the methylation status of the <i>Cd-MT</i> gene 5′ end.

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