Exogenous curcumin mitigates As stress in spinach plants: A biochemical and metabolomics investigation

Leilei Zhang; Gokhan Zengin; Ceyda Ozfidan-Konakci; Evren Yildiztugay; Busra Arikan; Rumeysa Ekim; Buket Koyukan; Fevzi Elbasan; Luigi Lucini

doi:10.1016/j.plaphy.2024.108713

Exogenous curcumin mitigates As stress in spinach plants: A biochemical and metabolomics investigation

Plant Physiol Biochem. 2024 Jun:211:108713. doi: 10.1016/j.plaphy.2024.108713. Epub 2024 May 8.

Authors

Leilei Zhang¹, Gokhan Zengin², Ceyda Ozfidan-Konakci³, Evren Yildiztugay⁴, Busra Arikan⁴, Rumeysa Ekim⁴, Buket Koyukan⁴, Fevzi Elbasan⁴, Luigi Lucini⁵

Affiliations

¹ Department for Sustainable Food Process, Università Cattolica del Sacro Cuore, 29122, Piacenza, Italy. Electronic address: leilei.zhang@unicatt.it.
² Department of Biology, Faculty of Science, Selcuk University, Selcuklu, 42130, Konya, Turkey. Electronic address: gokhanzengin@selcuk.edu.tr.
³ Department of Molecular Biology and Genetics, Faculty of Science, Necmettin Erbakan University, Meram, 42090, Konya, Turkey.
⁴ Department of Biotechnology, Faculty of Science, Selcuk University, Selcuklu, 42130, Konya, Turkey.
⁵ Department for Sustainable Food Process, Università Cattolica del Sacro Cuore, 29122, Piacenza, Italy.

PMID: 38739963
DOI: 10.1016/j.plaphy.2024.108713

Abstract

The spinach (S. oleracea L.) was used as a model plant to investigate As toxicity on physio-biochemical processes, exploring the potential mitigation effect of curcumin (Cur) applied exogenously at three concentrations (1, 10, and 20 μM Cur). The employment of Cur significantly mitigated As-induced stress in spinach photosynthetic performance (F_v/F_m, F_o/F_m, and F_v/F_o). Moreover, the co-incubation of Cur with As improved physiological processes mainly associated with plant water systems affected by As stress by recovering the leaf's relative water content (RWC) and osmotic potential (ψπ) nearly to the control level and increasing the transpiration rate (E; 39-59%), stomatal conductivity (g_s; 86-116%), and carbon assimilation rate (A; 84-121%) compared to As stressed plants. The beneficial effect of Cur in coping with As-induced stress was also assessed at the plant's oxidative level by reducing oxidative stress biomarkers (H₂O₂ and MDA) and increasing non-enzymatic antioxidant capacity. Untargeted metabolomics analysis was adopted to investigate the main processes affected by As and Cur application. A multifactorial ANOVA discrimination model (AMOPLS-DA) and canonical correlation analysis (rCCA) were employed to identify relevant metabolic changes and biomarkers associated with Cur and As treatments. The results highlighted that Cur significantly determined the accumulation of glucosinolates, phenolic compounds, and an increase in glutathione redox cycle activities, suggesting an overall elicitation of plant secondary metabolisms. Specifically, the correlation analysis reported a strong and positive correlation between (+)-dihydrokaempferol, L-phenylalanine (precursor of phenolic compounds), and serotonin-related metabolites with antioxidant activities (ABTS and DPPH), suggesting the involvement of Cur application in promoting a cross-talk between ROS signaling and phytohormones, especially melatonin and serotonin, working coordinately to alleviate As-induced oxidative stress. The modulation of plant metabolism was also observed at the level of amino acids, fatty acids, and secondary metabolites synthesis, including N-containing compounds, terpenes, and phenylpropanoids to cooperate with As-induced stress response.

Keywords: Arsenic; Curcumin; Oxidative stress; Photosynthetic performance; Secondary metabolism.

MeSH terms

Antioxidants / metabolism
Curcumin* / pharmacology
Metabolomics*
Oxidative Stress / drug effects
Photosynthesis* / drug effects
Plant Leaves / drug effects
Plant Leaves / metabolism
Spinacia oleracea* / drug effects
Spinacia oleracea* / metabolism
Stress, Physiological / drug effects

Substances

Curcumin
Antioxidants