RESUMO
This study, aiming at finding biomarkers which can assist in the diagnosis of respiratory syncytial virus (RSV) pneumonia and analyzing the metabolic pathways of anti-RSV activity of Scutellaria baicalensis Georgi (SG)., explores the improvement effect of SG on mice models infected by RSV with the metabolomics technology based on UPLC-Q-Exactive HF X-MS. Mice models affected by RSV are established by nasal drip method and the changes of body weight, rectal temperature and pathological damage of lung tissue are evaluated. The lung tissue samples of mice in each group are collected and analyzed by UPLC-Q-Exactive HF X-MS. The differential metabolites of SG drug intervention are explored by metabolomics technology, and the metabolic pathways regulated by SG are analyzed. The results show that SG can significantly improve the pathological state of the lung tissue of the mice and make its body weight and rectal temperature tend to be normal. In the lung tissue samples, 46 biomarkers, such as guanine, L-asparagine, and arachidonic acid, are screened for disease development in RSV model mice. SG improved RSV infection by recalling 22 potential biomarkers, such as uric acid, arachidonic acid, and alanine. The 22 potential markers mainly involved 11 abnormal metabolic pathways, including phenylalanine, tyrosine, and tryptophan biosynthesis, and arachidonic acid metabolism, alanine, aspartic acid and glutamate metabolism are closely related to the five metabolic pathways. SG improves RSV-infected mice mainly by regulating amino acids, lipids, cofactors and vitamins and nucleotide metabolites. All animal experiments were conducted under the guidance and approval of the Animal Ethics Review Committee of Shandong University of Traditional Chinese Medicine. (approval number: SDUTCM20210311001).
RESUMO
Objective To evaluate the cytotoxicity of natural killer(NK)-92 cell lines against various human hepatocellular carcinoma cells(HCCs)and to explore the potential mechanism.Methods We established a culture method of NK-92 cell lines in vitro.Lactate debydrogenase(LDH)cytotoxicity assays and cytokine release assays were performed to determine whether NK-92 cell lines could recognize and kill HCCs in vitro.At the same time,Nu/Nu mices were housed. Subcutaneous(sc)xenografts HepG2 models of human hepatocellular carcinoma were established.1×107NK-92 cells were intravenously(iv)injected through the tail vein on days 2,9,16,23 while the control group was injected with PBS in the same way.Tumor size, tumor volume, tumor mass and mouse survival status were closely observed in experimental and control groups.Mice were euthanized when tumor-bearing time reached 28 days.Xenograft tissues were taken for general observation.Sections were cut and processed for HE staining and immunofluorescence staining.The expression of glypican-3(GPC3)protein in xenografts tissue was clearly defined.Results NK-92 cell lines that were chronically cultured in vitro and maintained typical phenotypic characteristics of NK cells with good cellular activity.Enhanced cytotoxicity and IFN-γ production of NK-92 cell lines were identified by LDH and ELISA,indicating that NK-92 cell lines could recognize and kill different kinds of HCCs.In addition,NK-92 cell lines efficiently suppressed the growth of HCC xenografts in vivo.Tumor volume in experimental group was significantly reduced compared with control group and there was low a GPC 3 expression in experimental group through immunofluorescence and immunohistochemistry results, pointing to the possibility that the cytotoxicity of NK cells was correlated with GPC3 +HCCs.Conclusion NK cells provide a promising means of therapeutic intervention for HCCs.NK-92 cell lines could eliminate HCC cells in vitro and in vivo.The cytotoxicity of NK-92 cell lines may work by killing the GPC3-positive cells in the liver cancer tissue.In addition to the anti-tumor effect, NK cells also have cytotoxicity on pathogens such as bacteria and viruses.