Development of an analytical method coupling cell membrane chromatography with gas chromatography–mass spectrometry via microextraction by packed sorbent and its application in the screening of volatile active compounds in natural products

Ligand fishing via a monolithic column coated with white blood cell membranes: A useful technique for screening active compounds in Astractylodes lancea

The cell membrane-coated monolithic column (CMMC) ligand fishing assay is an interesting approach set up for the study of natural products (NPs). NPs such as Atractylodes lancea contain many compounds. Traditional methods used to separate compounds and determine active compounds by pharmacological tests are time-consuming and inefficient. Therefore, an alternative method is required to determine active compounds in NPs. Here, white blood cells were broken, and the white blood cell membranes (WBCMs) were immobilized on the surface of a monolithic column to form a CMMC. The column was characterized by Fourier transform infrared spectroscopy, scanning electron microscopy, and confocal laser scanning microscopy. Combined with gas chromatography/mass spectrometry (GC/MS), the CMMC was used to screen active compounds in Atractylodes lancea. Three potential active compounds including hinesol, β-eudesmol, and 4-phenylbenzaldehyde were discovered. A molecular docking assay demonstrated that these compounds could bind to MD-2 laid on WBCMs. In addition, antiinflammatory effects by the discovered compound in vitro were confirmed, and β-eudesmol showed a concentration-dependent inhibitory effect on the tumor necrosis factor (TNF)-α of a RAW264.7 cell (P < 0.05). The CMMC ligand fishing assay exhibits good selectivity, great speed effects and is a potentially reliable tool for drug discovery in NPs.

Advances in cell membrane chromatography

Cell membrane chromatography (CMC) is a biomimetic chromatographic method based on the ability of membrane receptors to selectively interact with their ligands in vivo. Using membrane receptors as a stationary phase, the CMC method helps in determining the binding characteristics between ligands and membrane receptors and in efficiently identifying specific target components in a complex sample that produce the cellular biological effects of ligands (drugs, antibodies, enzymes, cytokines, etc.). CMC is an analytical tool for revealing characteristics of ligand-receptor interactions, screening and discovering target substances, and accurately controlling the quality of drugs. Since establishment of CMC in the early 1990s, with the rapid development of cell biology, significant progress has been made in the development of high-expression receptors, engineered cell cultures, and standardized preparations, which allowed in vitro immobilization of cell membrane receptors and miniaturization of binding assays. A variety of CMC models have been established using different membrane receptors as a stationary phase, and many new methods have been developed by combining CMC with high-performance liquid chromatography (HPLC)/mass spectrometry or HPLC-IT-TOF technologies. CMC methods have been widely used to study drug-receptor interactions and to screen complex samples for effective or harmful components.

LABEL-FREE BIO-AFFINITY MASS SPECTROMETRY FOR SCREENING AND LOCATING BIOACTIVE MOLECULES

Despite the recent increase in the development of bioactive molecules in the drug industry, the enormous chemical space and lack of productivity are still important issues. Additional alternative approaches to screen and locate bioactive molecules are urgently needed. Label-free bio-affinity mass spectrometry (BA-MS) provides opportunities for the discovery and development of innovative drugs. This review provides a comprehensive portrayal of BA-MS techniques and of their applications in screening and locating bioactive molecules. After introducing the basic principles, alongside some application notes, the current state-of-the-art of BA-MS-assisted drug discovery is discussed, including native MS, size-exclusion chromatography-MS, ultrafiltration-MS, solid-phase micro-extraction-MS, and cell membrane chromatography-MS. Finally, several challenges and limitations of the current methods are summarized, with a view to potential future directions for BA-MS-assisted drug discovery. © 2019 John Wiley & Sons Ltd. Mass Spec Rev.

Study on potential toxic material base and mechanisms of hepatotoxicity induced by Dysosma versipellis based on toxicological evidence chain (TEC) concept

Dysosma Versipellis (DV), a traditional Chinese medicine, has the functions of eliminating phlegm, detoxification, dispersing knots . However, its serious toxicity limits its further use. Therefore, it is necessary to conduct a comprehensive toxicity study of DV, screen the basis of potential toxic substances and understand its toxic mechanism. Based on the concept of toxicological evidence chain (TEC), this study utilizes the technologies and means of chemomics, metabolomics, molecular docking and network toxicology flexibly, step by step to find the evidence of potential toxic components in the development of hepatotoxicity induced by DV, evidence of critical toxicity events, evidence of adverse outcomes, thus, a chain of toxicity evidence with reference and directivity can be organized. It further confirmed the toxic damage and potential molecular mechanism of DV. 5 potential toxic components were identified, namely, Podophyllotoxin-4-O-D-glucoside, Podorhizol, Podophyllotoxin, Podophyllotoxone and 3',4'-O,O-Didemethylpophyllotoxin. These chemical constituents affect phenylalanine metabolism, glycerophospholipid metabolism, energy metabolism and other related pathways by regulating PAH, SOD1, SOD2 and other related targets, then it induces oxidative stress, cell apoptosis, inflammatory reaction and energy consumption, which ultimately induces the occurrence of liver injury. The results of this study provide some reference for the follow-up analysis of toxicity mechanism of DV.

Screening and identification of the active components from Puerariae Radix by HUVEC/CMC-LC-MS2

Puerariae Radix (PR) serves as food and medicinal plant for thousands of years with explicit efficacy for heart diseases, while biological target specifically binding-oriented screening of the active components in PR remains a preliminary stage. Cell membrane chromatography (CMC) is newly developed approach where interactions between active components and certain biological targets can be effectively studied, Human umbilical vein endothelial cell (HUVEC) membrane, with its abundant receptors such as β and AT₁, is most eligible for constructing CMC. In this study, an HUVEC/CMC-LC-MS² system was developed for screening active components in PR, 11 compounds were screened out and four of them were identified. Besides puerarin, the rest identified are daidzin, pueroside D and 3'-hydroxypuerarin. The study provides more reference for CMC applications and PR exploitation.

Current trends on microextraction by packed sorbent – fundamentals, application fields, innovative improvements and future applications

MEPS, the acronym of microextraction by packed sorbent, is a simple, fast and user- and environmentally-friendly miniaturization of the popular solid-phase extraction technique (SPE).

Screening of bioactive components from traditional Chinese medicines using cell membrane chromatography coupled with mass spectrometry

INTRODUCTION

Cell membrane chromatography (CMC), as a highly selective type of affinity chromatography, has been demonstrated as an effective method to screen bioactive components acting on specific receptor from a complicated biological system.

OBJECTIVE

To review the recent research progress and the technical applications of these analytical methods using CMC combined with gas chromatography-mass spectrometry, (GC/MS) and liquid chromatography-mass spectrometry (LC/MS).

METHODOLOGY

In this review, we briefly introduce the CMC offline GC/MS, CMC online GC/MS, CMC offline LC/MS, and CMC online LC/MS system. And the practical application of these technologies is also enumerated. Then the future of these technologies and research methods were discussed.

RESULTS

Many bioactive components interacting with specific receptors have been screened and identified in traditional Chinese medicines.

CONCLUSION

CMC technique has been combined with GC/MS and HPLC/MS and these combined systems have been successfully used to screen bioactive components acting on specific receptors from a complicated biological system.

Anti-oxidant and anti-cancer activities of Angelica dahurica extract via induction of apoptosis in colon cancer cells

INTRODUCTION

Angelica dahurica Radix is the common herbal medicine with anti-cancer activities. However, details of its anti-cancer activities are lacking.

MATERIALS AND METHODS

We investigated the anti-cancer effects of Angelica dahurica extract in HT-29 colon cancer cell line. Cell viability, apoptotic and necrotic activities and the mechanism of actions of the active fraction were measured.

RESULTS AND DISCUSSION

The organic extract of Angelica dahurica Radi decreased significantly the gene expression of p53, Bcl, Bax and induced apoptosis via caspase cascade and cell cycle arrest. The ethanol-ethyl acetate fraction showed anti-cancer activities in HT-29 cancer cells. A HPLC-DAD analysis of the fraction indicated the presence of Imperatorin and isoimperatorin, which are the major coumarins in the active fraction that contribute to the anti-cancer activities.

CONCLUSIONS

This study has evaluated the ant-cancer activity of the organic extract of Angelica dahurica Radix against colon cancer cells and provided a basis of further development of the herbal extract for treatment of colon cancer.