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Keywords = UHPLC-QTOF-MS/MS

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23 pages, 14624 KB  
Article
Effects of Anthocyanin-Rich Sorghum Bran Extract on the Quality, Antioxidant Stability, Processing Safety, and Flavor of Taosu—A Chinese Shortbread Cookie
by Shitao Xiong, Kanxin Ye, Miao Liang, Ping Zhang, Yousheng Huang, Leiyan Wu, Hua Zhang and Yun Xiong
Foods 2026, 15(14), 2444; https://doi.org/10.3390/foods15142444 - 9 Jul 2026
Viewed by 208
Abstract
Sorghum bran, an abundant milling by-product, is rich in phenolics but underused as a food ingredient. Anthocyanin-rich sorghum bran extract (SBE) was added to Taosu, a traditional Chinese shortbread cookie, at 0–2%, and its effects on quality, flavor, antioxidant stability during storage, and [...] Read more.
Sorghum bran, an abundant milling by-product, is rich in phenolics but underused as a food ingredient. Anthocyanin-rich sorghum bran extract (SBE) was added to Taosu, a traditional Chinese shortbread cookie, at 0–2%, and its effects on quality, flavor, antioxidant stability during storage, and heat-induced contaminants were evaluated. UHPLC-QTOF-MS/MS showed that SBE was rich in flavones (apigenin, luteolin) and 3-deoxyanthocyanidin apigeninidin and had strong in vitro antioxidant capacity; these phenolics transferred dose-dependently into Taosu. SBE raised the total phenolic, flavonoid, and anthocyanin contents and the radical-scavenging capacity and imparted a natural reddish color. The instrumental taste profile was essentially unchanged, whereas HS-SPME-GC-MS revealed a dose-dependent shift in the volatile profile, with more Maillard-derived furans (e.g., furfuryl alcohol) and fewer lipid-oxidation aldehydes at the highest level. At the 2% level, acrylamide and 5-hydroxymethylfurfural (5-HMF) were reduced by 30.9% and 46.0%, respectively. After 14 days of storage, the fortified cookies retained much higher phenolic and antioxidant levels than the control, with the 2% sample still exceeding the fresh control, indicating improved retention of phenolics and antioxidant capacity during the period evaluated. Overall, sorghum bran offers a route to upcycle a low-value by-product into a clean-label, multifunctional ingredient that improves the healthfulness and processing safety of traditional baked goods. Full article
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35 pages, 6240 KB  
Article
Phytochemical Elucidation and Biological Activity Spectrum of Rosmarinus officinalis L.: Mechanistic Insights into the Antimicrobial, Antioxidant, and Apoptosis-Inducing Anticancer Effects of Carnosic Acid
by Mohamed A. Fareid, Gamal M. El-Sherbiny, Nancy M. Elafandy, Nagat E. Eltoum, Mohamed S. Othman, Ahmad S. El-Hawary, Amr M. Shehabeldine, Fatma A. Hamada and Amira Salah El-Din Youssef
Metabolites 2026, 16(7), 459; https://doi.org/10.3390/metabo16070459 - 30 Jun 2026
Viewed by 240
Abstract
Background: Rosmarinus officinalis L. is a medicinally important aromatic plant rich in bioactive secondary metabolites with diverse therapeutic properties. This study aimed to characterize the phytochemical profile of R. officinalis leaf extracts, isolate carnosic acid as a major bioactive diterpene, and evaluate [...] Read more.
Background: Rosmarinus officinalis L. is a medicinally important aromatic plant rich in bioactive secondary metabolites with diverse therapeutic properties. This study aimed to characterize the phytochemical profile of R. officinalis leaf extracts, isolate carnosic acid as a major bioactive diterpene, and evaluate its biological activities. Methods: Leaf extracts were prepared using solvents of increasing polarity and analyzed by phytochemical screening and UHPLC/QTOF-MS. Carnosic acid was isolated by thin-layer chromatography and assessed for antibacterial, antibiofilm, antioxidant, anti-inflammatory, antidiabetic, and antiproliferative activities using in vitro assays. Expression of apoptosis-related genes was also investigated. Results: Methanolic and ethanolic extracts exhibited the highest abundance of phenolic compounds and secondary metabolites, whereas the hexane extract showed lower phytochemical content. UHPLC/QTOF-MS identified seven major metabolites, including phenolic acids, flavonoids, and abietane-type diterpenes. Purified carnosic acid demonstrated potent antibacterial activity (MIC: 10–23 μg/mL) and inhibited biofilm formation by up to 90%. Strong antioxidant activity was observed, with DPPH and ABTS radical-scavenging IC50 values of 125 and 130 μg/mL, respectively. The compound also exhibited notable anti-inflammatory activity and markedly inhibited α-amylase and α-glucosidase activities. Furthermore, carnosic acid exhibited dose-dependent antiproliferative activity against MCF-7, HepG2, and MCF-10A cells, reducing cell viability to 10.8%, 16.9%, and 70.4 ± 1.8%, respectively, at 250 μg/mL, with corresponding IC50 values of 28.3, 37.8, and >250 μg/mL, respectively. Gene expression analysis revealed upregulation of BAX and downregulation of BCL2, indicating activation of mitochondrial-mediated apoptosis. Conclusions:R. officinalis leaves represent a valuable source of multifunctional phytochemicals, particularly carnosic acid. Its broad-spectrum biological activities and apoptosis-inducing potential support its promising application in pharmaceutical, nutraceutical, and biomedical fields. Full article
(This article belongs to the Special Issue Advances in Bioactive Compounds and Functional Foods)
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21 pages, 1323 KB  
Article
Supercritical CO2 Extraction of Bioactive Compounds from Vitis labrusca Grape Marc: Effects of Operating Conditions and Pilot-Scale Validation
by Camilo Pardo-Castaño, Alejandro Quintero-Velez and William Fernando Vallejo-Revelo
Molecules 2026, 31(13), 2272; https://doi.org/10.3390/molecules31132272 - 29 Jun 2026
Viewed by 250
Abstract
Grape marc (Vitis labrusca), a major by-product of the winemaking industry, is generated in large quantities and represents a promising source of bioactive compounds. This residue is particularly rich in phenolic metabolites associated with antioxidant activity. In this study, supercritical CO [...] Read more.
Grape marc (Vitis labrusca), a major by-product of the winemaking industry, is generated in large quantities and represents a promising source of bioactive compounds. This residue is particularly rich in phenolic metabolites associated with antioxidant activity. In this study, supercritical CO2 extraction was investigated as a sustainable strategy for the recovery of bioactive compounds from Vitis labrusca grape marc. A 24−1 fractional factorial design was employed to evaluate the effects of temperature (30–60 °C), pressure (137.9–275.8 bar), ethanol concentration (0–10 wt%), and particle size (116–601 µm) on extraction yield, total phenolic content (TPC), and antioxidant capacity (AC). Extraction performance was strongly influenced by operating conditions, revealing a clear trade-off between recovery and selectivity. The highest extraction yield (8.3 wt%) was obtained using 10 wt% ethanol as co-solvent, whereas the highest antioxidant capacity (365.3 µmol TE/g extract) was achieved under neat CO2 conditions. TPC values reached approximately 69 mg GAE/g extract and were significantly affected by the combined effects of temperature, particle size, and ethanol concentration. The results revealed two distinct extraction regimes: a high-recovery regime promoted by ethanol addition and a high-selectivity regime under neat CO2 conditions. Representative extracts were further characterized by UHPLC-QTOF-MS/MS. Ethanol-modified extraction was associated with higher relative abundance and diversity of flavonoids, stilbenes, and phenolic acids, whereas neat CO2 extraction favored lipophilic metabolites such as oxylipins and unsaturated fatty acids. Selected operating conditions were successfully reproduced at pilot scale, supporting the scalability of the process. Overall, the results demonstrate that supercritical CO2 extraction can be tailored to recover bioactive compounds from grape marc as extracts with distinct chemical profiles and provide a viable strategy for the valorization of Vitis labrusca winemaking residues. Full article
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35 pages, 4379 KB  
Article
Microgreen-Based Juices: UHPLC Q-ToF MS Metabolomic Analysis, Antioxidant Properties, and Sensory Acceptability
by Spasoje D. Belošević, Danijel D. Milinčić, Jovana M. Marković, Uroš M. Gašić, Steva M. Lević, Verica B. Đorđević, Mirjana B. Pešić and Viktor A. Nedović
Beverages 2026, 12(6), 73; https://doi.org/10.3390/beverages12060073 - 15 Jun 2026
Viewed by 496
Abstract
The aim of this study was to develop novel and sensory-acceptable microgreens–apple juices and characterize them using UHPLC Q-ToF MS-based metabolomic analysis. The obtained juices showed reduced sugar content and mild acidity compared with the control apple juice. Untargeted analysis revealed 71 compounds, [...] Read more.
The aim of this study was to develop novel and sensory-acceptable microgreens–apple juices and characterize them using UHPLC Q-ToF MS-based metabolomic analysis. The obtained juices showed reduced sugar content and mild acidity compared with the control apple juice. Untargeted analysis revealed 71 compounds, including phenolics, betalains, and one glucosinolate. Semi-quantification confirmed a high content of sinapic acid and its derivatives and hydroxybenzoic acid in broccoli–apple juice, as well as a predominant amount of phenolic acid diglycosides and hydroxycinnamoyl–isocitric acid derivatives in amaranth–apple juice. Apigenin C-glycosides were the main phenolics in red beet–apple juice, with the highest content of cytisoside derivatives. All microgreen-based juices contained apple-derived flavan-3-ols, procyanidins, dihydrochalcones, and certain flavonols. The formulated juices exhibited promising antioxidant potential evaluated by several screening assays (TPC, DPPH, ABTS, and FRAP), consistent with their phytochemical profiles, while differences among them may be linked to the amounts of certain bioactive molecules, mainly derived from microgreens. Moreover, these juices showed high overall quality and consumer acceptability, successfully masking typical microgreens flavors. Overall, these cold-pressed microgreen–apple juices can be classified as novel, low-calorie, and highly sensory-acceptable beverages, containing diverse bioactive compounds from both apple and microgreens; however, further in vitro and in vivo evidence is needed to support claims regarding their functionalities. Full article
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14 pages, 717 KB  
Article
Larrea ameghinoi Speg. (Zygophyllaceae) “Jarilla Rastrera”: UHPLC-ESI-QTOF-MS Analysis, Antioxidant, Antimicrobial Properties, and Inhibition of Enzymes of Interest to Human Health
by Jessica Gómez, Silvana M. Sede, Belén Ariza Sampietro, Daniel Zaragoza-Puchol, María Elisa Bressan Merlo, Duilio Caballero, Beatriz Lima, Alejandro Tapia and Mario J. Simirgiotis
Antioxidants 2026, 15(6), 668; https://doi.org/10.3390/antiox15060668 - 26 May 2026
Viewed by 397
Abstract
Larrea ameghinoi Speg., an endemic species of Argentine Patagonia traditionally used in folk medicine to treat fever, stomach disorders, respiratory conditions, back pain, and as an emmenagogue, among others, still remains chemically and biologically underexplored compared to the other four members of the [...] Read more.
Larrea ameghinoi Speg., an endemic species of Argentine Patagonia traditionally used in folk medicine to treat fever, stomach disorders, respiratory conditions, back pain, and as an emmenagogue, among others, still remains chemically and biologically underexplored compared to the other four members of the genus. This study aimed to perform a comprehensive metabolomic characterization of methanolic extracts from two populations (EMLaSAO and EMLaMAQ) using ultra-high-resolution liquid chromatography coupled with electrospray ionization quadrupole time-of-flight mass spectrometry (UHPLC–ESI–QTOF–MS) and to evaluate their antioxidant, antimicrobial, and enzyme-inhibitory activities of relevance to human health. Thirty-three compounds were tentatively identified by extensive UHPLC–MS analysis, including flavones, two major lignans, and oleanane-type triterpenes. Both extracts exhibited high phenolic content (215–239 mg of gallic acid equivalents (GAE)/g extract) and strong free radical scavenging activity, as evidenced by 2,2-diphenyl-1-picrylhydrazyl (DPPH, EC50 ≈ 10 μg/mL), ferric-reducing antioxidant power (FRAP), and Trolox equivalent antioxidant activity (TEAC) assays. In addition, significant inhibition of butyrylcholinesterase (IC50 ≈ 50 μg extract/mL) and α-glucosidase, together with selective antibacterial activity against methicillin-sensitive and resistant Staphylococcus aureus (MIC = 125 μg extract/mL), were recorded. These findings suggest that L. ameghinoi possesses a distinctive phytochemical composition conferring multitarget bioactivity, differing from other Larrea species dominated by lignans such as nordihydroguaiaretic acid (NDGA) and its derivatives. Overall, this work supports the potential of L. ameghinoi as a novel source of bioactive metabolites for managing oxidative stress-related disorders and opportunistic infections. This warrants future in vivo studies investigating biological activities associated with oxidative stress and their relevance to human health. Full article
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25 pages, 2618 KB  
Article
Unveiling the Brain-Penetrating Material Basis of Dragon’s Blood: Identification of Active Metabolites and Metabolic Pathways for Ischemic Stroke Therapy
by Yu Zhu, Jiahui Ren, Meijia Chen, Jianglong Chen and Guang Li
Metabolites 2026, 16(5), 327; https://doi.org/10.3390/metabo16050327 - 14 May 2026
Viewed by 521
Abstract
Background: Dragon’s blood (dried resin of Dracaena cochinchinensis (Lour.) S.C.Chen) is a classic traditional medicine for treating ischemic stroke, yet its bioactive components capable of penetrating the blood–brain barrier (BBB) remain ill-defined. This study aims to elucidate its material basis and the [...] Read more.
Background: Dragon’s blood (dried resin of Dracaena cochinchinensis (Lour.) S.C.Chen) is a classic traditional medicine for treating ischemic stroke, yet its bioactive components capable of penetrating the blood–brain barrier (BBB) remain ill-defined. This study aims to elucidate its material basis and the synergistic mechanism of Borneol as a “guide drug.” Methods: A systematic strategy integrating UHPLC-Q-TOF-MS/MS and metabolomics was employed to map the chemical profile of dragon’s blood and identify its migrating constituents in rats. Results: A total of 96 compounds were characterized in vitro. In vivo analysis of the cerebrospinal fluid (CSF) revealed a brain-penetrating profile that was significantly enriched by Borneol, with the number of detected constituents increasing from 11 in the DB group to 16 in the DB + B group. The results demonstrated that demethylation, glycoside hydrolysis, and oxidation are primary metabolic pathways, validating a “pro-drug” mechanism where aglycones and hydroxylated derivatives act as the central effectors. Notably, Borneol not only enhanced the BBB permeability of lipophilic flavonoids but also facilitated unique metabolic transformations, such as the cyclization of berberrubine to coptisine. Conclusions: This study elucidates the brain-penetrating material basis of dragon’s blood and reveals the dual synergistic mechanism of Borneol involving both physical permeation enhancement and metabolic modulation, offering scientific evidence for its clinical application in central nervous system diseases. Full article
(This article belongs to the Section Pharmacology and Drug Metabolism)
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18 pages, 7081 KB  
Article
Sakuranetin, a Natural Flavonoid, Promising to Manage Grapevine Diseases
by Corentin Griffon, Brice Dautruche, Bilal Loumi, Abdouramane Dosso, David Lesur, Emilie Isidore, Morad Chadni, Florent Allais, Christian Magro, Charles Monteux and Florence Fontaine
Molecules 2026, 31(8), 1368; https://doi.org/10.3390/molecules31081368 - 21 Apr 2026
Viewed by 612
Abstract
Botrytis cinerea and Plasmopara viticola, the causal agents of grey mold and downy mildew, respectively, are two major grapevine pathogens whose control largely relies on synthetic fungicides, raising environmental and health concerns. Plant-derived secondary metabolites, particularly flavonoids involved in plant defense, represent [...] Read more.
Botrytis cinerea and Plasmopara viticola, the causal agents of grey mold and downy mildew, respectively, are two major grapevine pathogens whose control largely relies on synthetic fungicides, raising environmental and health concerns. Plant-derived secondary metabolites, particularly flavonoids involved in plant defense, represent promising sustainable alternatives. Among them, sakuranetin, a flavanone aglycone known for its antifungal activity in rice, remains poorly explored for grapevine protection. In this study, sakuranetin was purified from cherry branches (48 mg) and structurally characterized using UHPLC-ESI-QTOF-MS and NMR analyses. Its antifungal activity against B. cinerea and P. viticola was evaluated through in vitro, in vivo and in planta assays. For B. cinerea, our results showed a significant in vitro inhibition of mycelium growth, with EC50 values of 16.43 mg·L−1, while no protection of detached berries was observed. Against P. viticola, sakuranetin has no effect on the release of zoospores, but there is a total inhibition of spore germination at 1 mg·L−1 in vitro, confirmed in vivo on a foliar disc. In planta, no significant protection is observed at 25 mg·L−1, even if some targeted defense genes are induced. Further studies are needed to determine the best concentration of sakuranetin to use to manage B. cinerea and P. viticola in planta. Full article
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24 pages, 9663 KB  
Article
From Activity Screening to Quality Control: UHPLC-MS/MS Analysis of Anti-Inflammatory Cyclodipeptides in Pinellia ternata
by Yue Wang, Yunyun Luo, Jingjing Gan, Li Wang, Cuifen Fang, Linlin Zhang, Cheng Zhen and Bilian Chen
Molecules 2026, 31(8), 1322; https://doi.org/10.3390/molecules31081322 - 17 Apr 2026
Cited by 1 | Viewed by 495
Abstract
This study investigated the anti-inflammatory material basis and quality control of Pinellia ternata (P. ternata) to provide a modern scientific interpretation for its therapeutic properties. First, ultra-high-performance liquid chromatography coupled with quadrupole time-of-flight tandem mass spectrometry (UHPLC-Q-TOF-MS/MS) analysis was used to [...] Read more.
This study investigated the anti-inflammatory material basis and quality control of Pinellia ternata (P. ternata) to provide a modern scientific interpretation for its therapeutic properties. First, ultra-high-performance liquid chromatography coupled with quadrupole time-of-flight tandem mass spectrometry (UHPLC-Q-TOF-MS/MS) analysis was used to analyze different polar fractions of P. ternata, resulting in the identification of 79 compounds. Next, an in vitro evaluation using an LPS-induced RAW264.7 cell inflammation model revealed that the ethyl acetate fraction exhibited the most significant inhibition of nitric oxide (NO) production. Three cyclodipeptides, cyclo (Pro-Leu), cyclo (Phe-Pro), and cyclo (Leu-Phe), which displayed notable differences from other fractions, were subsequently screened. Molecular docking studies showed binding free energies below −5 kcal/mol with inducible nitric oxide synthase (iNOS), indicating potential anti-inflammatory targeting properties. Cellular experiments further confirmed that the reduction in NO production induced by these cyclodipeptides ranged from 11.03% to 40.38%. To enable their simultaneous quantification, a method based on ultra-high-performance liquid chromatography–triple quadrupole tandem mass spectrometry (UHPLC-QQQ-MS/MS) in the multiple reaction monitoring (MRM) mode was established, meeting all analytical validation criteria. Application of this method to P. ternata samples from different origins and growth conditions demonstrated that the contents of these cyclodipeptides were significantly influenced by both the origin and cultivation method. In conclusion, this study preliminarily identifies cyclodipeptides as an important anti-inflammatory material basis of P. ternata, and the established quantitative method provides methodological support and data for constructing its quality evaluation system. Full article
(This article belongs to the Section Natural Products Chemistry)
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17 pages, 2746 KB  
Article
Metabolomics Analysis Based on UHPLC-Q-TOF-MS/MS to Discriminate Dictyophora rubrovolvata from Different Geographical Origins of China
by Tingting Wang, Jinkun You, Juan Wang, Yayuan Deng, Qiuqiong Dai, Rong Hua and Dafeng Sun
Foods 2026, 15(8), 1372; https://doi.org/10.3390/foods15081372 - 15 Apr 2026
Viewed by 521
Abstract
Dictyophora rubrovolvata is highly regarded and increasingly cultivated in China for its nutritional value, unique taste, and medicinal properties. However, the chemical composition of fresh D. rubrovolvata is unclear. This study applied a comprehensive metabolomic analysis of D. rubrovolvata to characterize and compare [...] Read more.
Dictyophora rubrovolvata is highly regarded and increasingly cultivated in China for its nutritional value, unique taste, and medicinal properties. However, the chemical composition of fresh D. rubrovolvata is unclear. This study applied a comprehensive metabolomic analysis of D. rubrovolvata to characterize and compare the metabolite profiles and identify significantly differential metabolites from three geographical origins in China. Ultra-high-performance liquid chromatography-quadrupole time-of-flight mass spectrometry (UHPLC-Q-TOF-MS/MS) combined with chemometrics was employed to conduct untargeted metabolomics analysis of fresh D. rubrovolvata samples collected from the Sichuan, Fujian, and Guizhou provinces in China. Among the 383 identified metabolites, lipids and organic acids were the predominant classes. There were notable variations in metabolite composition across the three geographical areas. The Sichuan (SC) group showed a high concentration of phospholipids, the Guizhou (GZ) group was characterized by specific oxidized lipids and bioactive benzenoids, and the Fujian (FJ) group showed elevated levels of the antioxidant ergothioneine. We identified 17 unique metabolites, including tryptophol, 12-oxophytodienoic acid, and various fatty acid derivatives, which may act as significantly differential metabolites for different origins. Analysis of KEGG enrichment indicated that the main metabolic pathways involved were tryptophan metabolism, glycerophospholipid metabolism, and phenylpropanoid biosynthesis. Full article
(This article belongs to the Section Food Quality and Safety)
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25 pages, 8322 KB  
Article
Untargeted Metabolomics Reveals Metabolic Reprogramming During Viable but Non-Culturable State Formation in Aeromonas hydrophila Under Preservative Stress
by Gururaj Moorthy, Jatuphol Pholtaisong, Anusara Wongkotsila, Soottawat Benjakul, Awanwee Petchkongkaew and Jirakrit Saetang
Foods 2026, 15(8), 1289; https://doi.org/10.3390/foods15081289 - 9 Apr 2026
Viewed by 1177
Abstract
Aeromonas hydrophila is a major seafood-borne pathogen capable of persisting under preservative-associated stress by entering a viable but non-culturable (VBNC) state, thereby evading culture-based detection. Here, untargeted metabolomics was applied as the primary analytical approach to elucidate metabolic reprogramming during VBNC formation under [...] Read more.
Aeromonas hydrophila is a major seafood-borne pathogen capable of persisting under preservative-associated stress by entering a viable but non-culturable (VBNC) state, thereby evading culture-based detection. Here, untargeted metabolomics was applied as the primary analytical approach to elucidate metabolic reprogramming during VBNC formation under seafood-relevant preservation conditions. Cells were incubated at 4 °C for 30 days in sodium benzoate-supplemented saline, comparing 0.85% NaCl (culturable condition) and 4% NaCl (VBNC-inducing condition), with sampling every 6 days. Under 4% NaCl with sodium benzoate, culturability declined from 6.18 log CFU/mL at day 0 to undetectable levels by day 30, while cell viability was retained, confirming VBNC induction. UHPLC–ESI–QTOF–MS profiling detected over 893 intracellular metabolic features, of which 518 metabolites were significantly altered between VBNC and culturable states at day 30. Principal component analysis revealed clear, time-dependent metabolic divergence, with the VBNC trajectory explaining 34.4% (PC1) and 11.5% (PC2) of total variance. Pathway enrichment analysis demonstrated significant remodeling of alanine, aspartate and glutamate metabolism (8/28 hits, FDR = 5.7 × 10−4); arginine biosynthesis (5/14 hits, FDR = 5.44 × 10−3); purine metabolism (10/70 hits, FDR = 8.34 × 10−3); and pyrimidine metabolism (7/39 hits, FDR = 1.35 × 10−2), indicating nitrogen conservation and metabolic downshifting. A robust biomarker panel, including depleted cyclic AMP, aminoadipic acid, hypotaurine, O6-CM-dG, and betaine, and enriched urocanic acid, pipecolic acid, proline, azelaic acid, and orcinol perfectly discriminated VBNC from culturable cells. These findings demonstrate that sodium benzoate-based preservation can induce a metabolically reprogrammed VBNC state in A. hydrophila, highlighting a hidden food safety risk beyond culture-based assessment. Full article
(This article belongs to the Section Foodomics)
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25 pages, 5908 KB  
Article
Mapping the Polar Neuro-Interactome of Garcinia mangostana Against the AD-PD-ALS Nexus
by Rahni Hossain, Sirirat Surinkaew, Pradoldej Sompol, Nasmah K. Bastaki, Rifat Jafrin, Nazim Sekeroglu and Jitbanjong Tangpong
Life 2026, 16(4), 580; https://doi.org/10.3390/life16040580 - 1 Apr 2026
Viewed by 707
Abstract
Background/Objectives: Neurodegenerative diseases like Alzheimer’s, Parkinson’s, and Amyotrophic lateral sclerosis (ALS) share common molecular pathways, including neuroinflammation and oxidative stress, which complicate the effectiveness of single-target treatments. Garcinia mangostana L. (mangosteen) has shown neuroprotective properties, but previous studies focused on lipophilic xanthones, [...] Read more.
Background/Objectives: Neurodegenerative diseases like Alzheimer’s, Parkinson’s, and Amyotrophic lateral sclerosis (ALS) share common molecular pathways, including neuroinflammation and oxidative stress, which complicate the effectiveness of single-target treatments. Garcinia mangostana L. (mangosteen) has shown neuroprotective properties, but previous studies focused on lipophilic xanthones, which have poor bioavailability and uncertain blood–brain barrier permeability. Methods: In the current study, polar metabolites from G. mangostana peel aqueous extract (GMPE) were assessed for potential multi-target interactions via UHPLC-QTOF-MS-based metabolomics, systems pharmacology, and molecular docking analysis. Further, in silico ADMET screening and network-based analyses assessed for overlap between GMPE compounds and genes associated with neurodegeneration (AD, PD, ALS). Results: Analysis of genes linked to AD, PD, and ALS revealed 121 common molecular targets influenced by GMPE metabolites. Network and enrichment analyses indicated that the compounds derived from GMPE may be involved in common pathways related to oxidative stress, neuroinflammation, and neuronal survival. Molecular docking analyses suggest that selected metabolites are likely to exhibit moderate binding affinities to their respective protein targets. Conclusions: The results presented in this study provide evidence that GMPE may possess potential multi-target interactions within common neurodegenerative pathways. However, since the data are based on computational and predictive approaches, these results should be considered hypothesis-generating and warrant further experimental validation. Full article
(This article belongs to the Special Issue Neurodegenerative Diseases: From Risk Factors to Treatments)
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17 pages, 3091 KB  
Article
Ultrasound-Assisted Extraction of Polyphenols from Hericium erinaceus: Optimization, Bioactivities and LC-MS-Based Chemical Profiling
by Hongfei Liu, Cong Zhao, Shuyue Pang, Yuting Shu, Lina Chen, Jing Wang and Helong Bai
Molecules 2026, 31(7), 1138; https://doi.org/10.3390/molecules31071138 - 30 Mar 2026
Viewed by 762
Abstract
In this study, the Box–Behnken Design (BBD) was adopted to optimize the ultrasound-assisted extraction (UAE) conditions of polyphenols from Hericium erinaceus (H. erinaceus) on the basis of single-factor experiments, with extraction time, solid–liquid ratio and ethanol concentration as the key investigation [...] Read more.
In this study, the Box–Behnken Design (BBD) was adopted to optimize the ultrasound-assisted extraction (UAE) conditions of polyphenols from Hericium erinaceus (H. erinaceus) on the basis of single-factor experiments, with extraction time, solid–liquid ratio and ethanol concentration as the key investigation factors. The optimal extraction parameters were determined as follows: extraction time of 56.85 min, solid–liquid ratio of 1:56.71 g/mL and ethanol concentration of 44.64%, under which the actual yield of the total polyphenol crude extract (TPCE) reached 0.9985 ± 0.03%, which was highly consistent with the theoretical predicted value of 0.9960%, verifying the good fitting degree of the established model. Taking L-ascorbic acid as the positive control, the antioxidant activity of TPCE was evaluated by determining its scavenging capacity against ABTS·+, ·OH and DPPH· free radicals, and the half-maximal effective concentration (EC50) values were measured to be 0.8850, 0.9490 and 4.198 mg/mL, respectively. With acarbose as the reference drug, the inhibitory effects of TPCE on α-amylase and α-glucosidase related to carbohydrate metabolism were assayed, and the corresponding half-maximal inhibitory concentration (IC50) values were 0.0135 and 130.3 mg/mL, respectively. Furthermore, ultra-high performance liquid chromatography-quadrupole time-of-flight mass spectrometry (UHPLC-QTOF-MS) was employed for the tentative identification of bioactive components in TPCE, and a total of 48 and 64 chemical constituents were characterized in negative and positive ion modes, respectively, providing a chemical basis for the biological activities of TPCE. This study confirmed that UAE is an efficient and feasible technology for extracting polyphenols from H. erinaceus, which lays a theoretical foundation for the development and utilization of its polyphenols, and also provides novel insights into the development of natural functional ingredients and potential therapeutic agents for the intervention of type 2 diabetes. Additionally, the findings further validate edible fungi as a valuable reservoir of natural bioactive substances, with promising application prospects in the research and development of functional foods and pharmaceuticals targeting metabolic diseases. Full article
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20 pages, 8089 KB  
Article
Therapeutic Effects of Akebia quinata Seeds Through Apoptosis and Immunogenic Cell Death in Non-Small Cell Lung Cancer
by Mibae Jeong, In Jin Ha, Chang-Seob Seo, Mi-Kyung Jeong, Kwang Seok Ahn and Jaemoo Chun
Int. J. Mol. Sci. 2026, 27(7), 3114; https://doi.org/10.3390/ijms27073114 - 30 Mar 2026
Viewed by 746
Abstract
Plant-derived saponins have attracted significant interest for their potential to promote apoptotic cell death and enhance antitumor immune responses through immunogenic cell death (ICD). Akebia quinata, a saponin-rich medicinal plant, exhibits diverse pharmacological properties; however, studies on its seeds are limited, and [...] Read more.
Plant-derived saponins have attracted significant interest for their potential to promote apoptotic cell death and enhance antitumor immune responses through immunogenic cell death (ICD). Akebia quinata, a saponin-rich medicinal plant, exhibits diverse pharmacological properties; however, studies on its seeds are limited, and their immunomodulatory activity in cancer remains largely unexplored. In this study, A. quinata seeds were extracted using 70% ethanol, and the phytochemical profile was characterized using UHPLC–QTOF MS/MS. We investigated the anticancer properties of A. quinata seed extract (AQSE), focusing on its role in inducing apoptosis and ICD in non-small cell lung cancer (NSCLC). In human NSCLC cell lines (A549 and H460), AQSE exhibited potent cytotoxic effects in a dose-dependent manner. Flow cytometric analysis confirmed the induction of apoptosis, evidenced by a significant increase in Annexin V-positive cells and an elevated sub-G1 population. Mechanistically, AQSE treatment induced cell death by simultaneously inhibiting the survival-promoting MEK/ERK/CREB axis and activating the stress-responsive JNK pathway. Furthermore, AQSE triggered hallmark features of ICD, characterized by surface exposure of calreticulin and the release of extracellular HMGB1 and ATP. Most importantly, an in vivo vaccination assay using a syngeneic mouse model demonstrated that immunization with AQSE-treated dying cells significantly suppressed tumor growth upon rechallenge, confirming the establishment of antitumor immunological memory. Additionally, bioassay-guided fractionation revealed that the anticancer activity was primarily concentrated in the ethyl acetate fraction. These findings suggest that AQSE exerts anticancer effects via the induction of apoptosis and ICD, highlighting its potential as a promising natural candidate for the development of novel therapeutic strategies against NSCLC. Full article
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18 pages, 2060 KB  
Article
BPA Disrupts Hepatic Lipid and Carbohydrate Metabolism in Female Zebrafish: Protective Effects of Probiotics Revealed by FTIRI and Lipidomics
by Christian Giommi, Chiara Santoni, Fabrizia Carli, Amalia Gastaldelli, Francesca Maradonna, Hamid R. Habibi, Elisabetta Giorgini and Oliana Carnevali
Int. J. Mol. Sci. 2026, 27(7), 2978; https://doi.org/10.3390/ijms27072978 - 25 Mar 2026
Viewed by 669
Abstract
Bisphenol A (BPA) is a widespread endocrine disruptor that interferes with metabolism in humans and animals by inducing oxidative stress, lipid peroxidation, and cell death. Probiotics, conversely, have shown potential in promoting host health and reducing the toxicity of endocrine-disrupting chemicals (EDCs). This [...] Read more.
Bisphenol A (BPA) is a widespread endocrine disruptor that interferes with metabolism in humans and animals by inducing oxidative stress, lipid peroxidation, and cell death. Probiotics, conversely, have shown potential in promoting host health and reducing the toxicity of endocrine-disrupting chemicals (EDCs). This study examined whether sub-chronic BPA exposure disrupts hepatic lipid metabolism in female zebrafish (Danio rerio), and whether co-administration of probiotics mitigates these effects. Adult females were exposed for 28 days to the following treatments: 10 µg/L BPA via water (BPA); 109 CFU/g body weight/day of probiotic formulation (P); and both treatments (BPA+P). An untreated group served as a control (CTRL). Hepatic lipid composition was analyzed using UHPLC-QTOF-MS, while liver sections were investigated by Fourier Transform Infrared Imaging (FTIRI) spectroscopy. BPA exposure decreased 14 unsaturated triacylglycerols and lysophosphatidylcholine 18:0, suggesting steatosis onset and inflammation, while in the group exposed to BPA+P, the decrease was limited to 8 triacylglycerols and the reduction in lysophosphatidylcholine 18:0 was prevented. Analyses of pooled liver samples precluded modeling tank-level effects; thus, the results are interpreted as semi-quantitative. Partial least square discriminant analysis built on the comparison of all groups together confirmed an intermediate phenotype for BPA+P fish between BPA and P groups. The observed beneficial role of probiotics in counteracting BPA-related metabolic disturbances was also supported by FTIRI, evidencing the ability to mitigate the effects of BPA on lipid and glycosylated compound metabolism. These findings highlight the potential of probiotic supplementation as a practical and accessible strategy to mitigate BPA-induced metabolic disturbances, contributing to the development of mitigating approaches against environmental contaminant-related liver dysfunction. Full article
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25 pages, 5026 KB  
Article
DNA Barcoding and Chemical Profile Using UHPLC, GC-MS and LC-MS/QTOF of Mitragyna speciosa Variation and Allied Species for Quality Control of Kratom Materials
by Phunsuk Anantaworasakul, Warunya Arunotayanun, Siripat Chaichit, Suthiwat Khamnuan, Chatchai Ngernsaengsaruay, Chuda Chittasupho, Nisa Leksungnoen, Mingkwan Na Takuathung, Ruedeemars Yubolphan, Apisada Jiso, Tachpon Techarang and Aekkhaluck Intharuksa
Plants 2026, 15(7), 1003; https://doi.org/10.3390/plants15071003 - 25 Mar 2026
Viewed by 1264
Abstract
Kratom (Mitragyna speciosa Korth.) has gained increasing global attention due to its traditional use, psychoactive properties, and emerging therapeutic potential; however, concerns regarding adulteration, substitution, and inconsistent quality of commercial products necessitate robust authentication strategies. This study aimed to integrate DNA barcoding [...] Read more.
Kratom (Mitragyna speciosa Korth.) has gained increasing global attention due to its traditional use, psychoactive properties, and emerging therapeutic potential; however, concerns regarding adulteration, substitution, and inconsistent quality of commercial products necessitate robust authentication strategies. This study aimed to integrate DNA barcoding and comprehensive chemical profiling to authenticate kratom variants and discriminate them from closely allied Mitragyna species for quality control and forensic applications. Nine DNA barcoding regions were analyzed, alongside chemical characterization using UHPLC, GC–MS, and LC–MS/QTOF. Among the tested loci, the internal transcribed spacer (ITS) and ITS2 regions exhibited the highest interspecific variation and effectively distinguished kratom from allied species. UHPLC and GC–MS analyses confirmed that mitragynine was exclusively detected in kratom variants, with Kan Khiao exhibiting the highest content (94.33 ± 0.14 mg/g) when quantified against the mitragynine standard using UHPLC analysis. LC–MS/QTOF profiling revealed an alkaloid-rich chemotype in kratom dominated by mitragynine and 7-hydroxymitragynine, whereas M. diversifolia, M. hirsuta, and M. rotundifolia showed distinct profiles enriched in phenolic acids and flavonoid glycosides. Multivariate analyses further identified procyanidin B1, datiscetin-3-O-rutinoside, mitragynine, and 7-hydroxymitragynine as key discriminatory markers. Overall, the combined molecular and chemical workflow provides a robust framework for kratom authentication, supporting regulatory monitoring, quality assurance, and forensic identification of kratom materials. Full article
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