Tumors exhibit abnormal glucose metabolism, consuming excessive glucose and excreting lactate, which constructs a tumor microenvironment that facilitates cancer progression and disrupts immunotherapeutic efficacy. Currently, tumor glucose metabolic dysregulation to reshape the immunosuppressive microenvironment and enhance immunotherapy efficacy is emerging as an innovative therapeutic strategy. However, glucose metabolism modulators lack specificity and still face significant challenges in overcoming tumor delivery barriers, microenvironmental complexity, and metabolic heterogeneity, resulting in poor clinical benefit. Nanomedicines, with their ability to selectively target tumors or immune cells, respond to the tumor microenvironment, co-deliver multiple drugs, and facilitate combinatorial therapies, hold significant promise for enhancing immunotherapy through tumor glucose metabolic reprogramming. This review explores the complex interactions between tumor glucose metabolism-specifically metabolite transport, glycolysis processes, and lactate-and the immune microenvironment. We summarize how nanomedicine-mediated reprogramming of tumor glucose metabolism can enhance immunotherapy efficacy and outline the prospects and challenges in this field.

The early prediction of axillary lymph node metastasis is crucial to the treatment and prognosis of breast cancer patients. Radiomics, as a non-invasive, convenient and efficient emerging technology, can achieve deep exploration and processing of imaging images and plays an increasingly important role in the evaluation of benign and malignant breast tumors, prediction of lymph node metastasis and other aspects. This article reviews the studies on the prediction of axillary lymph node metastasis of breast cancer based on radiomics of mammography, ultrasound and magnetic resonance imaging.

The early prediction of axillary lymph node metastasis is crucial to the treatment and prognosis of breast cancer patients. Radiomics, as a non-invasive, convenient and efficient emerging technology, can achieve deep exploration and processing of imaging images and plays an increasingly important role in the evaluation of benign and malignant breast tumors, prediction of lymph node metastasis and other aspects. This article reviews the studies on the prediction of axillary lymph node metastasis of breast cancer based on radiomics of mammography, ultrasound and magnetic resonance imaging.

Objective:To explore the locations of the lumbosacral nerve roots by use of the magnetic stimulation.Methods:Thirty healthy subjects were studied. The projections of the right L 2 to S 1 intervertebral foramina on their body surfaces were determined manually with ultrasound assistance. Magnetic stimulation was applied to different nerve root segments to induce compound muscle action potentials (CMAP) in the vastus medialis, tibialis anterior, and gastrocnemius muscles of the lower limbs. The changes in latency, amplitude, and motor threshold were observed. Results:Magnetic stimulation on the L 2-L 3 segment resulted in a significant direct excitation of the vastus medialis. That on the L 5-S 1 segment evoked a significant direct excitatory effect on the tibialis anterior and gastrocnemius, with a motor threshold below 40%, an amplitude exceeding 1mV, and many effective responses. However, during the magnetic stimulation on the L 4 segment, the amplitude of the vastus medialis was above 1mV, with no significant differences in the number of effective responses among the muscle groups. Moreover, there was a stepwise change in the latency of effective muscle responses to magnetic stimulation at different segments. The CMAP latencies of 12+ ms for the tibialis anterior and 13+ ms for the gastrocnemius indicated activation of the L 5 and L 4 nerve roots, respectively, while those of 6+ ms, 7+ ms, and 8+ ms for the vastus medialis suggested activation of the L 4, L 3, and L 2 nerve roots, respectively. Conclusions:Based on the responses (CMAP latency, amplitude and motor threshold) of the vastus medialis, tibialis anterior and gastrocnemius to magnetic stimulation at different L 2 to S 1 segments, the spinal nerve root segments responsible for innervation can be inferred.

Objective To study the mechanism of single Chinese medicine and compound in the treatment for sequelae of pelvic inflammatory disease.Methods We searched Pubmed,Web of Science,CNKI,Wanfang and other databases,to find out relevant literature on the treatment of SPID and their mechanism of herbal medicine since the etablishment of the database to March 2023,and summarized the literatures.Results A total of 428 literatures were included,from the included literature,we screened reports on the mechanism of of single Chinese medicine and compound in the treatment of pelvic inflammatory disease,including regulating the secretion level of cytokines and inflammatory mediators,promoting the apoptosis of inflammatory cells,inhibiting lipid peroxidation,inhibiting tissue fiber,improving blood circulation,regulating metabolic pathways and cell signal transduction,and regulating immunity etc.Conclusion To conduct in-depth research on the mechanism of action of traditional Chinese medicine in the treatment of sequelae of pelvic inflammatory disease and to provide reference for the development of new drugs of SPID.

Ovary is a vital female gonadal organ.It not only provides gametes for reproduction,but also secretes hormones to support and maintain the function of multiple systems.The decline of ovarian function is characterized by low fertility,early menopause,etc.It may even lead to dysfunction of multiple organs,which seriously damage women's health.Trace elements(TEs)play an important role in maintaining the normal ovarian function.When the TEs are unbalanced and cannot keep the ho-meostasis of ovary,inducing hormone secretion disorder,ovulatory disorder,decreased enzyme activity and histological changes of ovary.These changes lead to diminished ovarian function.Therefore,in-depth study on the role and mechanism of TEs in the regulation of ovarian function is conducive to understand the physiological function and prevent ovarian dysfunction.In this re-view,in combination with the research on the application of TEs at home and abroad in recent years,the relationship between TEs(iron,zinc,copper,selenium,iodine,cobalt,chromium,molybdenum)and ovarian function,as well as the mechanism of TEs affecting ovarian function are summarized,which will provide some theoretical guidance for the study of TEs in ovarian function in the future.

Objective To investigate the efficacy of Jianpiwenyang Gel(SSWYG)for treating chronic diarrhea and explore its therapeutic mechanism.Methods Eighty patients with chronic diarrhea of spleen and stomach weakness type were randomized into two groups for interventions with lifestyle adjustment and treatment with bifid triple viable capsules(control group,n=40)or naval application with SSWYG(treatment group,n=40)for one week,after which symptoms of chronic diarrhea were evaluated.The Chinese medicine system pharmacology analysis platform(TCMSP),GeneCards,NCBI,OMIM database and GEO database(GSE14841)were used to obtain the active ingredients and target proteins of SSWYG and chronic diarrhea-related targets.The key targets were obtained by topological analysis for Gene Ontology(GO)and KEGG analyses.The affinity and binding characteristics of SSWYG for specific targets were verified by molecular docking using AutoDock software.Results In both groups,gastrointestinal symptom rating scale(GSRS),Bristol Scale and TCM syndrome scores significantly improved after the treatments(P<0.05),and better effects were observed in the treatment group(P<0.05).Sixty-eight targets of SSWYG in treating chronic diarrhea were obtained,and 33 most probable ones were screened out by topological analysis.GO and KEGG analyses identified several chronic diarrhea-related pathways including the TNF and IL-17 pathways.Molecular docking study showed good affinity of the core components of SSWYG for the key targets CASP3,JNK,IL1B,IL6,and AKT1.JUN and CASP3 had the lowest binding energy and the highest stable binding energy with multiple major active ingredients of SSWYG.Conclusion SSWYG can significantly improve clinical symptoms of chronic diarrhea possibly by regulating the TNF and IL-17 as well as other pathways via CASP3 and JUN,suggesting a complex therapeutic mechanism of SSWYG involving multiple ingredients and targets and coordinated regulation of multiple pathways.

Objective To investigate the efficacy of Jianpiwenyang Gel(SSWYG)for treating chronic diarrhea and explore its therapeutic mechanism.Methods Eighty patients with chronic diarrhea of spleen and stomach weakness type were randomized into two groups for interventions with lifestyle adjustment and treatment with bifid triple viable capsules(control group,n=40)or naval application with SSWYG(treatment group,n=40)for one week,after which symptoms of chronic diarrhea were evaluated.The Chinese medicine system pharmacology analysis platform(TCMSP),GeneCards,NCBI,OMIM database and GEO database(GSE14841)were used to obtain the active ingredients and target proteins of SSWYG and chronic diarrhea-related targets.The key targets were obtained by topological analysis for Gene Ontology(GO)and KEGG analyses.The affinity and binding characteristics of SSWYG for specific targets were verified by molecular docking using AutoDock software.Results In both groups,gastrointestinal symptom rating scale(GSRS),Bristol Scale and TCM syndrome scores significantly improved after the treatments(P<0.05),and better effects were observed in the treatment group(P<0.05).Sixty-eight targets of SSWYG in treating chronic diarrhea were obtained,and 33 most probable ones were screened out by topological analysis.GO and KEGG analyses identified several chronic diarrhea-related pathways including the TNF and IL-17 pathways.Molecular docking study showed good affinity of the core components of SSWYG for the key targets CASP3,JNK,IL1B,IL6,and AKT1.JUN and CASP3 had the lowest binding energy and the highest stable binding energy with multiple major active ingredients of SSWYG.Conclusion SSWYG can significantly improve clinical symptoms of chronic diarrhea possibly by regulating the TNF and IL-17 as well as other pathways via CASP3 and JUN,suggesting a complex therapeutic mechanism of SSWYG involving multiple ingredients and targets and coordinated regulation of multiple pathways.

The international genetically engineered machine (iGEM) competition is a global top college academic competition in synthetic biology. The iGEM competition has exhibited extensive international influence and attracted teams from more than 40 countries and regions around the world to participate in. The annual iGEM outputs have attracted the attention of top academic journals or international media such as Science, Nature, Scientific American, The Economist, British Broadcasting Corporation (BBC), etc. High school teams participated in iGEM since 2011, and the number of high school teams has increased year by year. High school participants are increasingly becoming one of the most important forces to promote the development of iGEM and synthetic biology. IGEM competition has also become an important platform to foster the core literacy of high school students. This paper summarized the track rules, topic selection tendency and awards of high school teams based on data of 2017 to 2021 iGEM competition. In addition, we analyzed the significance of iGEM competition on fostering of high school students' core literacy and discussed the development trend of global high school teams, with the aim to provide a reference for high school team building in the future.
Humans ; Genetic Engineering ; Students ; Universities ; Synthetic Biology

Plasma exchange therapy is applied for treatment of severe immune diseases of multiple organ systems and severe liver diseases by removing pathogenic factors and regulating immune function. Regional citrate anticoagulation has no effect on systemic coagulation function and does not increase bleeding risk, and it is one of the optional anticoagulation methods for plasma exchange therapy. This article reviews recent literature on simple plasma exchange therapy with regional citrate anticoagulation to provide a reference for clinical application of this therapy.