Objective To investigate the mechanism and clinical significance of miR-18a-5p and retinoid acid receptor-related orphan receptor-α(RORA)in the proliferation and progression of colorectal cancer(CRC)cells.Methods The expressions of miR-18a-5p and RORA in CRC cells and tissues were detected via qRT-PCR,FISH,and IHC.Cell proliferation capability was detected through EdU and CFSE assay,cell apoptosis by flow cytometry assay,and cell migration and invasion abilities by cell scratch and Transwell invasion assays,respectively.The targeted regulation of miR-18a-5p on RORA was further verified via dual-luciferase reporter assay,cell function rescue test,RT-PCR,and Western blot assay.Finally,bioinformatics was used to explore the molecular mechanism of miR-18a-5p promoting malignant proliferation,invasion,and progression of CRC via regulating RORA.Results miR-18a-5p exhibited a high expression in CRC tissues and cells(P<0.05)and promoted the proliferation,migration,and invasion of CRC cells(P<0.05).In addition,RORA served as the target gene of miR-18a-5p,and its overexpression effectively reduced the promoting function of miR-18a-5p in the malignant biological phenotype of CRC cells(P<0.05).The expression of RORA in CRC tissues showed a significantly positively correlation with the infiltration of CD8+T cells and the expression of its surface marker protein CD8A.Conclusion The targeted regulation of RORA by miR-18a-5p promotes the proliferation and progression of CRC.The miR-18a-5p/RORA regulatory pathway possibly contributes to the immune microenvironment of CRC,which can be a potential therapeutic target for CRC.

Objective To evaluate the effect of acupuncture at Yin Wei point on postoperative nausea and vomiting(PONV)in female patients undergoing abdominal surgery.The clinical efficacy of postoperative nausea and vomiting(PONV)and its impact on gut microbiota.Methods This study included 184 patients who underwent gynecological laparoscopic surgery in Jinhua Central Hospital from January 2021 to April 2024.They were randomly divided into control group(n=93)and acupuncture group(n=91)using a random number method.At the completion of surgery,the control group received intravenous injection of 5mg of tropisetron hydrochloride.In acupuncture group,on the basis of control group,intervention was performed by needling the palmar Yin Wei points of both forearms for 30 minutes before surgery.The incidence and severity of PONV were compared between two groups of patients.In addition,fecal samples were collected from two groups of patients before and after surgery,and differential analysis of gut microbiota community structure was performed using 16S amplicon absolute quantitative sequencing technology.Results In the 0-24 hours after surgery,40 cases of the acupuncture group and 56 cases of control group experienced PONV.The acupuncture group's PONV incidence was lower than control group's(P＜0.05).The nausea severity of acupuncture group after surgery was significantly lower than that of control groups.The proportion of patients taking antiemetic drugs after surgery in acupuncture group was also significantly lower than that in control group(P＜0.05).Before surgery,the two groups have no significant difference regarding Chao1,ACE,Shannon,and Simpson indices(P＞0.05).After surgery,the acupuncture group's Chao1,ACE,and Shannon indices were significantly higher than control group's(P＜0.05).The Simpson scores of two groups of patients were compared after surgery,and no significant difference was found(P＞0.05).The Observed,Chao1,ACE,and Shannon indices were significantly higher in the acupuncture group after surgery than before(P＜0.05).The incidence of adverse reactions in acupuncture group and control group were 8.8％and 8.6％,respectively,and there was no statistical significance(P＞0.05).Conclusion Acupuncture at Yin Wei point combined with intravenous injection of tropisetron can reduce the incidence of PONV in patients undergoing gynecological laparoscopic surgery.

Objective To qualitatively analyze the main chemical components in compound Jinqiancao granules by ultra high performance liquid chromatography-quadrupole time-of-flight mass spectrometry (UHPLC-Q-TOF/MS). Methods XBridge BEH C₁₈ column (2.1 mm×100 mm, 2.5 µm) was used for chromatographic separation. The mobile phase was composed of 0.1% formic acid water and 0.1% formic acid-acetonitrile, gradient elution, and the flow rate was 0.4 ml/min. Mass spectrometry was characterized by Quadrupole time-of-flight mass spectrometry (Q-TOF/MS) and positive ion mode scanning. Results Under the optimized LC/MS condition, 47 components in compound Jinqiancao granules were identified. The isomers were distinguished by software calculation. The source of medicinal materials was assigned. Conclusion A rapid and efficient analytical method was established for the identification of chemical components in compound Jinqiancao granules by UHPLC-Q-TOF/MS.

Biochromatography is a new chromatographic technology with great development potential. It has been widely used in drug screening and biomolecular interaction analysis. The core of this technology is the chromatographic stationary phase of biomolecules. Nowadays, it mainly develops cell membrane chromatography, artificial biomimetic membrane chromatography and the various immobilization strategies to directly immobilizes proteins on the stationary phase carrier. This paper reviews the research progress of new biochromatographic stationary phase and the application of biochromatographic analysis based on new stationary phase. And, the applications of biochromatographic stationary phase and micro biochromatographic analysis system based on monolithic column are prospected.

P-glycoprotein (P-gp) highly expressed in cancer cells can lead to multidrug resistance (MDR) and the combination of anti-cancer drugs with P-gp inhibitor has been a promising strategy to reverse MDR in cancer treatment. In this study, we established a label-free and detergent-free system combining surface plasmon resonance (SPR) biosensor with styrene maleic acid (SMA) polymer membrane proteins (MPs) stabilization technology to screen potential P-gp inhibitors. First, P-gp was extracted from MCF-7/ADR cells using SMA polymer to form SMA liposomes (SMALPs). Following that, SMALPs were immobilized on an SPR biosensor chip to establish a P-gp inhibitor screening system, and the affinity between P-gp and small molecule ligand was determined. The methodological investigation proved that the screening system had good specificity and stability. Nine P-gp ligands were screened out from 50 natural products, and their affinity constants with P-gp were also determined. The in vitro cell verification experiments demonstrated that tetrandrine, fangchinoline, praeruptorin B, neobaicalein, and icariin could significantly increase the sensitivity of MCF-7/ADR cells to Adriamycin (Adr). Moreover, tetrandrine, praeruptorin B, and neobaicalein could reverse MDR in MCF-7/ADR cells by inhibiting the function of P-gp. This is the first time that SMALPs-based stabilization strategy was applied to SPR analysis system. SMA polymer can retain P-gp in the environment of natural lipid bilayer and thus maintain the correct conformation and physiological functions of P-gp. The developed system can quickly and accurately screen small molecule ligands of complex MPs and obtain affinity between complex MPs and small molecule ligands without protein purification.

Cell membrane affinity chromatography has been widely applied in membrane protein (MP)-targeted drug screening and interaction analysis. However, in current methods, the MP sources are derived from cell lines or recombinant protein expression, which are time-consuming for cell culture or purification, and also difficult to ensure the purity and consistent orientation of MPs in the chromatographic stationary phase. In this study, a novel in situ synthesis membrane protein affinity chromatography (iSMAC) method was developed utilizing cell-free protein expression (CFE) and covalent immobilized affinity chromatography, which achieved efficient in situ synthesis and unidirectional insertion of MPs into liposomes in the stationary phase. The advantages of iSMAC are: 1) There is no need to culture cells or prepare recombinant proteins; 2) Specific and purified MPs with stable and controllable content can be obtained within 2 h; 3) MPs maintain the transmembrane structure and a consistent orientation in the chromatographic stationary phase; 4) The flexible and personalized construction of cDNAs makes it possible to analyze drug binding sites. iSMAC was successfully applied to screen PDGFRβ inhibitors from Salvia miltiorrhiza and Schisandra chinensis. Micro columns prepared by in-situ synthesis maintain satisfactory analysis activity within 72 h. Two new PDGFRβ inhibitors, salvianolic acid B and gomisin D, were screened out with K _D values of 13.44 and 7.39 μmol/L, respectively. In vitro experiments confirmed that the two compounds decreased α-SMA and collagen Ӏ mRNA levels raised by TGF-β in HSC-T6 cells through regulating the phosphorylation of p38, AKT and ERK. In vivo, Sal B could also attenuate CCl₄-induced liver fibrosis by downregulating PDGFRβ downstream related protein levels. The iSMAC method can be applied to other general MPs, and provides a practical approach for the rapid preparation of MP-immobilized or other biological solid-phase materials.

Astragali Radix(AR)is a clinically used herbal medicine with multiple immunomodulatory activities that can strengthen the activity and cytotoxicity of natural killer(NK)cells.However,owing to the complexity of its composition,the specific active ingredients in AR that act on NK cells are not clear yet.Cell membrane chromatography(CMC)is mainly used to screen the active ingredients in a complex system of herbal medicines.In this study,a new comprehensive two-dimensional(2D)NK-92MI CMC/C18 column/time-of-flight mass spectrometry(TOFMS)system was established to screen for potential NK cell acti-vators.To obtain a higher column efficiency,3-mercaptopropyltrimethoxysilane-modified silica was synthesized to prepare the NK-92MI CMC column.In total,nine components in AR were screened from this system,which could be washed out from the NK-92MI/CMC column after 10 min,and they showed good affinity for NK-92MI/CMC column.Two representative active compounds of AR,isoastragaloside Ⅰ and astragaloside Ⅳ,promoted the killing effect of NK cells on K562 cells in a dose-dependent manner.It can thus suggest that isoastragaloside Ⅰ and astragaloside Ⅳ are the main immunomodulatory compo-nents of AR.This comprehensive 2D NK-92MI CMC analytical system is a practical method for screening immune cell activators from other herbal medicines with immunomodulatory effects.

Therapeutic drug monitoring(TDM)has played an important role in clinical medicine for precise dosing.Currently,chromatographic technology and immunoassay detection are widely used in TDM and have met most of the needs of clinical drug therapy.However,some problems still exist in practical appli-cations,such as complicated operation and the influence of endogenous substances.Surface plasmon resonance(SPR)has been applied to detect the concentrations of small molecules,including pesticide residues in crops and antibiotics in milk,which indicates its potential for in vivo drug detection.In this study,a new SPR-based biosensor for detecting chloramphenicol(CAP)in blood samples was developed and validated using methodological verification,including precision,accuracy,matrix effect,and extraction recovery rate,and compared with the classic ultra-performance liquid chromatography-ultraviolet(UPLC-UV)method.The detection range of SPR was 0.1-50 ng/mL and the limit of detec-tion was 0.099±0.023 ng/mL,which was lower than that of UPLC-UV.The intra-day and inter-day ac-curacies of SPR were 98％-114％and 110％-122％,which met the analysis requirement.The results show that the SPR biosensor is identical to UPLC-UV in the detection of CAP in rat blood samples;moreover,the SPR biosensor has better sensitivity.Therefore,the present study shows that SPR technology can be used for the detection of small molecules in the blood samples and has the potential to become a method for therapeutic drug monitoring.

Intervertebral disc degeneration (IDD) refers to the biomechanical and structural changes of intervertebral disc tissues due to the effects of a variety of factors. Theses physical or chemical factors lead to the rupture of the annulus fibrous, protrusion of the nucleus pulposus tissue, compression of the spinal cord and nerve roots and causing the patient's back and leg pain ultimately. Degeneration of intervertebral disc is a common condition in clinical practice, which affects working ability and daily living quality of patients seriously. Due to the change of living habits, the population with IDD tend to be younger recently. The etiology, pathogenesis and diagnosis and interventions of IDD have always been hot topics in spinal surgery. Thus, animal models of IDD close to the human body has a of great clinical significance for exploring the etiology, pathological mechanism and non-surgical treatment of IDD. At present, the establishment of IDD model mainly includes two following aspects, in vitro model and in vivo model. There are two main in vitro models, cell culture and tissue or organ culture. There are seven kinds of in vivo models, which can be divided into two categories, namely spontaneous and induced model. Among them, the spontaneous degeneration model is also regarded as age-related degeneration, while the induced model refers to the construction of the animal model of IDD by injuring the structure of the intervertebral disc, changing the biomechanical structure of the vertebral body, development spinal instability caused by surgery or constructing nerve root compression and gene knockout. Although there are many methods of animal modeling and literature reports, each method has its own advantages and disadvantages. The advantages and disadvantages should be weighed when choosing the animal models.

Lianhuaqingwen (LHQW) capsule, a herb medicine product, has been clinically proved to be effective in coronavirus disease 2019 (COVID-19) pneumonia treatment. However, human exposure to LHQW components and their pharmacological effects remain largely unknown. Hence, this study aimed to determine human exposure to LHQW components and their anti-COVID-19 pharmacological activities. Analysis of LHQW component profiles in human plasma and urine after repeated therapeutic dosing was conducted using a combination of HRMS and an untargeted data-mining approach, leading to detection of 132 LHQW prototype and metabolite components, which were absorbed