Rare earth elements perturb root architecture and ion homeostasis in Arabidopsis thaliana

• Published in: Journal of hazardous materials Vol. 468; p. 133701
• Main Authors: Grosjean, Nicolas, Blaudez, Damien, Chalot, Michel, Flayac, Justine, Gross, Elisabeth M., Le Jean, Marie
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 15.04.2024; Elsevier
• Series: LIEC-UL
• Subjects: Arabidopsis - genetics; Homeostasis; Lanthanides; Lanthanum; Life Sciences; Metals, Rare Earth - toxicity; Model plant; Plants; REEs; Transcriptomics; Transport; Model plant; Transport; Lanthanides; Transcriptomics; REEs
• ISSN: 0304-3894; 1873-3336; 1873-3336
• DOI: 10.1016/j.jhazmat.2024.133701

Rare earth elements (REEs) are crucial elements for current high-technology and renewable energy advances. In addition to their increasing usage and their low recyclability leading to their release into the environment, REEs are also used as crop fertilizers. However, little is known regarding the cellular and molecular effects of REEs in plants, which is crucial for better risk assessment, crop safety and phytoremediation. Here, we analysed the ionome and transcriptomic response of Arabidopsis thaliana exposed to a light (lanthanum, La) and a heavy (ytterbium, Yb) REE. At the transcriptome level, we observed the contribution of ROS and auxin redistribution to the modified root architecture following REE exposure. We found indications for the perturbation of Fe homeostasis by REEs in both roots and leaves of Arabidopsis suggesting competition between REEs and Fe. Furthermore, we propose putative ways of entry of REEs inside cells through transporters of microelements. Finally, similar to REE accumulating species, organic acid homeostasis (e.g. malate and citrate) appears critical as a tolerance mechanism in response to REEs. By combining ionomics and transcriptomics, we elucidated essential patterns of REE uptake and toxicity response of Arabidopsis and provide new hypotheses for a better evaluation of the impact of REEs on plant homeostasis. [Display omitted] •Combined transcriptomics and ionomics reveal Arabidopsis thaliana response to REEs.•REEs likely induce ROS and auxin-mediated root architecture modifications.•REE perturbs nutrient homeostasis by competing for cellular transport pathways.•Organic acids could be of importance for REE tolerance.