Aqueous extracts of 30 plants were investigated for their antioxidant properties using DPPH and ABTS radical scavenging capacity assay, oxygen radical absorbance capacity (ORAC) assay, superoxide dismutase (SOD) assay, and ferric reducing antioxidant potential (FRAP) assay. Total phenolic content was also determined by the Folin-Ciocalteu method. Antioxidant properties and total phenolic content differed significantly among selected plants. It was found that oak (Quercus robur), pine (Pinus maritima), and cinnamon (Cinnamomum zeylanicum) aqueous extracts possessed the highest antioxidant capacities in most of the methods used, and thus could be potential rich sources of natural antioxidants. These extracts presented the highest phenolic content (300-400 mg GAE/g). Mate (Ilex paraguariensis) and clove (Eugenia caryophyllus clovis) aqueous extracts also showed strong antioxidant properties and a high phenolic content (about 200 mg GAE/g). A significant relationship between antioxidant capacity and total phenolic content was found, indicating that phenolic compounds are the major contributors to the antioxidant properties of these plants.
The Populus species possess great potential for therapeutical applications, especially for their known anti-inflammatory properties. The antioxidant properties of propolis, a hive product collected by honey bees mainly from poplar bud exudates, suggest that poplar buds also possess antioxidant properties. Here is reported the characterization of the antioxidant properties of an aqueous poplar bud (Populus nigra) extract. It presented a high total phenolic content, and moderate antioxidant properties as determined by ORAC assay. The main phenolic compounds identified were phenolic acids and flavonoid aglycons. These phenolic compounds were analyzed by ORAC assay for their individual antioxidant activity, in order to determine the major contributors to the total antioxidant activity of the extract. Thanks to their high antioxidant activity, caffeic and p-coumaric acids were identified as the major antioxidant components. Representing only 3.5% of its dry weight, these compounds represented together about 50% of the total antioxidant activity of the extract. The antioxidant properties of poplar bud extract and the phenolic compounds identified were also analyzed by cellular antioxidant activity assay (CAA), which was weakly correlated with ORAC assay. The transcriptional effect of poplar bud extract on skin aging was evaluated in vitro on a replicative senescence model of normal human dermal fibroblasts, using a customized DNA macroarray specifically designed to investigate skin aging markers. Among the detected genes, poplar bud extract significantly regulated genes involved in antioxidant defenses, inflammatory response and cell renewal. The collective antioxidant properties and transcriptional effect of this extract suggest potential antiaging properties which could be utilized in cosmetic and nutraceutical formulations.
The formation of reactive oxygen species (ROS) is a widely accepted pivotal mechanism leading to skin aging. It increases with age, while the endogenous defense mechanisms that counter them decrease. This imbalance, called oxidative stress, leads to the progressive damage of cellular structures and results in accelerated aging. Antioxidant compounds can provide protection from endogenous and exogenous oxidative stress by scavenging free radicals. The main phenolic compounds of oak wood, mate leaf and benjoin resin antioxidant extracts were identified and the effects of these extracts on skin aging markers were evaluated using DNA macroarray technology. The transcriptional effect of the three antioxidant extracts was evaluated in vitro on a replicative senescence model of normal human dermal fibroblasts (NHDF), using a customized DNA macroarray specifically designed to investigate aging markers such as dermal structure, cell renewal, inflammatory response and oxidative stress mechanisms. Among the 149 genes detected, the three antioxidant extracts presented a significant regulation of five genes involved in inflammatory response, cell renewal and antioxidant defenses. The collective transcriptional effects of these extracts suggest interesting antiaging properties which could be utilized in nutraceutical antiaging formulations.
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