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OBJECTIVE To mine the safety signals of FOLFOX scheme and FOLFIRI scheme-induced hepatotoxicity, and to provide reference for the selection of clinical rational treatment plan and the prevention and treatment of drug adverse reaction (ADR). METHODS Reporting odds ratio method and proportion report ratio method were used to analyze adverse drug event (ADE) reports of FOLFOX scheme and FOLFIRI scheme in FDA adverse event reporting system during January 1, 2004-June 30, 2022. The potential safety signals of FOLFOX scheme and FOLFIRI scheme-induced hepatotoxicity were mined. RESULTS The amounts of ADE reports related to FOLFOX scheme and FOLFIRI scheme were respectively 3 454 and 1 359; the proportions of male and female patients involved were 1.50∶1 and 1.67∶1 in these two schemes, respectively. The top five countries with the largest number of reports were the United States, Japan, France, Italy and the United Kingdom, respectively accounting for 58.48% and 53.79% of the total reported cases. More than 90% of patients took no more than 5 drugs in combination, the proportion of patients receiving FOLFOX scheme and FOLFIRI scheme combined with anti-angiogenic drugs or epidermal growth factor receptor inhibitors was 45.45% and 86.82%, respectively. Totally 443 ADE reports of FOLFOX scheme-induced hepatotoxicity were collected, and 22 ADR signals were generated, including hepatic sinusoidal obstruction syndrome, nodular regenerative hyperplasia, drug-induced liver injury, blood bilirubin increased, etc. Totally 128 ADE reports of FOLFIRI scheme- induced hepatotoxicity were reported, and 9 ADR signals were generated, including blood bilirubin increased, hepatotoxicity, steatohepatitis, hepatic steatosis, etc. CONCLUSIONS FOLFOX scheme and FOLFIRI scheme can cause different types of hepatotoxicity. Clinical drug monitoring should be strengthened to guarantee drug safety.
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Objective To analyze the main active components and potential molecular mechanism of Sophora flavescens against breast cancer based on network pharmacology and molecular docking. Methods The chemical constituents were collected and screened by TCMSP, ETCM database and literature review. The targets of active ingredients were predicted by Swiss Target Prediction database. Breast cancer-related targets were collected by GeneCards, TTD, Drugbank and OMIM. The anti-breast cancer targets of Sophora flavescens were screened by Venny 2.1.0 software. Cytoscape software was used to construct the network diagram of Sophora flavescens-key active ingredients-targets. STRING database was used to analyze the common targets, and PPI network diagram was constructed. GO function enrichment analysis and KEGG pathway enrichment analysis of key target proteins were performed by DAVID database and Hiplot online platform. Schrodinger software was used to calculate the molecular docking between the active ingredients and targets. Molecular biological methods were used to verify the key targets. Results A total of 36 active components with clear structures were screened from Sophora flavescens. 70 anti-breast cancer targets of Sophora flavescens were screened out. 12 core targets including EGFR, AKT1, ESR1, SRC, CYP19A1, AR and ABCB1 participate in endocrine resistance, EGFR tyrosine kinase inhibitors and estrogen signaling pathways in breast cancer. Moreover, the docking score between the core component and the key target AR is the highest. In vitro experiments showed that the extract of Sophora flavescens can inhibit the proliferation of breast cancer cells, induce cell apoptosis and up-regulate AR protein expression. Conclusion It was revealed that Sophora flavescens plays an anti-breast cancer role by regulating complex biological processes through multiple components acting on multiple targets and signaling pathways. The upregulation of AR protein by Sophora flavescens may become a new therapeutic strategy for the treatment of breast cancer.
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Paclitaxel is the first-line chemotherapy drug for a variety of cancers. However, the paclitaxel resistance greatly reduced the efficacy in the later treatment stage, which seriously increased the mortality and recurrence rate of cancer and limited the clinical application of paclitaxel. At present, Chinese medicine compound prescription, proprietary Chinese medicine, and Chinese medicine injection are widely used as the adjuvant chemotherapy drugs for the treatment of cancer in clinic. Chinese medicine has shown unique advantages in improving the efficacy of chemotherapy drugs and the prognosis of chemotherapy, and reducing the toxic and side effects. However, the specific mechanism and effective monomer composition of Chinese medicine for reversing the resistance of chemotherapy drugs are unclear, and the application of Chinese medicine in different types of cancer is also limited, which are worthy of further exploration. This review summarized the composition of Chinese medicine monomer with synergistic antitumor effect combined with paclitaxel in recent years. The specific mechanism and pharmacological activities of Chinese medicine monomer reversing paclitaxel resistance were classified. This review found that through acting on the membrane transport protein, Chinese medicine monomer promoted the accumulation of paclitaxel in tumor cells, inhibited the expressions of protein and metabolic enzyme related to multidrug resistance and the metabolism of paclitaxel, and regulated the levels of apoptosis genes and factors and apoptosis-related pathways to promote the inhibitory effect of paclitaxel on cell proliferation. Chinese medicine monomer also significantly improved paclitaxel chemotherapy sensitivity by regulating the expression levels of micro ribonucleic acid (microRNA) and long non-coding ribonucleic acid RNA (lncRNA), inhibiting the characteristics of tumor stem cells and tumor metabolic reprogramming, improving tumor microenvironment, and triggering tumor cell death autophagy and oxidative stress response. This review provides a theoretical basis for clarifying the specific anti-tumor mechanism of Chinese medicine monomer combined with paclitaxel, which is of great significance for the development of new Chinese medicine and the clinical research of the drugs combined with paclitaxel, and has certain value for the application of Chinese medicine combined with other chemotherapy drugs.
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Objective To analyze the chemical constituents in fruits of Capparis spinosa by GC-MS analysis .Methods The compounds were extracted from Capparis spinosa by 70% ethanol after smash .After extraction by petroleum ether (boil-ing range was from 60 to 90 ℃) ,the compounds were analyzed by gas chromatography with a VF-5ms capillary column .The column was heated up from 80 ℃ to 300 ℃ ,15 ℃/min ,then maintained for 10 minutes ,vaporization temperature was 250 ℃ , carrier gas was Helium and the flow rate was 1 ml/min .The detection was carried out by mass spectrometry using electron im-pact ion source with 70 eV ionization voltages .The ion source temperature was 200 ℃ and split ratio was 30∶1 .The injection volume was 1 .0 μl .The content of the compounds was determined with peak area normalization method .Results 53 chroma-tographically peaks were separated and 48 chemical constituents were identified including hexadecanoic acid (21 .82% ) ,octade-canoic acid (7 .49% ) ,oleinic acid (42 .93% ) and monoolein (2 .39% ) .These chemical constituents were mainly saturated fatty acid ester ,unsaturated fatty acid ester and alkanes .Conclusion The method is rapid ,accurate and sensitive with the usage of GC-MS ,which could be used to identify main chemical constituents of Capparis spinosa in fruit .