Structural characteristics of a low molecular weight velvet antler protein and the anti-tumor activity on S180 tumor-bearing mice

Structural characteristics of peach gum arabinogalactan and its mechanism of inhibitory effect on leukemia cells

The polysaccharide PGP with a molecular weight of 5.48 × 106 Da was isolated from Peach gum using alkaline electrolyte water as a solvent. HPLC, FT-IR, UV-vis, GC-MS, and NMR results indicated that PGP consisted of arabinose, xylose, mannose, glucuronic acid, and galactose with a molar ratio of 1.00:0.23:0.08:0.04:0.83, and was an AG-II arabinogalactan with β-D-(1 → 6)-Galp backbone and O-3 and O-4 branched chains. The advanced structure showed that PGP was an irregular lamellar structure of polysaccharide molecules with a specialized structure formed by the combination of crystalline and amorphous forms. Cell experiments showed that PGP treatment significantly induced apoptosis in leukemia cells, resulting in a decrease in mitochondrial membrane potential and an increase in ROS production. Western blotting assay showed that PGP could inhibit the proliferation of K562 and HL60 cells through the combination of Fas/FasL-mediated exogenous death receptor pathway and endogenous mitochondrial pathway, blocking the cell cycle at G1 phase and causing apoptosis. This study provided new ideas for the conformational relationship of Peach gum polysaccharides and confirmed the potential application of PGP in the development of anti-leukemia drugs.

Structural characteristics and anti-tumor activity of alkali-extracted acidic polysaccharide extracted from Panax ginseng

In this paper, Panax ginseng residue after boiling water extraction was reused to obtain the acidic polysaccharide PGP-1, and its structural characterization and anti-tumor activity were investigated. Structural experiments showed that PGP-1 consisted of Rha, Ara, Glc, Gal, and GalA in a molar ratio of 0.04:0.31:1.00:0.28:0.54. The backbone of PGP-1 was formed by the 1 → 4 glycosidic linkage of HG and RG-I, with Araf, Glcp, and Galp sidechains attached at position O-3. In vitro experiments showed that PGP-1 induced apoptosis in MGC803 cells through the mitochondrial pathway, with apoptotic features such as nuclear consolidation and generation of apoptotic vesicles. Animal experiments showed that PGP-1 could inhibit the proliferation of tumor cells in H22 tumor-bearing mice by improving the status of immune organs, enhancing the activity of immune cells, and increasing the levels of serum cytokines and apoptosis-related proteins, with the tumor inhibition rate reaching 45.70 % (200 mg/kg). The above experimental results indicated that Panax ginseng polysaccharides had the potential to be functional anti-tumor agents.

Preparation and characterization of immunopeptides isolated from pig spleen and evaluation of their immunomodulatory properties in vitro and in vivo

The importance of small bioactive peptides derived from pig spleen have been used to enhance immune responses and support intestinal health. However, there is a lack of information regarding the conformational relationship and their effects on immune function of pig spleen proteins (PSPs). The objective of this study was to prepare and assess the immunomodulatory characteristics of immunopeptides from PSP. Firstly, enzymatic hydrolysates from PSP were prepared using alkaline protease and aminopeptidase, and small hydrolysate fractions with a <3 kDa were separated by SDS-PAGE and GPC. The bioactive peptides were then identified at peaks 5 to 7 (PSP-5, 6 and 7) by HPLC and TOF-MS, which were mainly composed of Pro-Glu-Leu by LC-MS. The PSP-5 and PSP-6 pronounced greater beneficial effects on cell viability and nitric oxide (NO) production than PSP-7 in macrophage, and PSP-5 exhibited a higher immunomodulatory ability than PSP-6. In vivo, the oral administration of 25-50 mg PSP-5/kg body weight (BW) protected against cyclophosphamide (CTX)-induced immunosuppression in spleen and intestine of mouse, as evidenced by increased cytokine and sIgA productions. In conclusion, a novel set of bioactive immunopeptides derived from PSP through enzymatic hydrolysis could enhance immunomodulatory properties.

Preparation of Morchella esculenta protein and its preventive effect on nonalcoholic fatty liver disease in mice

Morchella esculenta is a valuable edible fungus with multidimensional bioactivities; however, research on M. esculenta protein and its beneficial effects on nonalcoholic fatty liver disease (NAFLD) have been limited. In this study, M. esculenta protein (MEP) with 80.59% protein content was prepared, isolated, and characterized by the complete amino acid composition. The main molecular weight of the protein ranged from 65 to 120 kDa, with 100 kDa being the most dominant band, and it exhibited an alpha helix structure when analyzed by FT-IR and circular dichroism analysis. MEP could regulate body weight, fat accumulation, and alleviate lipid metabolism in adipose tissues in mice with high-fat diet-induced NAFLD. MEP prevented hepatic lipotoxicity, which was reflected in attenuating liver steatosis in vitro and in vivo, thereby regulating the levels of related factors involved in lipid metabolism (e.g., PPARs, HNF-4, SREBP, FASN, ACC-1, and CD36). Furthermore, it inhibited oxidative stress response, which can be attributed to the activation of the MAPK/PGC-1α pathway. Additionally, MEP exhibited probiotic effects, as demonstrated by the altered gut microbiota composition and improved the intestinal barrier integrity. Thus, this study confirmed the preventive effect of MEP against NAFLD by regulating the gut-liver cross-talk, which provided a theoretical basis for the development and utilization of M. esculenta.

Wet pulverization combined with temperature cycling strategy for extraction of Stropharia rugosoannulata protein with attenuating hepatic steatosis on obese mice

Stropharia rugosoannulata is an edible fungus with high protein content and excellent bioactivities. However, the effective extraction of S. rugosoannulata protein has been a challenge, and the amelioration of it against obesity still remain unclear. Herein, S. rugosoannulata protein (SRA) with mainly molecular weight of 15, 40 and 50 kDa, complete amino acid composition and typical α-helix structure, was obtained by wet pulverization combined with temperature cycling strategy. SRA alleviated the pathological progression in obese mice induced by high-fat diet via regulating lipid metabolism in liver and adipose tissues. SRA could obviously improve hepatic steatosis, which may be attributed to inhibiting MAPK/PGC-1α pathway. Moreover, SRA repaired the cross-talk between gut microbiota and liver via modulating intestinal microecology, and restoring the integrity and function of the intestinal barrier in obese mice. This study highlights an efficient and easy strategy for preparing S. rugosoannulata protein and its effects against obesity.

Comparison of structural characteristics and anti-tumor activity of two alkali extracted peach gum arabinogalactan

Two polysaccharides, PGP-90 and PGP-100 (molecular weights of 7.59 × 102 kDa and 10.48 × 102 kDa, respectively), were isolated from Peach gum using alkaline electrolyte water as an extraction solution. Structural characterization showed that PGP-90 and PGP-100 are AG-II arabinogalactans with β-D-(1 → 6)-Galp as the main chain and 1 → 3 Araf and 1 → 5 Araf branched chains at O-3 and O-4 positions. Animal experiments showed that PGP-90 and PGP-100 significantly improved immune function, enhance the proliferative capacity of lymphocytes and phagocytosis of peritoneal macrophages, and regulated the ratio of lymphocyte subpopulations in S180 tumor-bearing mice. Meanwhile, PGP-90 and PGP-100 promoted the secretion of cytokines (TNF-α, IFN-γ, and IL-2) by activated macrophages and blocked apoptosis at the G1 phase, resulting in tumor suppression rates of 40.80 % and 46.30 % (100 mg/kg), respectively, with PGP-100 demonstrating stronger in vivo anti-tumor activity. The above experimental results indicate that Peach gum polysaccharides have the potential to be functional anti-tumor agents.

Structural characterization of an acid-extracted polysaccharide from Suillus luteus and the regulatory effects on intestinal flora metabolism in tumor-bearing mice

Suillus luteus is an excellent edible fungus that has been applied in soil remediation and environmental pollution control, while the development of bioactive polysaccharide component including structural performance and intestinal flora regulation is still insufficient. In this study, a S. luteus acid-extracted polysaccharide (SLAP) was prepared under room temperature, then the structural characteristics and regulatory effects on gut microbiota metabolism in tumor-bearing mice were investigated. Results showed that SLAP was a kind of gulcomannan (average molecular weight of 1.76 × 107 Da) comprised of Xyl, Man, Glc, Gal (molar ratio of 0.19:1.00:0.72:0.53), which took β-(1 → 4)-Manp and β-(1 → 4)-Glcp as the backbone with β-(1 → 6)-Glcp and α-(1 → 6)-Galp as branches. The animal experiment results demonstrated that SLAP could effectively enhance the immunoregulatory activities of CD4+ and CD8+ T cells in tumor-bearing mice via improving intestinal lactobacillaceae contents and promoting primary bile acids biosynthesis, finally leading to the suppression of solid tumors growth with an inhibitory rate of 61.14 % (100 mg/kg·d). These results would provide certain data support and research basis for further applications of SLAP as an immunomodulatory adjuvant in food and medicine fields.

Structural characteristics and anti-tumor activity of alcohol-precipitated polysaccharides from Cordyceps militaris under different ethanol concentrations

Six Cordyceps militaris polysaccharides (named CMP-1, CMP-2, CMP-3, CMP-4, CMP-9, and CMP-A) were obtained by fractional alcohol precipitation. The experimental results showed that the six Cordyceps militaris polysaccharides had similar chemical composition and spectral features, and different molecular weights, monosaccharide compositions and anti-tumor activities. Purification of CMP-9 yielded the small molecule polysaccharide LMW-CMP (3.06 kDa). Structural experiments showed that LMW-CMP is an α-glucan with (1 → 4)-α-D-Glcp as the main chain and a glucose branched chain attached at the O-6 position. The results of cell experiments showed that LMW-CMP could effectively inhibit the growth and proliferation of HepG2 cells, activate the downstream NF-κB signaling pathway through the MAPK pathway to induce apoptosis of HepG2 cells, and block apoptosis at the G1 phase. Animal experiments showed that LMW-CMP inhibited the proliferation of tumor cells in H22 tumor-bearing mice by improving the state of immune organs, increasing the activity of immune cells and cytokine levels in the body, and regulating the distribution of lymphocyte subpopulations, with a tumor inhibition rate of 45.70 % (200 mg/kg).

Regulation of bone homeostasis by traditional Chinese medicine active scaffolds and enhancement for the osteoporosis bone regeneration

ETHNOPHARMACOLOGICAL RELEVANCE

The active ingredients of traditional Chinese medicine (TCM), such as naringin (NG), Eucommiol, isopsoralen, icariin, Astragalus polysaccharides, and chondroitin sulfate, contained in Drynariae Rhizoma, Eucommiae Cortex, Psoralea corylifolia, Herba Epimedii, Astragalus radix and deer antler, are considered promising candidates for enhancing the healing of osteoporotic defects due to their outstanding bone homeostasis regulating properties. They are commonly used to activate bone repair scaffolds.

AIM OF THE REVIEW

Bone repair scaffolds are inadequate to meet the demands of osteoporotic defect healing due to the lack of regulation of bone homeostasis. Therefore, selecting bone scaffolds activated with TCM to improve the therapeutic effect of repairing osteoporotic bone defects.

MATERIALS AND METHODS

To gather information on bone scaffold activated by traditional Chinese medicine, we conducted a thorough search of several scientific databases, including Google Scholar, Web of Science, Scifinder, Baidu Scholar, PubMed, and China National Knowledge Infrastructure (CNKI).

RESULTS

This review discusses the mechanism of TCM active ingredients in regulating bone homeostasis, including stimulating bone formation and inhibiting bone resorption process and the healing mechanism of traditional bone repair scaffolds activated by them for osteoporotic defect healing.

CONCLUSION

In general, the introduction of TCM active ingredients provides a novel therapeutic approach for modulating bone homeostasis and facilitating osteoporotic defect healing, and also offers a new strategy for design of other unconventional bone defect healing materials.

General Direct Anticancer Effects of Deer Growing Antler Extract in Several Tumour Cell Lines, and Immune System-Mediated Effects in Xenograft Glioblastoma

Deer antlers are the fastest growing tissue. Because they are based on proto-oncogenes, to avoid the risk of cancer, antlers evolved strong anticancer mechanisms, and thus their extract (DVA) is effective also against the few human tumours studied so far. We assessed whether DVA is a general anticancer compound by testing the direct effects in cells of different tumours: glioblastoma (GBM; lines U87MG and U251), colorectal (CRC; lines DLD-1, HT-29, SW480, and SW620), breast cancer (BRCA; lines MCF7, SKBR3, and PA00), and leukaemia (THP-1). DVA reduced the viability of tumours but not healthy cells (NHC; lines 293T and HaCaT). Mobility decreased at least for the longest test (72 h). Intraperitoneal/oral 200 mg DVA/kg administration in GBM xenograft mice for 28 d reduced tumour weight by 66.3% and 61.4% respectively, and it also reduced spleen weight (43.8%). In addition, tumours treated with DVA showed symptoms of liquefactive necrosis. Serum cytokines showed DVA up-regulated factors related to tumour fighting and down-regulated those related to inducing immune tolerance to the tumour. DVA shows general anticancer effects in the lines tested and, in GBM mice, also strong indirect effects apparently mediated by the immune system. DVA may contain a future anticancer medicine without secondary effects.

Recruitment of hexahydroquinoline as anticancer scaffold targeting inhibition of wild and mutants EGFR (EGFRWT, EGFRT790M, and EGFRL858R)

Hexahydroquinoline (HHQ) scaffold was constructed and recruited for development of new series of anticancer agents. Thirty-two new compounds were synthesised where x-ray crystallography was performed to confirm enantiomerism. Thirteen compounds showed moderate to good activity against NCI 60 cancer cell lines, with GI % mean up to 74% for 10c. Expending erlotinib as a reference drug, target compounds were verified for their inhibiting activities against EGFRWT, EGFRT790M, and EGFRL858R where compound 10d was the best inhibitor with IC50 = 0.097, 0.280, and 0.051 µM, respectively, compared to erlotinib (IC50 = 0.082 µM, 0.342 µM, and 0.055 µM, respectively). Safety profile was validated using normal human lung (IMR-90) cells. 10c and 10d disrupted cell cycle at pre-G1 and G2/M phases in lung cancer, HOP-92, and cell line. Molecular docking study was achieved to understand the potential binding interactions and affinities in the active sites of three versions of EGFRs.

Preliminary Structural Characterization of Selenium Nanoparticle Composites Modified by Astragalus Polysaccharide and the Cytotoxicity Mechanism on Liver Cancer Cells

Astragalus alcohol soluble polysaccharide (AASP) could present superior water solubility and antitumor activity with high concentration. Selenium nanoparticles (SeNPs) have received growing attention in various fields, but their unstable property increases the application difficulties. In the present study, functionalized nano-composites (AASP-SeNPs) were synthesized through SeNPs using AASP (average molecular weight of 2.1 × 10³ Da) as a surface modifier, and the preliminary structural characteristics and inhibitory mechanism on liver cancer (HepG2) cells were investigated. Results showed that AASP-SeNPs prepared under a sodium selenite/AASP mass ratio of 1/20 (w/w) were uniformly spherical with a mean grain size of 49.80 nm and exhibited superior dispersivity and stability in water solution. Moreover, the composites could dose-dependently inhibit HepG2 cell proliferation and induce apoptosis through effectively regulating mitochondria-relevant indicators including ΔΨm depletion stimulation, intracellular ROS accumulation, Bax/Bcl-2 ratio improvement, and Cytochrome c liberation promotion. These results provide scientific references for future applications in functional food and drug industries.