Potential Activity Mechanisms of Aesculus hippocastanum Bark: Antioxidant Effects in Chemical and Biological In Vitro Models

Owczarek, Aleksandra; Kołodziejczyk-Czepas, Joanna; Woźniak-Serwata, Joanna; Magiera, Anna; Kobiela, Natalia; Wąsowicz, Katarzyna; Olszewska, Monika A.

doi:10.3390/antiox10070995

Cited by 15 publications

(12 citation statements)

References 39 publications

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“…The antioxidant effects seen in the study correlate with those of published work, although some differences have occurred due to the methodology and type of extract that was used in the study [26]. The high density of procyanidins may be an explanation for the higher activity in fruit extracts as this compound is often associated with antioxidant effects [21]. The large standard deviation that was seen not only in the antioxidant results, but the antifungal assay too, could also be explained by the minor difference in chemistry across species.…”

Section: Antioxidant Activitysupporting

confidence: 71%

“…Aside from aescin other chemical constituents within horse chestnuts have bioactivity [14][15][16][17], i.e., the similarly named aesculin, not to be confused with aescin, is a coumarin glycoside that is well known for anticancer and antimicrobial effects [18,19]; fraxins have hepatoprotective properties and the ability to positively affect the immune system [18,20]; procyanidins have long been associated with health benefits as antioxidants, vascular protective compounds [21], and are protective against neurodegenerative diseases [22]; and kaempferol and quercetin derivatives inhibit biofilm formation and alleviate pain and inflammation [23]. Overall, the combination of the bioactive compounds gives horse chestnut extracts numerous beneficial effects.…”

Section: Introductionmentioning

confidence: 99%

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Comparative Metabolomics of Reproductive Organs in the Genus Aesculus (Sapindaceae) Reveals That Immature Fruits Are a Key Organ of Procyanidin Accumulation and Bioactivity

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Padilla-González

Phumthum

et al. 2021

Plants

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Fruit from A. hippocastanum L. are used commercially for chronic venous insufficiency (CVI). The isomeric mixture of pentacyclic triterpenoid saponins (β-aescin) exert anti-inflammatory effects. Hence, research has focused on β-aescin, yet the diversity, accumulation, and bioactivity of organ-specific secondary metabolites represent missed pharmacological opportunities. To this end, we applied an untargeted metabolomics approach by liquid chromatography—tandem mass spectrometry (LC–MS/MS) to the chemical profiles of flowers, immature fruits, and pedicels from 40 specimens across 18 species of Aesculus. Principal component analysis (PCA), orthogonal partial least squares (OPLS-DA), and molecular networking revealed stronger chemical differences between plant organs, than between species. Flowers are rich in glycosylated flavonoids, pedicels in organic acids and flavonoid aglycones, and immature fruits in monomeric flavan-3-ols and procyanidins. Although a high diversity of flavonoids and procyanidins was observed, the relative amounts differed by plant organ. Fruit extracts demonstrated the strongest antifungal (Saccharomyces cerevisiae) and antioxidant activity, likely from the procyanidins. Overall, secondary metabolite profiles are organ-specific, and fruits accumulate antifungal and antioxidant compounds. Due to the chemical similarity between species, similar effects may be achieved between species. This creates incentives for further exploration of the entire genus, in bioprospecting for potential therapeutic leads.

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Section: Antioxidant Activitysupporting

confidence: 71%

Section: Introductionmentioning

confidence: 99%

Comparative Metabolomics of Reproductive Organs in the Genus Aesculus (Sapindaceae) Reveals That Immature Fruits Are a Key Organ of Procyanidin Accumulation and Bioactivity

Green

Padilla-González

Phumthum

et al. 2021

Plants

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“…Compound 18 demonstrated dose-dependent scavenging potential and have particularly advantageous capacity against peroxynitrite (3.37–13.26 mmol AA/g), hydroxyl radical (5.03–8.91 mmol AA/g) and superoxide radical (3.50–5.50 mmol AA/g) (ascorbic acid (AA) was used as positive control.) [ 85 ]. Many flavan-4-ol glycosides also showed remarkable antioxidant and free radical scavenging properties.…”

Section: Pharmacological Activitiesmentioning

confidence: 99%

Flavanols from Nature: A Phytochemistry and Biological Activity Review

et al. 2022

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Flavanols, a common class of secondary plant metabolites, exhibit several beneficial health properties by acting as antioxidant, anticarcinogen, cardioprotective, anti-microbial, anti-viral, and neuroprotective agents. Furthermore, some flavanols are considered functional ingredients in dairy products. Based on their structural features and health-promoting functions, flavanols have gained the attention of pharmacologists and botanists worldwide. This review collects and summarizes 121 flavanols comprising four categories: flavan-3-ols, flavan-4-ols, isoflavan-4-ols, and flavan-3,4-ols. The research of the various structural features and pharmacological activities of flavanols and their derivatives aims to lay the groundwork for subsequent research and expect to provide mentality and inspiration for the research. The current study provides a starting point for further research and development.

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“…Most of the research conducted on A. hippocastanum focused on its properties to regulate circulatory system imbalances and relieve attacks of hemorrhoids [33]. In a study conducted by…”

Section: -2-susceptiility Of Clinical Strains To Antibioticsmentioning

confidence: 99%

“…Owczarek et al [33] on the composition of A. hippocastanum bark, it has been reported that this plant presents mainly two groups of compounds: coumarins and proanthocyanidins. Among the coumarins there was mainly esculin (over 17%) and fraxin (over 7%) while among the proanthocyanidins, the authors found epicatechin (over 6%) and procyanidin A2 (over 5%) (Figure 2) [33]. Owczarek et al [33] finally conclude that, in total, about 40% of the A. hippocastanum bark extract could be attributed to simple phenolics compounds detectable by LC-PDA.…”

Section: -2-susceptiility Of Clinical Strains To Antibioticsmentioning

confidence: 99%

Assessment of antimicrobial activity of ethanolic and aqueous extracts ofAesculus hippocastanumL. (horse chestnut) bark against bacteria isolated from urine of patients diagnosed positive to urinary tract infections

Yuriy

Arsène

Aliya

et al. 2021

Preprint

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The search for new antimicrobials is essential to address the worldwide issue of antibiotic resistance which affects all areas requiring the use of antibiotics including the management of diseases such as urinary tract infections (UTIs). Aim: To assess the antimicrobial activity of ethanolic and aqueous extract of Aesculus hippocastanum L. (horse chestnut) bark. Material and Method: Bioactive compounds were extracted from A. hippocastanum bark using water and ethanol as solvent. The extracts were tested against 10 clinical strains isolated from urine of patients diagnosed positive to urinary tract infections and including five Gram-positive bacteria (Kocuria rhizophila 1542, Enterococcus avium 1669, Staphylococcus simulans 5882, Conybacterium spp 1638, Enterococcus faecalis 5960) and five Gram-negative (Proteus mirabilis 1543, Morganella morganii 543, Citrobacter freundi 426, Acynetobacter baumannii 5841 and Achromobacter xylosoxidans 4892). Staphylococcus aureus ATCC 6538 and Escherichia coli ATCC 25922 were used as standard Gram+ and Gram- respectively. The susceptibility of the test strains to antibiotic was assessed using the Kirby Bauer disc diffusion method while the antibacterial activity of the extracts was evaluated using the well diffusion method. We finally determined the Minimum inhibitory concentration (MIC) and the minimum bactericidal concentrations (MBC) by the microdilution method. Results: A. hippocastanum bark possessed a dry matter content of 65.73%. The volume yield of the ethanolic and aqueous extract (AE) was 77,77% and 74,07% (v/v), respectively, whereas their mass yields were 13,4% and 24,3% (w/w), respectively. All the bacteria were susceptible to amoxiclav, imipenem and ceftriaxone, both standard bacteria (E. coli ATCC 25922 and S. aureus ATCC 6538) were sensitive to all antibiotics while the clinical strains were resistant to at least one antibiotic. K. rizophilia 1542 and Conybacterium spp 1638 were the most resistant bacteria both with multidrug resistance index of 0.45. Except AE on P. Mirabilis 1543 and E. faecalis 5960 (0 mm), both AE and EE were active against all the microorganisms tested with inhibition diameters (mm) which ranged from 5.5-10.0 for AE and 8.0-14.5 for EE. The MICs of EEs varied from 1-4 mg/ml while those of EAs varied from 4-16 mg/ml. Almost all the MBCs of AEs were indeterminate (>64 mg/ml) while those of EE were successfully determined. The ethanolic extracts (EE) were overall more active than the aqueous ones. Conclusion: The A. hippocastanum bark extracts had overall weak antibacterial activity (MIC ≥0.625 mg/ml) and bacteriostatic potential (MBC/MIC ≥16) on both Gram-positive and Gram-negative bacteria. Therefore, studies with other solvents (such as methanol and chloroform), other extraction techniques, and synergy tests with conventional antibiotics are needed to conclude on a potential better antimicrobial activity of this plant material.

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Potential Activity Mechanisms of Aesculus hippocastanum Bark: Antioxidant Effects in Chemical and Biological In Vitro Models

Cited by 15 publications

References 39 publications

Comparative Metabolomics of Reproductive Organs in the Genus Aesculus (Sapindaceae) Reveals That Immature Fruits Are a Key Organ of Procyanidin Accumulation and Bioactivity

Comparative Metabolomics of Reproductive Organs in the Genus Aesculus (Sapindaceae) Reveals That Immature Fruits Are a Key Organ of Procyanidin Accumulation and Bioactivity

Flavanols from Nature: A Phytochemistry and Biological Activity Review

Assessment of antimicrobial activity of ethanolic and aqueous extracts ofAesculus hippocastanumL. (horse chestnut) bark against bacteria isolated from urine of patients diagnosed positive to urinary tract infections

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