Metal Chelating Activity Research Articles

Exploring the Functional Potential of Breast Milk Protein Hydrolysates: Antiglycation, Antioxidant, Metal Chelation, and Lipid Peroxidation Activities

The formation of advanced glycation end products (AGEs) is a pivotal factor in the development of various age-related and diabetes associated pathophysiologies, including but not limeted to arthritis, Alzheimer’s disease, atherosclerosis and cataracts. Consequently, the prospect of inhibiting AGE formation emerges as a viable strategy to prevent or halt the advancement of diabetic complications. In the scientific literature, there is still a reluctance to produce bioactive peptides demonstrating antiglycation activity from breast milk. The breast milk protein was hydrolysed using trypsin for 240 min. The antiglycation, metal chelating activity, lipid peroxidation activity, and antioxidant activity of the peptides in the hydrolysates obtained after hydrolysis of human milk with trypsin enzyme were performed. The peptide diversity obtained after hydrolysis was determined by RP-HPLC. The breast milk hydrolysate was demonstrated significant antiglycation activity (IC50: 312.8 ± 12.1 µg/mL), antioxidant activity (61.8±4.58 mM AAE/µg peptide) , metal chelation activity (24.4%/μg peptide). The hydrolysate effectively inhibited lipid peroxidation (30.5±0.12%) compared to Trolox (51.2±0.3%). These findings highlight the potential of breast milk protein hydrolysates as a source of bioactive peptides with diverse health benefits. The present study offers valuable insights into utilizing human milk peptides as novel functional food components.

In vitro antioxidants and anti-inflammatory potentials of high protein-fibre cookies produced from whole wheat, sweet potato, rice bran and peanut composite flour blends

The growing demand for low-cost and functional snacks in many developing nations called for interest in the use of locally grown crops as substitutes for costly imported wheat flour. The amino acid composition, antioxidant and anti-inflammatory properties of the cookies from whole wheat, sweet potato, rice bran and peanut (56.25:18.75:5:20; 37.50:37.50:5:20; 18.75:56.25:5:20% as WPRG 1, WPRG 2, WPRG 3) composite flour blends, respectively, were obtained in this study. The 100% whole wheat and 100% refined flours served as control 1 and 2, respectively. The level of hydrophobic and aromatic amino acids was significantly (p < 0.05) high in WPRG 2 (~ 30 and ~ 10%), respectively when compared to others. However, the branched chain amino acids and Fischer ratio was significantly (p < 0.05) high in WPRG 1 (11.40% and 1.29), respectively, which could have contributed to their improved bioactivities. Notably, the composite cookie samples WPRG 1, 2 and 3 had higher hydroxyl (73.86 − 84.16%), DPPH (76.52 − 84.60%) radical scavenging as well as ferric reducing antioxidant (0.64–0.87 mmolFe2+/mg) properties than the control samples WWF and CWF, respectively. On the contrary, the metal chelating activities of the cookies WPRG 1–3 were not significantly (p > 0.05) different from control samples WWF and CWF. The improved amino acid profile and enhanced antioxidant properties of the composite cookies might have effectively influenced their anti-inflammatory properties (IC50; < 26 μg/ml) when compared to the control samples (IC50; ~ 40 μg/ml), respectively. Hence, the cookies that comprised of antioxidants and anti-inflammatory potentials needed in human health, were acceptable by the consumers.Graphical

Advanced-designed Ru(II) complexes containing phosphinite ligands derived from chiral amino alcohols: Electrochemical behavior, DFT calculations, and biological activity

We report two phosphinite ligands derived from chiral amino alcohols, and their complexes with ruthenium(II). These compounds were characterized by spectroscopic methods. Then, antimicrobial, antioxidant, and DNA binding activities of the chiral Ru(II)-phosphinite complexes were tested. Complex (1R)-2-{benzyl[(1S)-1-(naphthalen-1-yl)ethyl]amino}-1-phenylethyl diphenylphos- phinito[dichloro(η6-p-cymene)ruthenium(II)], 7 showed both the highest radical scavenging activity (90.93 ± 0.98 %) and the highest metal chelating activity (65.45 ± 1.46 %) at 200.0 mg l-1 concentration. In addition, all of complexes had different rates of binding activity to calf thymus DNA (CT-DNA). Moreover, extensive theoretical and experimental investigations were conducted to gain a more profound understanding of the chemical descriptors and the diverse electronic transitions taking place within the ruthenium complexes, as well as their electrochemical characteristics.

Optimization of microwave parameters to enhance phytochemicals, antioxidants and metabolite profile of de-oiled rice bran

The current study explores the effects of microwave treatment at varying wattage and durations on the phytoconstituents, antioxidant status, anti-nutritional factors (ANFs), and metabolite profiles of de-oiled rice bran. The total phenolics and flavonoids showed both increases and decreases depending on specific microwave parameters, while flavonol content consistently increased across all treated groups compared to the control. The DPPH and ABTS free radical scavenging activity, total antioxidant capacity, FRAP, CUPRAC, metal chelating activity, and ascorbic acid content were enhanced in most of the microwaved samples; however, longer microwave exposure at higher wattage led to their reduction. A treatment-specific decrease in ANFs, including condensed tannins, oxalates, and phytates, was observed. HRMS-based untargeted metabolomics identified a diverse range of primary and secondary metabolites, which clustered in a group-specific manner, indicating notable group-wise metabolite variations. Analysis of discriminating metabolites revealed no significant differences in the overall levels of phenolics, flavonoids, vitamins and cofactors, sugars, amino acids, terpenoids, fatty acids, and their derivatives among the treated groups compared to the control; however, several individual metabolites within these metabolite classes differed significantly. These findings suggest that optimized microwaving of de-oiled rice bran can enhance phytochemicals and antioxidants while improving the metabolite profile.

Identification of 3-methyl-1-(3-methylpyridin-2-yl)-1H-pyrazol-5-ol as promising neuroprotective agent

Pyrazolol derivatives are gaining significant attention for their diverse pharmacological effects, such as analgesic, anti-inflammatory, antioxidant, and anticancer activities. In this study, 20 pyrazolol derivatives were designed and synthesized to develop an anti-ischemic stroke formulation with free radical scavenging activity. Most of these synthesized compounds demonstrated antioxidant capabilities in DPPH, ABTS radical scavenging, and ORACFL assays. The methyl-substituted compound Y12, in particular, showed exceptional antioxidant capacity. Additionally, these compounds showed excellent neurocytoprotective effects in the SH-SY5Y cell injury model subjected to oxygen-glucose deprivation/reoxygenation (OGD/R). Notably, Y12 exhibited significant metal chelating activity with Cu2+. In vivo studies confirmed that compound Y12 has neuroprotective effects and can significantly reduce the infarct area in a mouse model of focal cerebral ischemia induced by transient middle cerebral artery occlusion (tMCAO).

Synthesis, spectral characterization and biological activities of o,o'-dihydroxyazo compounds containing gallic acid: Molecular docking and dynamics simulation and MM-PBSA studies

In the investigation, diazonium derivatives of 2-aminophenol, 2-amino-4-methylphenol, 2-amino-4-chlorophenol, and 2-amino-5-nitrophenol reacted with gallic acid to produce four distinct o,o'-dihydroxyazo compounds. Description of the o,o'-dihydroxyazo compounds that were produced identified the substituent spectrum data using UV–Vis, FT-IR, NMR spectroscopy and MS spectrometry methods. The UV–Vis behaviors of compounds in ethanol and DMSO were noted at various pH values. The antioxidant, antimicrobial, and urease inhibitory activities of the compounds were determined spectrophotometrically and compared to standard compounds. The DPPH˙ scavenging and metal chelating activities of compound 4b were 2.17 ± 0.04 and 11.62 ± 0.64 μg/mL, respectively. Compounds exhibited an effective antibacterial activity against B. cereus. The urease inhibition capacity of compound 4c (IC50: 4.79 ± 0.01 μg/mL) was more effective than thiourea (IC50: 20.04 ± 0.16 μg/mL). Moreover, molecular docking calculations were used to assess the urease inhibition potentials, inhibition kinetics, and interactions of the synthesized compounds with antimicrobial enzymes and urease. The compounds had substantial impacts on density functional theory (DFT), molecular electrostatic potential (MEP), inhibition kinetics, enzyme inhibition, and PASS prediction tests. For this reason, molecular dynamics simulation and MM-PBSA energy calculation were performed to assess the compounds' stability during urease binding.As a result, the effective pharmacological properties of the newly synthesized o,o'-dihydroxyazo compounds were revealed by different in vitro bioactivity tests and in silico calculations.

Hydrogen-rich solvent method enhances the extraction of phenolics, pigments, reducing sugars, organic acids, and vitamin C from cowslip (Primula veris L.) flower

Cowslip (Primula veris L.) is an anioxidant-rich plant used for many food and medicinal purposes. In this study, the effect of incorporating hydrogen (H2) into water (HRW), ethanol (HRE), and methanol (HRM) on the extraction of flavonoids (TFC), phenolics (TPC), and antioxidants (metal chelation, FRAP, DPPH, and ABTS) as well as color (L*, a*, b*, C*, H°), chlorophyll (a, b), lycopene, and β-carotene of wild cowslip flowers was evaluated. The results were submitted to Principal Component Analysis and correlation. Phenolic compounds, organic acids, vitamin C, and sugar content of the extract were analyzed using high-performance reverse phase liquid chromatography (HPLC-DAD/RID). The highest TPC, TFC, and antioxidant activity (metal chelation, FRAP, DPPH, and ABTS) were shown for HRM samples, followed by HRE samples, while the lowest were found for pure solvents. Incorporating H2 into all solvents significantly increased TPC, TFC, metal chelation, DPPH, and ABTS scavenging activity, as well as b*, C*, H°, chlorophyll, lycopene, and β-carotene values. The levels of some phenolics (catechin, epicatechin, rutin, and quercetin), organic acids (tartaric acid and succinic acid), reducing sugars (maltose, glucose, and fructose), and ascorbic acid increased by 10–90 % when an H2-rich solvent was used instead of the pure solvent. This is the first report showing the enhanced extraction of organic acids, pigments, and ascorbic acid by hydrogen-rich solvent. The main benefits of the HRS method are its sustainability and high efficiency in extracting bioactive compounds from medicinal plants.

A multifunctional natural treasure based on a “one stone, many birds” strategy for designing health-promoting applications: Tordyliumapulum

Wild plants provide important bioactive compounds, and their analysis relies heavily on selecting the right extraction techniques and solvents. This study was conducted to determine the phenolic content and biopharmaceutical potential of four different extracts (ethyl acetate, ethanol, 70% ethanol, and water) from the aerial parts of wild plant Tordylium apulum L. The biochemical profile of the extract was screened using high performance liquid chromatography -mass spectrometry (HPLC-MS) analysis. The total phenolic and flavonoid content was examined using the Folin-Ciocalteu assay and the aluminium trichloride assay, respectively. The antioxidant activity was evaluated through several tests, including 2,2-Diphenyl-1-picrylhydrazyl (DPPH), 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS), cupric reducing antioxidant capacity (CUPRAC), ferric reducing antioxidant power (FRAP), phosphomolybdenum (PBD), and metal chelating activity (MCA). Five types of enzyme inhibition activity were tested against acetylcholinesterase (AChE), butrylcholinesterase (BChE), tyrosinase, α-amylase, and α-glucosidase. Additionally, For the first time, the inhibitory activity of T. apulum extract against human carbonic anhydrase isoenzymes I and II (hCA-I and hCA-II) was evaluated. Fifty-five compounds for negative ionization mode, and twenty-eight compounds for positive ionization mode were recorded in HPLC-MS analysis and they were polyphenolic, flavonoids, carbohydrates, sugar alcohol and amino acids. These results indicate that different solvents extract varying levels of antioxidants from T. apulum, with ethanol and water extracts generally exhibiting superior antioxidant activities. The ethanol extract of T. apulum exhibited the maximum contents of total phenolics measuring 33.71 mg gallic acid equivalent (GAE)/g. The ethanol extract exhibited the highest inhibition of AChE with 2.28 mg galanthamine equivalent (GALAE)/g. The ethyl acetate and ethanol extracts also showed the highest hCA-I and hCA-II inhibition potential, respectively. The ethanol-water and water extracts acted on the biofilm of E. coli (49.93% and 45.22%, respectively), and the biofilm of P. aeruginosa (50.68% and 44.46%, respectively). The extracts were tested on different cell lines for cytotoxic potentials and in particular the water extract induced the apoptotic pathways in cervical cancer (HELA) cell lines. In conclusion, T. apulum exhibit multidirectional biological properties and it could be considered as a versatile agent for the development of health-promoting applications.

Arabinoxylan from pearl millet bran: Optimized extraction, structural characterization, and its bioactivities

Arabinoxylan (AX) from cereals and millets have garnered attention due to the myriad of their bioactivities. Pearl millet (Pennisetum glaucum) bran, an underexplored milling by-product was used to extract AX (PMAX) by optimized alkali-assisted extraction using Response Surface Methodology and Central Composite Design, achieving a yield of 15.96 ± 0.39 % (w/w) under optimal conditions (0.57 M NaOH, 1:17 g/mL solid-to-liquid ratio, 60 °C, 4 h). Structural analysis revealed that PMAX was primarily composed of arabinose, xylose, glucose, galactose, and mannose (molar ratio 45.1:36.1:10.4:7.1:1.8), with a highly substituted (1 → 4)-linked β-D-xylopyranose backbone and a molecular weight of 794.88 kDa. PMAX displayed a significant reducing power of 0.617, metal chelating activity of 51.72 %, and DPPH, and ABTS radical scavenging activities (64.43 and 75.4 %, respectively at 5 mg/mL). It also demonstrated anti-glycation effects by inhibiting fructosamine (52.5 %), protein carbonyl (53.6 %), and total advanced glycation end products (77.0 %) formation, and reduced protein oxidation products such as dityrosine (84.7 %), kynurenine (80.2 %), and N′-formyl-kynurenine (50.0 %) at 5 mg/mL. PMAX induced the growth of Lactobacillus spp. in vitro and modulate gut microbiota in male Wistar rats by increasing Bacteroidetes and decreasing Firmicutes. These results provide a basis for further research on pearl millet arabinoxylan and its possible nutraceutical application.

In vitro antidiabetic and antioxidant activities of Galega officinalis extracts.

The purpose of the present study was to determine the total phenolic, flavonoid, and galegine content and antioxidant activity, as well as the invitro antidiabetic potential of different extracts of Galega officinalis using the solvent extraction method. The results demonstrated that the highest yield of extraction (28.05%) and galegine content (17.40 ± 0.04 μg/g of sample) was obtained using water as the solvent (p < .05). However, the highest total phenolic content (TPC) (138.35 ± 0.63 mg GAE per gram of dried GOEs) and total flavonoid content (TFC) (189.12 ± 1.47 mg catechin per gram of dried GOEs) were extracted using A90 (acetone-water, 90:10) solvent. A90 extract exhibited the highest inhibition of sucrase activity (91.42%) (p < .05). Also, the inhibitory activity of A90 against α-amylase (59.96%), α-glucosidase (54.3%), and maltase (62.73%) was significantly higher than that of A70 (acetone-water, 70:30) and E20 (ethanol-water, 20:80) (p < .05). According to antioxidant activity results, the highest ABTS•+ (360.5 ± 15.69 μmol Trolox eq per gram of dried GOEs), hydroxyl radical-scavenging activity (3657.75 ± 21.56 μmol histidine eq per gram of dried GOEs), and FRAP assay (558.18 ± 20.26 μmol FeSO4 eq per gram of dried GOEs) were related to A90, while the best DPPH radical-scavenging activity and metal-chelating activity were related to A70 (302.66 ± 2.42 μmol Trolox equivalents per gram of dried GOEs) and E20 (36.5 ± 1.02 μmol EDTA eq per gram of dried GOEs), respectively. Taken together, A90 appears to be the best solvent to get Galega officinalis extract with the highest antioxidant and antidiabetic activity.

Cognitive- and memory-enhancing activity of Cinnamon (Cinnamomum zeylanicum) aqueous extract in lead acetate-exposed rats

BackgroundLead (Pb) exposure has been linked to reduced academic performance, lower IQ, cognitive and memory impairments, and other psychiatric conditions such as depression and anxiety. Natural antioxidants and dietary sources of phytochemicals, including Cinnamomum zeylanicum (CZ), have been investigated to possibly replace the current adverse reacting drugs used to treat Pb poisoning. Consequently, this study evaluated the activity of CZ against Pb-mediated neurotoxicity. MethodsWistar rats were assigned into six groups (n = 8) namely: Control; Lead acetate (Pb; 100 mg kg−1 body weight [BW]); CZ-pre-treated groups (CZ1 [200 mg.kg−1 BW] + Pb and CZ2 [400 mg kg−1 BW] + Pb); and CZ-only groups (CZ1 and CZ2). After 28 days, neurobehavioral, antioxidant, lipid peroxidation, nitric oxide, and Pb concentration levels, as well as hippocampal and cerebral histology, were evaluated. ResultsFindings showed a significant reduction (p < 0.05) in final body and whole brain weights, cognition, and memory impairments, dysregulation of antioxidant enzymes, lipid peroxidation, and elevated nitric oxide as well as high Pb concentrations in the hippocampus and cerebrum of Pb-exposed rats following comparison to the control and CZ pretreated rats. Histological findings revealed morphological alterations with vacuolated tissue architecture in the hippocampus and cerebrum of Pb-exposed rats while the rats pre-treated with CZ showed similar morphology to the control rats. ConclusionAltogether, the findings showed that CZ was not toxic to the rats but protected against Pb toxicity, mediated possibly through its potent antioxidant, nitric oxide scavenging, and metal chelation activity.

Effect of Alkylresorcinols Isolated from Wheat Bran on the Oxidative Stability of Minced-Meat Models as Related to Storage.

Due to their antioxidant activity, alkylresorcinols (ARs) extracted from by-products could represent promising natural and innovative antioxidants for the food industry. This study tested the ability of ARs isolated from wheat bran to increase the shelf-life of minced-meat models stored at 4 °C for 9 days. Fifteen alk(en)ylresorcinols (C17-C25) were recognized by GC/MS, showing good radical-scavenging (200.70 ± 1.33 μmolTE/g extract) and metal-chelating (1.38 ± 0.30 mgEDTAE/g extract) activities. Two ARs concentrations (0.01% and 0.02%) were compared to sodium ascorbate (0.01% and 0.10%) on color (CIELAB values L*, a*, b*, chroma, and hue) and oxidative stability (lipid hydroperoxides, thiobarbituric acid reactive substances (TBARS), and volatile organic compounds (VOCs)) of minced-beef samples. ARs-treated samples were oxidatively more stable than those formulated with sodium ascorbate and the negative control, with significantly lower contents of hydroperoxides and VOCs (hexanal, 1-hexanol, and 1-octen-3-ol) throughout the experiment (p < 0.001). However, no effect on color stability was observed (p > 0.05). Since 0.01% of ARs was equally or more effective than 0.10% sodium ascorbate, those results carry important implications for the food industry, which could reduce antioxidant amounts by ten times and replace synthetic antioxidants with natural ones.

Metabolomic Profiles and Biopharmaceutical Properties of Petrosimonia brachiata and P. nigdeensis from Turkey.

Halophytic plants possess a huge range of active constituents and medicinal benefits. In this study, extracts (water, ethanol, ethyl acetate, dichloromethane, and n-hexane) of two halophytes of the genus Petrosimonia (P. brachiata and P. nigdeensis) were investigated for their phytochemical profiles and pharmacological properties. The phytochemical profiles of both species were investigated using an untargeted metabolomics approach based on high-resolution mass spectrometry. The two species show different polyphenolic profiles and these are influenced by the different extraction solvents used. The same extracts were used for different bioactivity assays. The results show that all extracts yielded total flavonoid and phenolic contents of 11.14-24.22 mg GAE/g and 3.15-22.03 mg RE/g, respectively. While extracts of both species demonstrated a radical scavenging ability in the ABTS assay (16.12-98.02 mg TE/g), only the polar and moderately polar extracts (water, ethanol, and ethyl acetate) showed scavenging potential in the DPPH assay (4.74-16.55 mg TE/g). A reducing potential was also displayed by all extracts in the CUPRAC and FRAP assays (26.02-80.35 mg TE/g and 31.70-67.69 mg TE/g, respectively). The total antioxidant capacity of the extracts ranged from 0.24 to 2.17 mmol TE/g, and the metal chelating activity ranged from 14.74 to 33.80 mg EDTAE/g. The water extracts possessed a higher metal chelating power than the other extracts. All extracts acted as inhibitors of acetylcholinesterase (0.16-3.85 mg GALAE/g) and amylase (0.11-1.28 mmol ACAE/g). Moreover, apart from the water extracts, the other extracts also showed anti-butyrylcholinesterase activity (0.73-2.86 mg GALAE/g), as well as anti-tyrosinase (36.74-61.40 mg KAE/g) and anti-glucosidase (2.37-2.73 mmol ACAE/g) potential. In general, the water extracts were found to be weak inhibitors of the tested enzymes, while the ethanol extracts mostly showed an inhibitory effect. The obtained findings revealed the antioxidant and enzyme inhibitory properties of these two species and demonstrated that the solvent type used affected the pharmacological properties of the extracts and hence, can be useful to further investigate the active constituents yielded in the extracts and understand the mechanisms involved.

LC–ESI–MS/MS-based molecular networking, antioxidant, anti-glioma activity and molecular docking studies of Clematis graveolens

Clematis graveolens Lindl., an indigenous climbing plant found in the Himalayan areas, is used by local communities for the treatment of neck tumors. The objective of this work is to examine the comprehensive metabolomic profile, antioxidant capability, in vitro and in silico anti-glioma effects on U-87 human glioma cell lines of the crude extract and fractions from C. graveolens. Liquid chromatography coupled with mass spectroscopy (LC–MS/MS) was used to establish detailed metabolite profiling of C. graveolens. The assessment of cell cytotoxicity was conducted using MTT cell viability assay on U-87 and BHK-21. Through molecular docking studies, the mode of inhibition and binding interaction between identified compounds and target proteins were also determined to evaluate the in vitro results. The use of LC–MS/MS-based global natural products social (GNPS) molecular networking analysis resulted in the identification of 27 compounds. The crude extract, ethyl acetate fraction, and chloroform fraction exhibited significant inhibitory activity against the U-87 cell lines, with IC50 values of 112.0, 138.1, and 142.7 µg/mL, respectively. The ethyl acetate fraction exhibited significant inhibitory concentration for 2,2’-azino-bis (3-ethylbenzothiazoline-6-sulfonic acid) (ABTS) activity, 2,2-diphenyl-1-picrylhydrazyl (DPPH) activity and the metal chelation activity with IC50 value of 39.50 µg/mL, 32.27 µg/mL, and 53.46 µg/mL, respectively. The crude extract showed maximum total phenolic, and total flavonoid concentration measuring 338.7 µg GAE/mg, and 177.04 µg QE/mg, respectively. The findings of this study indicate that C. graveolens consists of a diverse range of active phytoconstituents that possess antioxidant and anti-glioma properties.

Physicochemical, Phytochemical and Antioxidant Properties of Organic Sweet Potato Flour and Its Application in Breadstick

Sweet potato flour (SPF) is used to produce food products worldwide due to good biological activity in the human diet and low cost. In this experiment, sweet potato tubers were processed into flour including purple-SPF, yellow-SPF and orange-SPF and applied in breadsticks. The proximate, physical, phytochemical and antioxidant properties of flour and breadsticks were investigated. The carbohydrate, moisture, ash, fat, protein and fiber contents of SPF ranged from 82.19 - 85.21, 4.12 - 5.78, 1.30 - 2.46, 0.32 - 0.86, 4.07 - 4.74 and 3.58 - 5.65 %, respectively. The water activity (aw) of SPF ranged from 0.2277 - 0.2695. The phytochemical analysis showed that purple-SPF and purple-SPF based breadstick products exhibited the highest total phenolic contents (TPC), total flavonoid contents (TFC) and total anthocyanin contents (TAC), while total carotenoid contents (TCC) was observed in both orange-SPF and breadstick made from orange-SPF. In addition, purple-SPF and breadstick produced from purple-SPF had the highest antioxidant activity against ABTS, FRAP, DPPH and metal chelating activity. The X-ray diffraction patterns of SPF samples showed a C-type crystal structure, with a crystallinity ranging from 19.43 - 31.05 %. The scanning electron micrographs of SPF granules revealed that they were mostly round and spherical, with a size range between 5 - 28 µm. The viscosity characteristics of yellow-SPF had the highest peak viscosity (307.97 ± 9.87 RVU), trough viscosity (200.81 ± 10.07 RVU), breakdown (108.42 ± 3.13 RVU), final viscosity (277.75 ± 8.60 RVU) and setback (76.95 ± 4.03 RVU). The physical quality showed breadstick from yellow-SPF had the highest hardness and fracturability with values of 11,537.67 ± 190.58 g and 11,143.33 ± 161.97 g, respectively. These results indicate that sweet potato flour composite breadstick has high phytochemical and antioxidant potential and may be applied in the food industry.

Protective properties of melanin from lichen Lobaria pulmonaria (L.) HOFFM. In models of oxidative stress in skeletal muscle

Melanin is a dark pigment from the group of phenolic or indole polymers with inherent biocompatibility and antioxidant capacity. In extremophilic lichen Lobaria pulmonaria, melanin is responsible for protective properties against hostile environments. Herein, the ability of melanin extracted from L. pulmonaria to counteract oxidative stress and related damages was studied in the mouse diaphragm, the main respiratory muscle. Initial in vitro experiments demonstrated ultraviolet (UV)-absorbing, antioxidant and metal chelating activities of melanin. This melanin can form nanoparticles and stabile colloidal system at concentration of 5 μg/ml. Pretreatment of the muscle with melanin (5 μg/ml) markedly reduced UV-induced increase in intracellular and extracellular reactive oxygen species (ROS) as well as antimycin A-mediated enhancement in mitochondrial ROS production accompanied by lipid peroxidation and membrane asymmetry loss. In addition, melanin attenuated suppression of neuromuscular transmission and alterations of contractile responses provoked by hydrogen peroxide. Thus, this study shed the light on the perspectives of the application of a lichen melanin as a protective component for treatment of skeletal muscle disorders, which are accompanied with an increased ROS production.

Interaction between orange juice and < 1 kDa leaf peptides: effect on the antioxidant and antidiabetic related enzyme inhibitory activities

Designing a good vehicle for functional ingredients is the major focus of this study. Small molecular weight peptides (< 1 kDa) extracted from amaranth leaf protein (ALP), eggplant leaf protein (ELP) and fluted pumpkin leaf protein (FLP) were incorporated into freshly prepared orange juice at an effective and inhibitory concentrations of the peptides. The rate of degradation of ascorbic acid was more in the control juice (140.06 to 18.43 mg/mL) when compared with juice containing peptides at both storage conditions (140.08 to 32.32 mg/mL). However, the rate of ascorbic acid reduction during storage (refrigerated and ambient) was least in the juice containing peptide, isolated from ELP when compared with the juice samples that contained peptides isolated from ALP and FLP. After the eighth week of storage, juice that contained FLP peptide had greater amounts of residual total phenolic content (370.53 & 432.33 µg GAE/100 mL), juice that contained ALP peptide retained better ability to scavenge DPPH radicals (52.32 & 66.84%) while juice sample that contained ELP retained more metal chelating activities (44.82 and 51.03%). The results of antidiabetic property showed that juice containing peptide isolated from ALP contained greater amounts of α-amylase inhibitory activity (41.50 and 46.89%) while greater amounts of α-glucosidase inhibitory activities were retained in juice that contained peptide isolated from FLP. The results concluded that orange juice may be considered a veritable vehicle for functional ingredients for improved health.Graphical

Antioxidant and Anti-Inflammatory Profiles of Two Mexican Heteropterys Species and Their Relevance for the Treatment of Mental Diseases: H. brachiata (L.) DC. and H. cotinifolia A. Juss. (Malpighiaceae).

Depression and anxiety are recognized as the most common mental diseases worldwide. New approaches have considered different therapeutic targets, such as oxidative stress and the inflammation process, due to their close association with the establishment and progression of mental diseases. In the present study, we evaluated the antioxidant and anti-inflammatory activities of the methanolic extracts of the plant species Heteropterys brachiata and Heteropterys cotinifolia and their main compounds, chlorogenic acid and rutin, as potential complementary therapeutic tools for the treatment of anxiety and depression, since the antidepressant and anxiolytic activities of these methanolic extracts have been shown previously. Additionally, we also evaluated their inhibitory activity on the enzyme acetylcholinesterase (AChE). Our results revealed that both species exhibited potent antioxidant activity (>90%) through the TBARS assay, while by means of the DPPH assay, only H. cotinifolia exerted potent antioxidant activity (>90%); additionally, low metal chelating activity (<40%) was detected for all samples tested in the ferrozine assay. The methanolic extracts of H. brachiata and H. cotinifolia exhibited significant anti-inflammatory activities in the TPA-induced ear edema, while only H. cotinifolia exerted significant anti-inflammatory activities in the MPO assay (>45%) and also exhibited a higher percentage of inhibition on AChE of even twice (>80%) as high as the control in concentrations of 100 and 1000 µg/mL. Thus, the potent antioxidant and inflammatory properties and the inhibition of AChE may be involved in the antidepressant activities of the species H. cotinifolia, which would be positioned as a candidate for study in drug development as an alternative in the treatment of depression.

In vitro and In vivo Antioxidant Effect of Mango, Coconut and Cotton Seed Oils on Hydrogen Peroxide- Induced Oxidative Stress in Wistar Rats

This study is aimed at determining the antioxidant activity of Mango kernel oil (MKO), Coconut oil (CCO) and Cotton seed oil (CSO) in vitro and in vivo. Antioxidant parameters demonstrated by five spectrophotometric methods such as: DPPH, FRAP, MCA, HRSA and SRSA was determined in the oils. Superoxide dismutase activity (SOD), catalase activity (CAT) and malondialdehyde (MDA) were evaluated in the serum of the Wistar rats. The antioxidant assay of the oils showed Coconut oil (75.67±0.21 %) was able to neutralize the DPPH radical more than the other oils followed by Cotton seed oil (38.70±0.23 %) and Mango kernel oil (31.56±0.24 %). Coconut oil exhibited the highest FRAP activity at (1.04 mMolFe2+) while the Cotton seed oil displayed significantly lower (P&lt; 0.05) FRAP activity at (0.18±0.00 mMolFe2+). The Metal chelating activity (MCA) of Coconut oil (52.72±0.24 %) was found to be significantly higher than Mango and Cotton seed oils, Superoxide radical scavenging activity showed Coconut oil (62.36±0.01 %) having a relatively high ability to scavenge superoxide radicals better than the other oils with the standard glutathione being significantly higher (81.36±0.07 %). The result of the in vivo study showed the mean values for the SOD of MKO (118.10±5.39 IU/L), CCO (120.53±4.53 IU/L) and CSO (108.80±3.33 IU/L), CAT of MKO (108.93±11.60 IU/L), CCO (96.85±11.69 IU/L) and CSO (88.28±10.66 IU/L) and MDA of MKO (0.25±0.07 mmol/L), CCO (0.24±0.14 mmol/L) and CSO (0.31±0.02 mmol/L). The oils markedly reduced the amount of MDA while significantly increasing the activities of both CAT and SOD content.

Phenolic and Metabolic Profiles, Antioxidant Activities, Glycemic Control, and Anti-Inflammatory Activity of Three Thai Papaya Cultivar Leaves.

This study thoroughly examined the proximate composition, bioactive composition, and in vitro biological activities of three different cultivars of papaya leaf extracts (PLEs) as potential functional ingredients and nutraceuticals. The dark green leaves of three papaya cultivars, Khaek Dam (KD), Holland (H), and Thai Local (L), were used in this study. The protein content of the leaves ranged from 25.96 to 32.18%, the fat content ranged from 7.34 to 11.66%, the carbohydrate content ranged from 5.80 to 17.91%, the moisture content ranged from 6.02 to 6.49%, the ash content ranged from 11.23 to 12.40%, and the fiber content ranged from 23.24 to 38.48%. The L cultivar possessed significantly higher protein and carbohydrate contents, whereas the H cultivar had the highest ash content (p < 0.05). The total phenolic content (TPC) ranged from 113.94 to 173.69 mg GAE/g extract, with the KD cultivar having the highest TPC (p < 0.05). Several metabolic compounds such as phenolic compounds (particularly kaempferol, isorhamnetin, quercetin, ferulic acid, isoferulic acid, salicylic acid, sinapic acid, syringic acid, and vanillin), terpenoids (such as eucalyptol), glycosides, and indole were identified. The PLE from the KD cultivar had the highest levels of DPPH• inhibition, metal chelation, reducing power, and antidiabetic activity (p < 0.05), suggesting superior biological activity. All three PLEs reduced the proliferation of RAW 264.7 cells in a dose-dependent manner with low nitric oxide formation. These results indicate that the papaya leaf, particularly from the KD cultivar, could be a promising source of functional food ingredients.