A metal ions-mediated natural small molecules carrier-free injectable hydrogel achieving laser-mediated photo-Fenton-like anticancer therapy by synergy apoptosis/cuproptosis/anti-inflammation.

Tumor microenvironment (TME) plays an important role in the tumorigenesis, proliferation, invasion and metastasis. Thereby developing synergistic anticancer strategies with multiple mechanisms are urgent. Copper is widely used in the treatment of tumor chemodynamic therapy (CDT) due to its excellent laser-mediated photo-Fenton-like reaction. Additionally, copper can induce cell death through cuproptosis, which is a new modality different from the known death mechanisms and has great promise in tumor treatment. Herein, we report a natural small molecules carrier-free injectable hydrogel (NCTD Gel) consisted of Cu2+-mediated self-assembled glycyrrhizic acid (GA) and norcantharidin (NCTD), which are mainly governed by coordination and hydrogen bonds. Under 808 nm laser irradiation, NCTD Gel can produce reactive oxygen species (ROS), consume glutathione (GSH) and overcome hypoxia in TME, leading to synergistically regulate TME via apoptosis, cuproptosis and anti-inflammation. In addition, NCTD Gel's CDT display high selectivity and good biocompatibility as it relies on the weak acidity and H2O2 overexpression of TME. Notably, NCTD Gel's components are originated from clinical agents and its preparation process is easy, green and economical, without any excipients. This study provides a new carrier-free hydrogel synergistic antitumor strategy, which has a good prospect in industrial production and clinical transformation.

Discovery, traceability, formation mechanism, metal and organic components analysis of supramolecules from Maxing Shigan decoction.

Traditional Chinese medicine (TCM) decoction is a complex polydispersed phase system containing colloid solution, emulsion and suspension, which maybe induced by the supramolecular phenomenon in decoction. However, until now there is no systematic analysis of composition and formation mechanism of supramolecules in TCM decoction contained mineral drug and herb medicines. Maxing Shigan Decoction (MXSGT), one of the classic TCM recipes, has been widely used in the treatment of fever in clinic. In this study, we obtained the supramolecular part of MXSGT (MXSGT NPs). And its traceability, formation mechanism, metal and organic components were further analyzed. The morphology was characterized by scanning electron microscopy (SEM) and dynamic light scattering (DLS); and the lipopolysaccharides (LPS) induced rats' fever model was established to evaluate the antipyretic effect of MXSGT NPs. Furthermore, interaction of the disassembled groups was studied to explore the traceability and formation mechanism of MXSGT NPs by isothermal titration calorimeter (ITC). Due to the combination of mineral gypsum and herb medicines, both ICP-OES and UHPLC-Q-Orbitrap HRMS were used to analyze metal and organic components of MXSGT and MXSGT NPs, respectively. The results showed that MXSGT NPs was regular spherical nanoparticles and had the same antipyretic effect as MXSGT. Moreover, MXSGT NPs was formed by the interaction between metal and organic components, resulted in enriching the main active compounds of MXSGT. This study would provide a new idea of studying TCM decoction, especially clarifying the connotation with the participation of mineral gypsum.

Integrative multi-omics unravels the amelioration effects of Zanthoxylum bungeanum Maxim. on non-alcoholic fatty liver disease.

BACKGROUND: The effect of Zanthoxylum bungeanum Maxim. (ZBM) on anti-obesity, lipid-lowering and liver protection has been identified, but the effect on the development of NAFLD induced by high-fat diet remains unclear. PURPOSE: To evaluate the alleviation effect of ZBM on NAFLD in vivo and explore the mechanisms by analyzing the liver transcriptome, microbiota and fecal metabolites. METHODS: NAFLD model was induced in C57BL/6J mice by feeding with high-fat diet (HFD). The potential mechanism of ZBM in improving NAFLD was studied by liver transcriptome analysis, real-time PCR, immunofluorescence, 16s rRNA sequencing and non-targeted metabonomics. RESULTS: ZBM has alleviation effects on HFD-induced NAFLD. The liver transcriptome, real-time PCR and immunofluorescence analysis showed that ZBM could efficiently regulate fatty acid and cholesterol metabolism. The 16S rRNA sequencing and LC-MS based metabonomic demonstrated that ZBM could rebalance gut microbiota dysbiosis and regulate metabolic profiles in HFD-induced NAFLD mice. Spearman correlation analysis revealed a strong correlation between gut microbiota and biochemical, pathological indexes and differential metabolic biomarkers. CONCLUSION: ZBM ameliorates HFD-induced NAFLD by regulating fatty acid and cholesterol metabolism, gut microbiota and metabolic profile.

Natural Carrier-Free Binary Small Molecule Self-Assembled Hydrogel Synergize Antibacterial Effects and Promote Wound Healing by Inhibiting Virulence Factors and Alleviating the Inflammatory Response.

Methicillin-resistant Staphylococcus aureus (MRSA)-infected skin wounds have caused a variety of diseases and seriously endanger global public health. Therefore, multidimensional strategies are urgently to find antibacterial dressings to combat bacterial infections. Antibacterial hydrogels are considered potential wound dressing, while their clinical translation is limited due to the unpredictable risks and high costs of carrier excipients. it is found that the natural star antibacterial and anti-inflammatory phytochemicals baicalin (BA) and sanguinarine (SAN) can directly self-assemble through non-covalent bonds such as electrostatic attraction, π-π stacking, and hydrogen bonding to form carrier-free binary small molecule hydrogel. In addition, BA-SAN gel exhibited a synergistic inhibitory effect on MRSA. And its plasticity and injectability allowed it to be applied as a wound dressing. Due to the matched physicochemical properties and synergistic therapeutic effects, BA-SAN gel can inhibit bacterial virulence factors, alleviate wound inflammation, promote wound healing, and has good biocompatibility. The current study not only provided an antibacterial hydrogel with clinical value but also opened up new prospects that carrier-free hydrogels can be designed and originated from clinically used small-molecule phytochemicals.

Revealing the active ingredients of the traditional Chinese medicine decoction by the supramolecular strategies and multitechnologies.

ETHNOPHARMACOLOGICAL RELEVANCE: Glycyrrhiza uralensis Fisch (RC) and Coptis chinensis Franch (RG) are traditional Chinese medicines, which are classic drug pair in prescriptions to treat gastrointestinal diseases. Multi-herb therapy is one of the most important features of traditional Chinese medicine, but due to the complex components of herbal decoctions, the substances that actually exert their medicinal effects have not been fully elucidated. The discovery of Glycyrrhiza uralensis Fisch and Coptis chinensis Franch supramolecular parts (RC-RG SA) can provide a new perspective for explaining the mechanism of drug-pair compatibility. AIM OF THE STUDY: The purpose of this study was to explore the active composition and identification of chemical constituents of RC-RG SA, and to explore the inhibitory effects of supramolecular parts on S. aureus and biofilm. MATERIALS AND METHODS: The micromorphology of RC-RG SA was characterized by SEM and DLS. Intermolecular forces between Glycyrrhiza uralensis Fisch and Coptis chinensis Franch determined by ITC. The chemical constituents of RC-RG SA were systematically analyzed by UPLC-ESI-MSn. The inhibitory effect of RC-RG SA on S. aureus was determined by turbidimetric method and plate coating method. The scavenging effect of RC-RG SA supramolecular parts on S. aureus biofilm were observed by MTT method, SEM and LSCM, respectively. RESULTS: The microstructure of RC-RG SA was spherical with a particle size of 161.6 nm. ITC proved that the reaction between decoction of RC and RG was exothermic. A total of 70 compounds were preliminarily identified in RC-RG SA, including 34 flavonoids, 34 alkaloids and 2 triterpenoids. The inhibitory effect of RC-RG supramolecular parts on S. aureus proliferation and the ability to clear S. aureus biofilm were better than RC-RG co-decoction and RC-RG non-supramolecular parts. CONCLUSIONS: The Glycyrrhiza uralensis Fisch and Coptis chinensis Franch co-decoctions' supramolecular components were an important substance that exerts its medicinal effect. Current study provided supramolecular strategies to reveal the active ingredients and the medicinal effect of the traditional Chinese medicine decoction.

Thermodynamics driving phytochemical self-assembly morphological change and efficacy enhancement originated from single and co-decoction of traditional chinese medicine.

Through the self-assembled strategy to improve the clinical efficacy of the existing drugs is the focus of current research. Herbal formula granule is a kind of modern dosage form of traditional Chinese medicine (TCM) which has sprung up in recent decades. However, whether it is equivalent to the TCM decoction that has been used for thousands of years has always been a controversial issue. In this paper, taking the herb pair of Coptidis Rhizoma-Scutellariae Radix and its main component berberine-baicalin as examples, the differences and mechanisms of self-assemblies originated from the co-decoction and physical mixture were studied, respectively. Moreover, the relationship between the morphology and antibacterial effects of self-assemblies was illuminated via multi-technology. Our study revealed that the physical mixture's morphology of both the herb pair and the phytochemicals was nanofibers (NFs), while their co-decoction's morphology was nanospheres (NPs). We also found that the antibacterial activity was enhanced with the change of self-assemblies' morphology after the driving by thermal energy. This might be attributed to that NPs could influence amino acid biosynthesis and metabolism in bacteria. Current study provides a basis that co-decoction maybe beneficial to enhance activity and reasonable use of herbal formula granule in clinic.

Synthesis and biological activity evaluation of podophyllotoxin-linked bile acid derivatives as potential anti-liver cancer agents.

Podophyllotoxin's undifferentiated cytotoxicity and poor selectivity limit its clinical application. To improve above disadvantages, conjugation of bile acids with podophyllotoxin could improve cell line selectivity of liver cancer to achieve clinical translation further. Enlightened by the bile acids' moiety magic characters, thirty podophyllotoxin-linked bile acid derivatives had been designed and synthesized. The cytotoxicity of these compounds in vitro was evaluated on HepG2, HCT-116, A549 and MDCK cell lines. After conjunction with bile acids, most of the derivatives (IC50 = 0.066-0.831 µM) were more potent against above three types of tumor cells than Etoposide (VP-16, IC50 = 4.319-41.080 µM) and exhibited similar antitumor activity compared with doxorubicin (DOX, IC50 = 0.230-0.745 µM). Moreover, structure-activity relationship displayed the length of the linker chain between podophyllotoxin and bile acids affected the cytotoxicity. Especially, compound 23 exhibited strong activity against HepG2 cell lines (IC50 = 0.188 ± 0.01 µM) than MDCK cell lines (IC50 = 4.780 ± 0.50 µM) and its SI (IC50MDCK/IC50HepG2) value of compound 23 was 25.4. Further antitumor mechanism studies showed that compound 23 acted as Topo Ⅱ inhibition and induced cell apoptosis with S cell cycle arrest. In particular, compound 23 showed valid antitumor efficacy at 10 mg/kg by intraperitoneal administration with a tumor inhibition rate of 60.9% in the Hepa1-6 xenograft mice model. The current research displayed that introduction of bile acids contributed to improve selectivity and activity to cell, and compound 23 could be a promising anti-tumor candidate.

[Explore antioxidant quality markers of Hippophae tibetana based on "dry-method + wet-method" technology].

The cross combination of dry-method(network pharmacology analysis) and wet-method(high-resolution mass spectro-metry with antioxidation experiment) was used to predict antioxidant quality markers(Q-markers) of Hippophae tibetana. Ultra-high performance liquid chromatography coupled with hybrid quadrupole-orbitrap mass spectrometry(UPLC-Q-Exactive Orbitrap-MS) was developed to rapidly separate and identify the chemical constituents in H. tibetana. Then in DPPH free radicals and superoxide anion scavenging experiment, the antioxidant activity of the four different polar parts with extracts of petroleumether, ethyl acetate, n-butanol and water was evaluated. Network pharmacology method was used for functional enrichment and pathway analysis to screen antioxidant-related components and preliminarily explain the mechanism of action. On this basis, multi-source information was integrated to predict the antioxidant Q-markers. The results showed that 51 components in H. tibetana were identified, including 18 flavonoids, 14 terpenoids, 6 alkaloids, 4 coumarins and phenylpropanoids, 3 volatile components and 2 polyphenols. The antioxidant capacity of different fractions: ethyl acetate > n-butanol > water > petroleum ether. The medicine mainly acted on PI3 K-Akt and FoxO signaling pathways to perform antioxidant effects through flavonoids such as quercetin, luteolin and kaempferol. According to the results of dry-method and wet-method, quercetin, luteolin and kaempferol, the representatives of poly-hydroxy flavone, may be the antioxidant Q-markers of H. tibetana. In this study, with the antioxidant Q-markers of H. tibetana as an example, an investigation model of predicting Q-marker was discussed based on the ternary system of composition, function and informatics, providing a scientific basis for the establishment of quality evaluation standards for H. tibetana.