# Dopamine modulates antioxidant and phenolic responses to alleviate nickel stress in Salvia officinalis

**Authors:** Seyed Hamed Moazzami Farida, Nosrat Rahmani, Marzieh Taghizadeh, Benedicte Riber Albrectsen

PMC · DOI: 10.1186/s12870-026-08365-5 · BMC Plant Biology · 2026-02-11

## TL;DR

Dopamine helps sage plants tolerate nickel stress by reducing oxidative damage and boosting phenolic defenses.

## Contribution

This study reveals dopamine's novel role in enhancing nickel tolerance in Salvia officinalis through antioxidant and phenolic pathways.

## Key findings

- Dopamine application reduced oxidative stress markers by 16–24% in nickel-exposed sage plants.
- Dopamine increased rosmarinic acid accumulation by up to 91% and boosted PAL and TAT enzyme activities.
- Multivariate analyses showed dopamine-treated plants adopted a phenolic-based defense strategy under stress.

## Abstract

Nickel (Ni) contamination is a significant constraint to agricultural sustainability and medicinal plant productivity, leading to oxidative stress, nutrient imbalance, and disruption of secondary metabolism. Dopamine (DA) has been reported as a stress-mitigating agent in plants. Still, its role in shaping antioxidants and phenolic responses to Ni toxicity in medicinal species, such as Salvia officinalis, remains poorly understood.

Exposure to increasing Ni concentrations (0–1000 µM) significantly reduced biomass (-46%), chlorophyll b (-57%), and shoot Ca and Fe contents (-50% and − 63%, respectively), while elevating oxidative markers (hydrogen peroxide (H2O2), malondialdehyde (MDA); 2.6-fold increase). Foliar DA application (0-100 µM) partially alleviated these effects by restoring biomass (+ 42%), enhancing Ca and Fe translocation (up to 1.7-fold), and maintaining carotenoid levels at nearly twice the control level under moderate stress. DA reduced oxidative markers by 16–24% and moderated the over-accumulation of superoxide dismutase (SOD), catalase (CAT), and peroxidase (POD) activities. Significantly, DA promoted phenolic-based antioxidant responses, increasing phenylalanine ammonia-lyase (PAL) (3.8-fold) and tyrosine aminotransferase (TAT) (1.5-fold) activities and stimulating rosmarinic acid accumulation (up to 91% above control). Multivariate analyses (principal component analysis (PCA), heatmap clustering, correlation networks, random forest) supported these findings, indicating that DA-treated plants clustered with low-stress phenotypes and shifted their defense balance toward phenolic rather than enzyme-dominated strategies.

This study provides integrative physiological and metabolic evidence that DA enhances Ni tolerance in sage by reducing oxidative damage, supporting nutrient uptake, and reinforcing phenolic metabolism. These results highlight DA as a promising candidate biostimulant under controlled conditions, with relevance to the sustainable cultivation of medicinal plants in metal-contaminated soils, pending further validation.

The online version contains supplementary material available at 10.1186/s12870-026-08365-5.

## Linked entities

- **Proteins:** TAT3 (tyrosine aminotransferase 3), Cat (Catalase), peroxidase (peroxidase PPOD1-like)
- **Chemicals:** dopamine (PubChem CID 681), nickel (PubChem CID 935), hydrogen peroxide (PubChem CID 784), malondialdehyde (PubChem CID 10964), rosmarinic acid (PubChem CID 639655)
- **Species:** Salvia officinalis (taxon 38868)

## Full-text entities

- **Chemicals:** Dopamine (MESH:D004298), phenolic (-), nickel (MESH:D009532)
- **Species:** Salvia officinalis (garden sage, species) [taxon 38868]

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12997738/full.md

## References

3 references — full list in the complete paper: https://tomesphere.com/paper/PMC12997738/full.md

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Source: https://tomesphere.com/paper/PMC12997738