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A Preliminary Study Investigating the Effects of Elevated Antioxidant Capacity of Daily Snacks on the Body’s Antioxidant Defences in Patients with CVD
The antioxidant potential of foods plays a vital role in counteracting oxidative stress and its consequences in the body. Superoxide dismutase (SOD), catalase (CAT), and glutathione peroxidase (GPx) are the primary line of defence against cellular damage caused by reactive oxygen species (ROS). Glutathione is considered to be the most vital antioxidant for the body because its changes during oxidative stress increase the risk of CVD. The dietary antioxidant capacity supporting the glutathione defence system is not known. Therefore, we analysed the glutathione defence-related markers changes in the serum of CVD patients under the dietary supplementation of increased antioxidant capacity snacks. Patients were split into groups according to inclusion criteria and dietary intervention (DI) design. The serum concentration of GPx and GST (glutathione-S-transferase) was measured before and after the 6-week DI. During the DI, CVD and control (CON) subjects increased the total diet antioxidant capacity by 48% and 21%, respectively. It resulted in a significantly decreased GST (from 3.71 to 2.54 U/g Hb, p < 0.05) and an increased GPx (from 33.90 to 38.3 U/L). The results in the CON group did not reveal significant changes in GST and GPx. This study demonstrated that an increased antioxidant capacity might be associated with improving glutathione-related defence. However, the conclusion is not substantial due to the small sample used in this study.
Characterization of Tocochromanols in Wild Hypericum perforatum Populations in Latvia
St. John’s wort (Hypericum perforatum L.) is an ornamental and medical plant, distributed worldwide, which is rich in diverse secondary metabolites. The discovery of the presence of tocotrienols (rare prenyllipids) in H. perforatum marks a new chapter demanding a deeper understanding of the accumulation of these lipophilic biomolecules. Three wild St. John’s wort populations were harvested in Latvia at three different locations from 2022 to 2024 and separated into stems, leaves, flower buds, and flowers. Plant samples were freeze-dried, ground, saponified, and analyzed for tocochromanol profiles using RP-LC-FLD and confirmed by an LC-MS system. Eight tocochromanols, four tocopherols (Ts), and four tocotrienols (T3s), were identified and confirmed in H. perforatum. Leaves were dominated by α-T (82%), and flower buds and flowers by δ-T3 (44%); thus, the lowest concentrations of tocotrienols were recorded in leaves and the highest in flower buds. The other tocotrienols were present as follows: α-T3 > γ-T3 > β-T3. The location of H. perforatum, the year of harvest, the aerial part of the plant, and their interactions all significantly influenced the content of tocochromanols (p < 0.05). The present study demonstrates relevant discoveries regarding the accumulation of tocotrienols in various St. John’s wort organs and their variability.