Deep
eutectic solvents (DESs) are emerging as green and sustainable
solvents for efficient extraction of bioactive compounds or drugs.
This work aimed to comprehensively evaluate the potential and effectiveness
of DESs for extraction of different types of natural compounds from
biomass. Five Chinese herbal medicines including Berberidis Radix,
Epimedii Folium, Notoginseng Radix et Rhizoma, Rhei Rhizoma et Radix,
and Salviae Miltiorrhizae Radix et Rhizoma were selected to assess
the efficiency of DESs on extraction of alkaloids, flavonoids, saponins,
anthraquinones, and phenolic acids, respectively. Totally 43 types
of choline chloride-, betaine-, and l-proline-based DESs
with different polarity, viscosity, composition, and solubilization
abilities were tailored to test their extraction efficiency, and the
operation conditions were statistically optimized using response surface
methodology to produce the most efficient process. In this work, DES
solvents were first introduced to extract alkaloids and anthraquinones.
The results indicated that most prepared DESs proved to be efficient
solvents for extraction of alkaloids, but lower extractability for
anthraquinones. The extraction capacity of DES may be correlated with
their physical–chemical properties, including H-bonding interactions,
polarity, viscosity, and pH. This study demonstrated that DESs were
suitable green extraction solvents for selectively and efficiently
extracting bioactive compounds from biomaterials.
Metabolic syndrome (MetS) is intricately linked to dysregulation of gut microbiota and host metabolomes. Here, we first find that a purified citrus polymethoxyflavone-rich extract (PMFE) potently ameliorates high-fat diet (HFD)–induced MetS, alleviates gut dysbiosis, and regulates branched-chain amino acid (BCAA) metabolism using 16S rDNA amplicon sequencing and metabolomic profiling. The metabolic protective effects of PMFE are gut microbiota dependent, as demonstrated by antibiotic treatment and fecal microbiome transplantation (FMT). The modulation of gut microbiota altered BCAA levels in the host serum and feces, which were significantly associated with metabolic features and actively responsive to therapeutic interventions with PMFE. Notably, PMFE greatly enriched the commensal bacterium Bacteroides ovatus, and gavage with B. ovatus reduced BCAA concentrations and alleviated MetS in HFD mice. PMFE may be used as a prebiotic agent to attenuate MetS, and target-specific microbial species may have unique therapeutic promise for metabolic diseases.
Flavonoids are structurally diverse and the most ubiquitous groups of dietary polyphenols distributed in various fruits and vegetables. In this study, the interaction between five flavonoids, namely formononetin-7-O-β-D-glucoside, calycosin- 7-O-β-D-glucoside, calycosin, rutin, and quercetin, and bovine serum albumin (BSA) was investigated by fluorescence and UV-vis absorbance spectroscopy. In the discussion, it was proved that the fluorescence quenching of BSA by flavonoids was a result of the formation of a flavonoid–BSA complex. Fluorescence quenching constants were determined using the Stern-Volmer and Lineweaver-Burk equations to provide a measure of the binding affinity between the flavonoids and BSA. The binding constants ranked in the order quercetin > rutin > calycosin > calycosin-7-O-β-D-glucoside ≈ formononetin-7-O-β-D-glucoside. The results of thermodynamic parameters ΔG, ΔH, and ΔS at different temperatures indicated that the hydrophobic interaction played a major role in flavonoid–BSA association. The distance r between BSA and acceptor flavonoids was also obtained according to Förster’s theory of non-radiative energy transfer.
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