Heat Acclimation under Drought Stress Induces Antioxidant Enzyme Activity in the Alpine Plant Primula minima .
Thomas RoachGilbert NeunerIlse KrannerOthmar BuchnerPublished in: Antioxidants (Basel, Switzerland) (2023)
Heat and drought stresses are increasingly relevant topics in the context of climate change, particularly in the Alps, which are warming faster than the global average. Previously, we have shown that alpine plants, including Primula minima , can be gradually heat hardened under field conditions in situ to achieve maximum tolerance within a week. Here, we investigated the antioxidant mechanisms of P. minima leaves that had been heat hardened (H) without or with (H+D) additional drought stress. Lower free-radical scavenging and ascorbate concentrations were found in H and H+D leaves, while concentrations of glutathione disulphide (GSSG) were higher under both treatments without any change in glutathione (GSH) and little change in glutathione reductase activity. In contrast, ascorbate peroxidase activity in H leaves was increased, and H+D leaves had >two-fold higher catalase, ascorbate peroxidase and glucose-6-phosphate dehydrogenase activities compared with the control. In addition, the glutathione reductase activity was higher in H+D compared with H leaves. Our results highlight that the stress load from heat acclimation to maximum tolerance is associated with a weakened low-molecular-weight antioxidant defence, which may be compensated for by an increased activity of antioxidant enzymes, particularly under drought conditions.
Keyphrases
- heat stress
- climate change
- oxidative stress
- anti inflammatory
- essential oil
- magnetic resonance
- clinical trial
- metabolic syndrome
- hydrogen peroxide
- randomized controlled trial
- magnetic resonance imaging
- skeletal muscle
- nitric oxide
- adipose tissue
- arabidopsis thaliana
- mass spectrometry
- computed tomography
- blood pressure
- risk assessment
- blood glucose