A Review of Studies on Teachers’ Roles and Their Limitations in PBL Presentation Context

At all levels of learning and teaching, it is known that teachers play important roles. A teacher’s role may be determined and studied from the functions he performs in different activities. These roles are often stereotyped but under the problem-based learning mode, they are flexible and deserve new studies since the transformation of the teaching and learning model entails a fundamental change of teacher role. As numerous research has been done on teachers’ roles, this paper intends to carry out a literature review of these studies and sort out the possible limitations in problem-based learning environment

Causality between inflammatory bowel disease and the cerebral cortex: insights from Mendelian randomization and integrated bioinformatics analysis

BackgroundInflammatory bowel disease (IBD), which includes ulcerative colitis (UC) and Crohn’s disease (CD), is a chronic, progressive, and recurrent intestinal condition that poses a significant global health burden. The high prevalence of neuropsychiatric comorbidities in IBD necessitates the development of targeted management strategies.MethodsLeveraging genetic data from genome-wide association studies and Immunochip genotype analyses of nearly 150,000 individuals, we conducted a two-sample Mendelian randomization study to elucidate the driving force of IBD, UC, and CD on cortical reshaping. Genetic variants mediating the causality were collected to disclose the biological pathways linking intestinal inflammation to brain dysfunction.ResultsHere, 115, 69, and 98 instrumental variables genetically predicted IBD, UC, and CD. We found that CD significantly decreased the surface area of the temporal pole gyrus (β = −0.946 mm2, P = 0.005, false discovery rate-P = 0.085). Additionally, we identified suggestive variations in cortical surface area and thickness induced by exposure across eight functional gyri. The top 10 variant-matched genes were STAT3, FOS, NFKB1, JAK2, STAT4, TYK2, SMAD3, IL12B, MYC, and CCL2, which are interconnected in the interaction network and play a role in inflammatory and immune processes.ConclusionWe explore the causality between intestinal inflammation and altered cortical morphology. It is likely that neuroinflammation-induced damage, impaired neurological function, and persistent nociceptive input lead to morphological changes in the cerebral cortex, which may trigger neuropsychiatric disorders

Artemisia anomala extracts enhance the viability and antioxidation capacity of human keratinocytes

Purpose: To investigate the effect of extracts of Artemisia anomala S. Moore tissues on viability, apoptosis and antioxidant capacity of human keratinocytes.Methods: Human keratinocyte cell line HaCaT were treated with extracts of A. anomala for 12 h or 24 h. Cell viability, level of reactive oxygen species (ROS), and incidence of apoptosis were measured by flow cytometry. Levels of mRNA and key proteins in the mitogen-activated protein kinase (MAPK) pathway were determined by quantitative reverse-transcription polymerase chain reaction (qRT-PCR). Key proteins of caspase pathways were assessed by western blot. The influence of the extract on the MAPK pathway was further probed by treating cells with MAPK activator in the presence and absence of the extract.Results: Treatment of cells with extracts of A. anomala enhanced viability and reduced apoptosis in a time-dependent manner, and increased ROS level, compared with control. mRNA and protein expressions of c-Jun N-terminal kinase (JNK), extracellular regulated protein kinase (ERK), and p38 MAPK decreased in extract-treated cells. The extracts also reversed the inhibitory effects of the MAPK pathway activator, actinomycin, on cell viability and ROS, and inhibited protein-cleaved caspase-8 and cleaved caspase-3.Conclusion: A. anomala extract increases cell viability and antioxidant capacity via inactivation of MAPK pathway, and also inhibits cell apoptosis via inactivation of caspase pathways. Hence, the extract may serve as a promising drug for the treatment of psoriasis.Keywords: Artemisia anomala, MAPK pathway, Anti-oxidation, Keratinocyte, Psoriasi

Insulin autoimmune syndrome caused by esomeprazole in a Chinese patient

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TfR1 binding with H-ferritin nanocarrier achieves prognostic diagnosis and enhances the therapeutic efficacy in clinical gastric cancer

H-ferritin (HFn) nanocarrier is emerging as a promising theranostic platform for tumor diagnosis and therapy, which can specifically target tumor cells via binding transferrin receptor 1 (TfR1). This led us to investigate the therapeutic function of TfR1 in GC. The clinical significance of TfR1 was assessed in 178 GC tissues by using a magneto-HFn nanoparticle-based immunohistochemistry method. The therapeutic effects of doxorubicin-loaded HFn nanocarriers (HFn-Dox) were evaluated on TfR1-positive GC patient-derived xenograft (GC-PDX) models. The biological function of TfR1 was investigated through in vitro and in vivo assays. TfR1 was upregulated (73.03%) in GC tissues, and reversely correlated with patient outcome. TfR1-negative sorted cells exhibited tumor-initiating features, which enhanced tumor formation and migration/invasion, whereas TfR1-positive sorted cells showed significant proliferation ability. Knockout of TfR1 in GC cells also enhanced cell invasion. TfR1-deficient cells displayed immune escape by upregulating PD-L1, CXCL9, and CXCL10, when disposed with IFN-γ. Western blot results demonstrated that TfR1-knockout GC cells upregulated Akt and STAT3 signaling. Moreover, in TfR1-positive GC-PDX models, the HFn-Dox group significantly inhibited tumor growth, and increased mouse survival, compared with that of free-Dox group. TfR1 could be a potential prognostic and therapeutic biomarker for GC: (i) TfR1 reversely correlated with patient outcome, and its negative cells possessed tumor-aggressive features; (ii) TfR1-positive cells can be killed by HFn drug nanocarrier. Given the heterogeneity of GC, HFn drug nanocarrier combined with other therapies toward TfR1-negative cells (such as small molecules or immunotherapy) will be a new option for GC treatment

High throughput Single-cell Cultivation on Microfluidic Streak Plates

This paper describes the microfluidic streak plate (MSP), a facile method for high-throughput microbial cell separation and cultivation in nanoliter sessile droplets. The MSP method builds upon the conventional streak plate technique by using microfluidic devices to generate nanoliter droplets that can be streaked manually or robotically onto petri dishes prefilled with carrier oil for cultivation of single cells. In addition, chemical gradients could be encoded in the droplet array for comprehensive dose-response analysis. The MSP method was validated by using single-cell isolation of Escherichia coli and antimicrobial susceptibility testing of Pseudomonas aeruginosa PAO1. The robustness of the MSP work flow was demonstrated by cultivating a soil community that degrades polycyclic aromatic hydrocarbons. Cultivation in droplets enabled detection of the richest species diversity with better coverage of rare species. Moreover, isolation and cultivation of bacterial strains by MSP led to the discovery of several species with high degradation efficiency, including four Mycobacterium isolates and a previously unknown fluoranthene-degrading Blastococcus species