Encapsulating vitamins C and E using food-grade soy protein isolate and pectin particles as carrier: Insights on the vitamin additive antioxidant effects.

Functional factors show additive effects in the same nutraceutical food. In this study, a core-shell structure based on soy protein isolate (SPI) and pectin was constructed as a delivery system for vitamins C and E under neutral (pH 7.0) and acidic environment (pH 4.0). The SPI-vitamin-pectin complex formed at pH 4.0 showed larger particle size, higher turbidity, lower fluorescence intensity, and higher vitamin E encapsulation efficiency than those formed at pH 7.0. Also, the addition of vitamin C significantly enhanced the vitamin E encapsulation efficiency in the particles. Furthermore, the antioxidant properties of DPPH, ABTS, and hydroxyl radicals were increased by the addition of vitamin C, maximum values of 77%, 82%, and 65%, suggesting that vitamins C and E have additive antioxidant effects. These findings proposed a simple, structured protein-polysaccharide-based food-grade delivery system, which could serve as the basis for the design of products having multiple functional factors.

Targeted Wolfram-Doped Polypyrrole for Photonic Hyperthermia-Synergized Radiotherapy.

Single ionizing radiation at a tolerable dose is ineffectual in eliminating malignancies but readily generates harmful effects on surrounding normal tissues. Herein, we intelligently fabricated novel wolfram-doped polypyrrole (WPPy) through a simple oxidative polymerization method with WCl6 as an oxidizing catalyst, which possessed good biocompatibility, high photothermal conversion, and intensive radiosensitivity capacities to concurrently serve as a photothermal reagent and a radiosensitizer for hyperthermia-synergized radiotherapy (RT) against a malignant tumor. In comparison with traditional polypyrrole without noble metal doping, the innovative introduction of WCl6 not only successfully launched the polymerization of a pyrrole monomer but also endowed WPPy with additional radiosensitization. More importantly, after further decoration with an active targeted component (SP94 polypeptide), the obtained WPPy@SP94 significantly increased tumor internalization and accumulation in vitro and in vivo and induced obvious DNA damage as well as robust ROS generation under X-ray irradiation, which meanwhile synergized with strong photonic hyperthermia to effectively inhibit tumor growth by single drug injection. Moreover, such biocompatible WPPy@SP94 showed negligible adverse effects on normal cells and tissues. WPPy@SP94 developed in this study not only expands the category of polypyrrole chemical syntheses but also sheds light on WPPy@SP94-based radiosensitizers for cancer RT.

Novel biodegradable two-dimensional vanadene augmented photoelectro-fenton process for cancer catalytic therapy.

Fenton reaction-based chemodynamic therapy is hardly a self-sufficient cancer treatment, due to its stringent reaction conditions, limited substrate concentration, and negative feedback from the tumor microenvironment. Herein, we synthesized a novel two-dimensional (2D) vanadium-based nanosheets (Vanadene, V NSs) with polyvalent surfaces (VIV/VV), a very narrow band gap of 0.8 eV, and high biodegradability by a liquid-phase exfoliation strategy. The polyvalent surface endowed its multiple capabilities to modulate TME through GSH consumption and O2 production via VV and to catalyze a Fenton-like reaction to produce ·OH under a mild condition via VIV. In addition, efficient energy conversions including near-infrared (NIR)-thermal conversion (photothermal therapy, PTT) and NIR-electron conversion (photodynamic therapy, PDT) were ensured by the narrow band gap, in which NIR-thermal conversion enhanced the Fenton-like reaction activity through accelerating ionization while NIR-electron conversion catalyzed the conversion of O2 to ·O2- for further breaking redox homeostasis. Moreover, V NSs-based nanocatalyst can be slowly degraded into non-toxic species, enabling it to be innocuously eliminated from the body after completing tumor eradication by single drug injection and single NIR irradiation. Therefore, this study provides new insights into a universal nanoplatform for NIR-enhanced combination cancer therapy, highlighting the utility of 2D V NSs in the field of biomedicine.

Comparison of soy protein isolate-(-)-epigallocatechin gallate complexes prepared by mixing, chemical polymerization, and ultrasound treatment.

The effects of the preparation method (mixing, chemical polymerization, or ultrasound treatment) on the structure and functional properties of soy protein isolate-(-)-epigallocatechin-3-gallate (SPI-EGCG) complexes were examined. The mixing treated SPI-EGCG samples (M-SE) were non-covalently linked, while the chemical polymerization and ultrasound treated SPI-EGCG samples (C-SE and U-SE, respectively) were bound covalently. The covalent binding of EGCG with protein improved the molecular weight and changed the structures of the SPI by decreasing the α-helix content. Moreover, U-SE samples had the lowest particle size (188.70 ± 33.40 nm), the highest zeta potential (-27.82 ± 0.53 mV), and the highest polyphenol binding rate (59.84 ± 2.34 %) compared with mixing and chemical polymerization-treated samples. Furthermore, adding EGCG enhanced the antioxidant activity of SPI and U-SE revealed the highest DPPH (84.84 ± 1.34 %) and ABTS (88.89 ± 1.23 %) values. In conclusion, the SPI-EGCG complexes prepared by ultrasound formed a more stable composite system with stronger antioxidant capacity, indicating that ultrasound technology may have potential applications in the preparation of protein-polyphenol complexes.

Expression profile and bioinformatics analysis of COMMD10 in BALB/C mice and human.

COMMD10, a member of COMMD protein, has been proved to target p65 NF-kappaB (nuclear factor-kappaB) subunit and reduce its nuclear translocation, thereby leading to the inactivation of NF-kappaB pathway and suppression of colorectal cancer invasion and metastasis. The aim of this study is to explore its expression pattern and tissue distribution in human normal tissues and other tumor tissues and to investigate the relevant mechanism. We firstly provided the expression profile and histological distribution of COMMD10 in various BALB/c mice tissues and identified the biological distribution of COMMD10 in different kinds of human normal and tumor tissues. We verified the expression profile of COMMD10 using TCGA database. The interacting genes of COMMD10 were predicted by using STRING using. Finally, we performed database, and the microRNAs targeting COMMD10 were predicted using miRDB, miRWalk, TargetScan and microRNA. GO and KEGG pathway analyses were performed to predict the biological function of COMMD10 and its interacting genes. mRNA expression of COMMD10 showed the highest level in the lung and spleen, and the lowest level in the heart and brain. Immunohistochemistry detection revealed that COMMD10 was expressed in different tissues with different degrees and was was located mainly in the cytoplasm. Subsequently, we showed that COMMD10 displayed various degrees of expression in different human normal tissues that mainly located in cytoplasm, while COMMD10 of liver cells resided in both nucleus and cytoplasm. All the tumor tissues except breast small cell carcinoma, breast phyllodes tumor, lung adenocarcinoma, thymoma, cervical cancer and bladder urothelial carcinoma showed that COMMD10 was positive staining in cytoplasm. Kaplan-Meier plotter indicated that renal clear cell carcinoma patients with increased expression level of COMMD10 exhibited longer survival. STRING database revealed that COMMD10 had 41 interacting genes, and data from 4 different databases indicated that hsa-miR-590-3p may be the potential regulator of COMMD10. GO analysis demonstrated that COMMD10 and its interacting genes were mainly enriched in Cullin-RING ubiquitin ligase complexes, binding and transport of copper ions, the transport and steady-state maintenance of copper ions, transcription, translation and transport of proteins, and negatively regulate the activity of NF-kappaB transcription factors. KEGG pathway showed that COMMD10 and its interacting genes were mainly involved in renal cell carcinoma, HIF-1 signaling pathways, ubiquitination-mediated proteolysis, endocytosis and mineral absorption. COMMD10 may play a tumor suppressive role in renal clear cell carcinoma through the miR-590-3p-COMMD10-Cul2-RBX1-NF-κB/HIF/NRF2 pathway and regulate the chemotherapy resistance of various tumor cells to cisplatin.

[Study on combined effects of chemical components for different flowers blossoming degree of yellow medicinal Chrysanthemum morifolium from Zhejiang].

The ingredients of five kinds of Zhejiang's yellow Chrysanthemum morifolium with different flower blossoming stages were comparatively analyzed. Polysaccharides, total flavonoids, volatile oil, alcohol extract, water extract, chlorogenic acid, luteolin, 3,5-O-dicaffeoyl quinic acid and fingerprint of the ingredient were determined as indicators. During flower blossoming stages, the ingredients of Ch. morifolium showed a big difference with a certain variation. At the early opening stage, the contents of flavonoids and volatile oil were higher, the content of chlorogenic acid, luteolin, 3,5-O-dicaffeoyl quinic acid were higher in the middle of the flowers 50% -80% fowers blossoming degree is the optimal time for harvest.