Objective To investigate the effect of resveratrol on the tumor microenvironment in osteosarcoma. Methods A C57BL/6 xenograft mouse model was established and treated with resveratrol. Single-cell sequencing was performed to analyze changes in the tumor microenvironment. Immunohistochemistry was used to assess immune cell infiltration, while Western blotting was conducted to examine alterations in cellular signaling pathways. Results Resveratrol significantly inhibited the proliferation of LM8 osteosarcoma cells in C57BL/6 mice compared to the control group. Additionally, CD8⁺ T cell recruitment was enhanced. The Janus kinase 2/signal transducer and activator of transcription 3 (JAK2/STAT3) signaling pathway was notably downregulated in LM8 osteosarcoma cells following resveratrol treatment. Conclusion Resveratrol promotes CD8⁺ T cell infiltration by inhibiting the JAK2/STAT3 signaling pathway, suggesting its potential as a therapeutic agent in osteosarcoma treatment.
Osteosarcoma/genetics* ; STAT3 Transcription Factor/genetics* ; Resveratrol/pharmacology* ; Animals ; Janus Kinase 2/genetics* ; Signal Transduction/drug effects* ; Tumor Microenvironment/immunology* ; Cell Line, Tumor ; Mice, Inbred C57BL ; Mice ; Humans ; Cell Proliferation/drug effects* ; Bone Neoplasms/metabolism* ; CD8-Positive T-Lymphocytes/drug effects* ; Xenograft Model Antitumor Assays

O-acetyl-L-homoserine (OAH) is a promising platform compound for the production of L-methionine and other valuable compounds, while its low yield and low conversion rate limit the industrial application. To solve these problems, we constructed a strain for high OAH production with the previously constructed L-homoserine producer Escherichia coli HS33 as the chassis by systematic metabolic engineering. Firstly, PEP accumulation, pyruvate utilization, and OAH synthesis pathway (overexpressing aspB, aspA, and thrA^C1034T) were enhanced to obtain an initial strain accumulating 13.37 g/L OAH. Subsequently, the co-factor synthesis genes were integrated to supply reducing power and energy, which increased the yield to 15.79 g/L. The OAH yield of the engineered strain OAH28 was further increased to 17.49 g/L by strengthening the acetic acid reuse pathway, improving the supply of acetyl-CoA, and regulating the expression of MetX from different sources. Finally, in a 5 L fermenter, OAH28 achieved an OAH titer of 47.12 g/L, with a glucose conversion rate of 32% and productivity of 0.59 g/(L·h). The results lay a foundation for increasing the OAH production by metabolic engineering and give insights into the industrial production of OAH.
Metabolic Engineering/methods* ; Escherichia coli/genetics* ; Homoserine/biosynthesis* ; Fermentation

Echinocandin B (ECB) is a key precursor of the antifungal drug anidulafungin. It is a secondary metabolite of Aspergillus nidulans, and its titer in fermentation is significantly affected by the ECB synthesis pathway and cell morphology. In this study, the key genes related to the transcription activation, hydroxylation, and cell morphology during ECB biosynthesis were investigated to increase the fermentation titer of ECB and to change the cell morphology of Aspergillus nidulans to reduce the viscosity of the fermentation broth. The results indicated that after overexpression of ecdB and ecdK, the ECB titer increased by 25.8% and 23.7%, respectively, compared with that of the wild-type strain, reaching (2 030.5±99.2) mg/L and (1 996.4±151.4) mg/L. However, the deletion of fksA associated with cell wall synthesis resulted in damage to the cell wall, affecting strain growth and product synthesis. The engineered strain overexpressing ecdB was fermented in a 50-L bioreactor, in which the ECB titer reached 2 234.5 mg/L. The findings laid a research foundation for the subsequent metabolic engineering of this strain.
Fermentation ; Aspergillus nidulans/genetics* ; Echinocandins/genetics* ; Bioreactors/microbiology* ; Fungal Proteins/biosynthesis* ; Metabolic Engineering

Synthetic biology is a crucial tool for the development of the bio-industry and bio-economy, representing a significant aspect of new quality productive forces. As a core course for graduate students in bioengineering, Synthetic Biology plays a vital role in ensuring the supply of essential talents for the development of the bio-industry in the new era. To better serve regional economic development and provide high-level talents for China's progress in the bio-industry, we analyzed typical issues encountered in the past teaching activities, set up a multi-disciplinary teaching team, optimized the course contents, adjusted the teaching mode, and mobilized students' learning interest. With the application of scientific research project as the starting point, we guided students to think and discuss deeply through the simulation of application writing and project defense, which improved students' critical thinking and innovative thinking. With industrialization as a focus, we explored a new training model combining production, education, and research through the joint practice base of the university and enterprises introduced typical cases of biomanufacturing to encourage students to engage in scientific research. The teaching reform significantly enhances the comprehensive abilities and national sentiments of graduate students. This paper hopes to serve as a reference for colleagues engaged in teaching in this field.
Synthetic Biology/education* ; Teaching ; China ; Humans

Objective To isolate,purify and identify exosomes secreted by mouse primary peritoneal macrophages.Methods Five male C57BL/6 mice were intraperitoneally injected with 3% mercaptoacetate broth respectively,and the primary peritoneal macrophages were obtained by lavage,and then the purity was analyzed by flow cytometry.The exosomes of mouse primary peritoneal macrophages were extracted by ExoQuick TC exosome kit,which were measured for the protein content with BCA kit,observed for the morphology by transmission electron microscopy,detected for the particle size and distribution with nanoparticle tracking analyzer,and determined for the expression of exosome-specific markers(CD9,CD63 and TSG101) by Western blot.Results About 5 × 10~6 peritoneal macrophages with the purity of(99.17±0.65)%were obtained from each mouse.Approximately 869 μg of exosomal protein was extracted from 5 mL of mouse primary peritoneal macrophage culture supernatant.The exosomes of mouse primary peritoneal macrophages were typical tea saucerlike vesicles with strong refraction under electron microscopy,and highly expressed the exosome-specific markers TSG101,CD63 and CD9.The particle size distribution was concentrated between 100 and 200 nm,with an average particle size of175.2 nm.Conclusion Intraperitoneal injection of mercaptoacetate broth can improve the yield of mouse primary peritoneal macrophages.ExoQuick TC.exosome kit can extract sufficient amount of exosomes with high purity from mouse primary peritoneal macrophages.

Objective To isolate,purify and identify exosomes secreted by mouse primary peritoneal macrophages.Methods Five male C57BL/6 mice were intraperitoneally injected with 3% mercaptoacetate broth respectively,and the primary peritoneal macrophages were obtained by lavage,and then the purity was analyzed by flow cytometry.The exosomes of mouse primary peritoneal macrophages were extracted by ExoQuick TC exosome kit,which were measured for the protein content with BCA kit,observed for the morphology by transmission electron microscopy,detected for the particle size and distribution with nanoparticle tracking analyzer,and determined for the expression of exosome-specific markers(CD9,CD63 and TSG101) by Western blot.Results About 5 × 10~6 peritoneal macrophages with the purity of(99.17±0.65)%were obtained from each mouse.Approximately 869 μg of exosomal protein was extracted from 5 mL of mouse primary peritoneal macrophage culture supernatant.The exosomes of mouse primary peritoneal macrophages were typical tea saucerlike vesicles with strong refraction under electron microscopy,and highly expressed the exosome-specific markers TSG101,CD63 and CD9.The particle size distribution was concentrated between 100 and 200 nm,with an average particle size of175.2 nm.Conclusion Intraperitoneal injection of mercaptoacetate broth can improve the yield of mouse primary peritoneal macrophages.ExoQuick TC.exosome kit can extract sufficient amount of exosomes with high purity from mouse primary peritoneal macrophages.

Objective To investigate the diagnostic value of biparametric magnetic resonance imaging(bpMRI)radiomics combined with prostate-specific antigen density(PSAD)in predicting low-grade and high-grade prostate carcinoma(PCa).Methods The clinical and imaging data of patients with PCa confirmed by pathology in Taizhou Central Hospital from June 2018 to October 2022 were retrospectively analyzed.According to Gleason grade group(GGG),GGG≤2 was defined as low-grade PCa,and GGG＞2 was defined as high-grade PCa.PCa patients with different grades were randomly divided into training group and test group according to a ratio of 7∶3.Radiomics features were extracted based on T2 weighted imaging(T2WI)and apparent diffusion coefficient(ADC)sequences.Feature selection and dimensionality reduction were carried out using maximum relevance minimum redundancy,least absolute shrinkage and selection operator,and 5-fold cross validation was performed to retain the best radiomics features.Receiver operating characteristic(ROC)curve and Delong's test were used to evaluate the performance of each model.Decision curve analysis(DCA)was used to evaluate the clinical utility of the model.Results Among all the models,T2WI-ADC-PSAD combined model had the best diagnostic efficiency,the area under the curve(AUC)in training group and test group were 0.882,0.772,respectively.Delong's test showed that in training group,there was no significant difference in AUC between T2WI-ADC-PSAD model and T2WI model(P＞0.05),but there were significant differences between T2WI-ADC-PSAD model and other models(P＜0.05).In test group there were no significant differences in AUC between T2WI-ADC-PSAD model and other models(P＞0.05).The DCA showed that the T2WI-ADC-PSAD model provided a higher net benefit for clinical decision-making when the threshold probability was less than 97％.Conclusion BpMRI radiomics combined with PSAD can improve the diagnostic efficiency of low-grade and high-grade PCa,and guide the treatment decision of patients.

Objective To evaluate the clinical efficacy and safety of intensive insulin therapy in the pa-tients with acute myocardial infarction and provide guidance for improving the prognosis.Methods The articles involving the randomized controlled trials(RCT)focusing on the effects of intensive versus conventional insulin therapy on the clinical outcomes of the patients with acute myocardial infarction were retrieved from Cochrane,Embase,PubMed,CNKI,Wanfang Data,VIP,and CBM with the time interval from inception to October 2022.The data of each RCT were extracted and used for meta-analysis in RevMan5.4.Results A total of 8 arti-cles were included in this study,involving 726 patients(372 in the intensive insulin group and 354 in the nor-mal insulin group).The meta-analysis results showed that the intensive insulin group had lower incidence of major cardiovascular adverse events(RR =0.53,95%CI =0.44-0.64,P<0.001),lower all-cause mortality(RR = 0.51,95%CI =0.33-0.78,P =0.002),lower high-sensitivity C-reactive protein level on day 7(WMD =-2.00,95%CI =-2.17--1.83,P<0.001),higher left ventricular ejection fraction on day 30(WMD = 3.94,95%CI =2.45-5.43,P<0.001),and higher incidence of hypoglycemia events(RR =2.96,95%CI =1.12-7.83,P =0.030)than the normal insulin group.There was no significant difference between the two groups in terms of no-reflow event after percutaneous coronary intervention(RR =0.39,95%CI =0.14-1.13,P =0.080).Conclusion Intensive insulin therapy might be associated with more clinical benefits in the patients with acute myocardial infarction,while the conclusion remains to be confirmed by more studies.

In neurons and myocytes, selective ion channels in the plasma membrane play a pivotal role in transducing chemical or sensory stimuli into electrical signals, underpinning neural and cardiac functionality. Recent advancements in biomedical research have increasingly spotlighted the interaction between ion channels and electromagnetic fields, especially terahertz (THz) radiation. This review synthesizes current findings on the impact of THz radiation, known for its deep penetration and non-ionizing properties, on ion channel kinetics and membrane fluid dynamics. It is organized into three parts: the biophysical effects of THz exposure on cells, the specific modulation of ion channels by THz radiation, and the potential pathophysiological consequences of THz exposure. Understanding the biophysical mechanisms underlying these effects could lead to new therapeutic strategies for diseases.
Neurons/metabolism* ; Animals ; Ion Channels/radiation effects* ; Humans ; Terahertz Radiation ; Kinetics ; Cell Membrane/radiation effects*

The Principle of Biotechnology is a compulsory course for undergraduates majoring in bioengineering at Zhejiang University of Technology. In response to the "Double First-Class" initiative and in order to improve the teaching effect of this course and the quality of talent training, we reformed the teaching of Principle of Biotechnology, the core course in bioengineering. Specifically, we reorganized the teaching contents, improved the process management of teaching and learning, and implemented multi-dimensional teaching practice. These measures improved teaching quality and promoted the achievement of training goals, which was of great significance for developing "First-Class" disciplines.
Biotechnology/education* ; Teaching ; China ; Curriculum ; Bioengineering/education* ; Universities