Dihydrotanshinone I Enhances Cell Adhesion and Inhibits Cell Migration in Osteosarcoma U-2 OS Cells through CD44 and Chemokine Signaling.

In the screening of novel natural products against cancer using an in vitro cancer cell model, we recently found that tanshinones from a traditional Chinese medicine, the rhizome of Salvia miltiorrhiza Bunge (Danshen), had potent effects on cell proliferation and migration. Especially for human osteosarcoma U-2 OS cells, tanshinones significantly enhanced the cell adherence, implying a possible role in cell adhesion and cell migration inhibition. In this work, therefore, we aimed to provide a new insight into the possible molecule mechanisms of dihydrotanshinone I, which had the strongest effects on cell adhesion among several candidate tanshinones. RNA-sequencing-based transcriptome analysis and several biochemical experiments indicated that there were comprehensive signals involved in dihydrotanshinone I-treated U-2 OS cells, such as cell cycle, DNA replication, thermogenesis, tight junction, oxidative phosphorylation, adherens junction, and focal adhesion. First, dihydrotanshinone I could potently inhibit cell proliferation and induce cell cycle arrest in the G0/G1 phase by downregulating the expression of CDK4, CDK2, cyclin D1, and cyclin E1 and upregulating the expression of p21. Second, it could significantly enhance cell adhesion on cell plates and inhibit cell migration, involving the hyaluronan CD44-mediated CXCL8-PI3K/AKT-FOXO1, IL6-STAT3-P53, and EMT signaling pathways. Thus, the increased expression of CD44 and lengthened protrusions around the cell yielded a significant increase in cell adhesion. In summary, these results suggest that dihydrotanshinone I might be an interesting molecular therapy for enhancing human osteosarcoma U-2 OS cell adhesion and inhibiting cell migration and proliferation.

[Analysis of microbial community of heat resistant microorganisms in Chinese herbal pieces].

To investigate the composition and diversity of heat resistant microorganisms in contaminated Chinese herbal pieces. Matrix-assisted laser desorption/ionization time of flight mass spectrometry (MALDI-TOF-MS) protein fingerprinting and 16S rRNA high-throughput sequencing of Illumina Miseq were used to analyze the heat resistant microbial community of 9 varieties of Chinese herbal pieces. Stem pieces (Spatholobi Caulis, Tetrapanacis Medulla, Stachyuri Medulla) showed highest detection rate and most species of contaminants; However fruit pieces (Schisandrae Sphenantherae Fructus) had the lowest detection rate and least species of contaminants; among root pieces, the detection rate and number of contaminants species were lower in Tuber Dioscoreae Persimilis and Rehmanniae Radix Praeparata. The heat resistant microbial community was mainly of Bacillaceae and Paenibacillaceae, and Bacillus showed the highest detection rate among them, followed by Brevibacillus, Paenibacillus, and Solibacillus. The rest genus in high-throughput sequencing analysis included Enterobacter, Brevundimonas, Leuconostoc, Methylobacterium, Dechloromonas, Pantoea, Klebsiella, and Erwinia. There were potential risk factors in heat resistant microbial community of Chinese herbal pieces, so we shall improve the microbial limit standard, strictly control the pathogenic bacteria in the product, and strengthen the supervision and management in production and circulation of Chinese herbal pieces.

Ionic deep eutectic solvents for the extraction and separation of natural products.

Room ionic liquids (ILs) used as green solvents have received considerable attention and wide application in different research and industrial fields, such as chemistry, biology, catalysis, energy, and even environmental sciences. Recently, a new class of sustainable solvents named deep eutectic solvents (DESs) have been developed, which share the promising solvent characteristics of ILs, such as thermal and chemical stability, low vapor pressure and design ability. In addition, the major advantages of DESs over ILs are their lower prices and easier preparation. Therefore, DESs have been considered to be a potential alternative to replace conventional organic solvents and ILs. Currently, the developed DESs may be classified into ionic and nonionic liquids. Typically, choline chloride (ChCl)/urea (1:2) is an ionic DES, while glucose/sucrose (1:1) is a nonionic DES. Although several reviews have covered advancements in DESs, in this review, we aim to provide a general insight into DESs, particularly ionic DESs, like choline-based DES, in terms of their preparation and application in the extraction of natural products (NPs) mainly from traditional Chinese medicines and the recovery of extracted compounds from their extracts. Additionally, various factors affecting the extraction efficiency of DESs are discussed.