Objective:To investigate protective effect and mechanism of Tim-3 on sepsis-induced acute lung injury(ALI)by pro-moting mitophagy of alveolar macrophages and inhibiting activation of NLRP3 inflammasome.Methods:LPS-stimulated mouse alveo-lar macrophage(MH-S)model and sepsis-induced ALI mouse model were constructed.Tim-3 siRNA interference technique was used to knock down Tim-3 expression in MH-S cells,and anti-Tim-3 antibody mice were injected intraperitoneally to block Tim-3 function.Western blot was used to detect protein expressions of NLRP3,ASC,cleaved-caspase-1 and mitophagy-related proteins(LC3B,P62,PINK1 and Parkin)in MH-S cells and lung tissue of mice with sepsis-induced ALI.Laser confocal fluorescence staining was used to measure ROS level and mitochondrial membrane potential of MH-S cells.Pathological examination of lung tissue was performed in mice with sepsis-induced ALI in each group,and degree of lung tissue injury was evaluated by Smith scoring system.Bronchoalveolar lavage fluid(BALF)and lung tissue were collected from mice with ALI induced by sepsis in each group.BCA protein quantification method was used to determine protein concentration in BALF.MPO activity in lung tissue was detected by colorimetry.MDA content in lung tissue was detected by TBA method.LC3B protein expression in lung tissue was detected by immunohistochemistry.Results:In mouse alveolar macrophages,Tim-3 knockdown could promote expressions of NLRP3,ASC,cleaved-caspase-1 and P62 proteins,increase ROS release,inhibit PINK1/Parkin pathway activation and LC3B protein expression,and reduce mitochondrial membrane potential.In mice with sepsis-induced ALI,Tim-3 functional blockade could promote expressions of NLRP3,ASC,cleaved-caspase-1 and P62 proteins in lung tissue,aggravate lung pathological injury and pulmonary edema,increase MPO activity and MDA content in lung tissue,and reduce positive rate of LC3B protein.Conclusion:Tim-3 plays a protective role in sepsis-induced ALI by promoting mitophagy in alveolar macrophages and inhibiting NLRP3 inflammasome activation via PINK1/Parkin.

Hypericum attenuatum Choisy.is dry whole grass of the genus Hypericum L.,is a kind of commonly used folk medicinal herbs more than 2400 years.And it is often used to treat heart disease,hemostasis,scald.Based on a review of domestic and international literature,the main chemical components of Hypericum attenuatum Choisy.include PPAPs,flavonoids,and volatile oil,of which PPAPs and xanthone have received the attention of a large number of scholars because of their complex and novel structures and unique pharmacological effects.Modern pharmacological studies have shown that Hypericum attenuatum Choisy.exerts various pharmacological activities,including anti-arrhythmia,reducing blood sugar,anti-tumor,anti-virus,anti-inflammation,as well as the treatment of depression.As a valuable folk medicine,there is relatively little related traditional Chinese medicine products,this review focus on its phytochemistry,and pharmacology,providing a comprehensive perspective and novel ideas for exploring its current and potential applications.

ObjectiveThe controllability changes of structural brain network were explored based on the control and brain network theory in young smokers, this may reveal that the controllability indicators can serve as a powerful factor to predict the sleep status in young smokers. MethodsFifty young smokers and 51 healthy controls from Inner Mongolia University of Science and Technology were enrolled. Diffusion tensor imaging (DTI) was used to construct structural brain network based on fractional anisotropy (FA) weight matrix. According to the control and brain network theory, the average controllability and the modal controllability were calculated. Two-sample t-test was used to compare the differences between the groups and Pearson correlation analysis to examine the correlation between significant average controllability and modal controllability with Fagerström Test of Nicotine Dependence (FTND) in young smokers. The nodes with the controllability score in the top 10% were selected as the super-controllers. Finally, we used BP neural network to predict the Pittsburgh Sleep Quality Index (PSQI) in young smokers. ResultsThe average controllability of dorsolateral superior frontal gyrus, supplementary motor area, lenticular nucleus putamen, and lenticular nucleus pallidum, and the modal controllability of orbital inferior frontal gyrus, supplementary motor area, gyrus rectus, and posterior cingulate gyrus in the young smokers’ group, were all significantly different from those of the healthy controls group (P<0.05). The average controllability of the right supplementary motor area (SMA.R) in the young smokers group was positively correlated with FTND (r=0.393 0, P=0.004 8), while modal controllability was negatively correlated with FTND (r=-0.330 1, P=0.019 2). ConclusionThe controllability of structural brain network in young smokers is abnormal. which may serve as an indicator to predict sleep condition. It may provide the imaging evidence for evaluating the cognitive function impairment in young smokers.

Hypericum attenuatum Choisy.is dry whole grass of the genus Hypericum L.,is a kind of commonly used folk medicinal herbs more than 2400 years.And it is often used to treat heart disease,hemostasis,scald.Based on a review of domestic and international literature,the main chemical components of Hypericum attenuatum Choisy.include PPAPs,flavonoids,and volatile oil,of which PPAPs and xanthone have received the attention of a large number of scholars because of their complex and novel structures and unique pharmacological effects.Modern pharmacological studies have shown that Hypericum attenuatum Choisy.exerts various pharmacological activities,including anti-arrhythmia,reducing blood sugar,anti-tumor,anti-virus,anti-inflammation,as well as the treatment of depression.As a valuable folk medicine,there is relatively little related traditional Chinese medicine products,this review focus on its phytochemistry,and pharmacology,providing a comprehensive perspective and novel ideas for exploring its current and potential applications.

Objective:To investigate protective effect and mechanism of Tim-3 on sepsis-induced acute lung injury(ALI)by pro-moting mitophagy of alveolar macrophages and inhibiting activation of NLRP3 inflammasome.Methods:LPS-stimulated mouse alveo-lar macrophage(MH-S)model and sepsis-induced ALI mouse model were constructed.Tim-3 siRNA interference technique was used to knock down Tim-3 expression in MH-S cells,and anti-Tim-3 antibody mice were injected intraperitoneally to block Tim-3 function.Western blot was used to detect protein expressions of NLRP3,ASC,cleaved-caspase-1 and mitophagy-related proteins(LC3B,P62,PINK1 and Parkin)in MH-S cells and lung tissue of mice with sepsis-induced ALI.Laser confocal fluorescence staining was used to measure ROS level and mitochondrial membrane potential of MH-S cells.Pathological examination of lung tissue was performed in mice with sepsis-induced ALI in each group,and degree of lung tissue injury was evaluated by Smith scoring system.Bronchoalveolar lavage fluid(BALF)and lung tissue were collected from mice with ALI induced by sepsis in each group.BCA protein quantification method was used to determine protein concentration in BALF.MPO activity in lung tissue was detected by colorimetry.MDA content in lung tissue was detected by TBA method.LC3B protein expression in lung tissue was detected by immunohistochemistry.Results:In mouse alveolar macrophages,Tim-3 knockdown could promote expressions of NLRP3,ASC,cleaved-caspase-1 and P62 proteins,increase ROS release,inhibit PINK1/Parkin pathway activation and LC3B protein expression,and reduce mitochondrial membrane potential.In mice with sepsis-induced ALI,Tim-3 functional blockade could promote expressions of NLRP3,ASC,cleaved-caspase-1 and P62 proteins in lung tissue,aggravate lung pathological injury and pulmonary edema,increase MPO activity and MDA content in lung tissue,and reduce positive rate of LC3B protein.Conclusion:Tim-3 plays a protective role in sepsis-induced ALI by promoting mitophagy in alveolar macrophages and inhibiting NLRP3 inflammasome activation via PINK1/Parkin.

【Objective】 To develop the Visual Cognitive Ability Assessment Scale for Preschool Children and to evaluate its reliability and validity, in order to provide reference for clinical evaluation of visual cognitive ability of preschool children. 【Methods】 1) From November 2021 to February 2022, construct the dimension framework was constructed and the pool of scale items was compiled according to the theory. 2) In March to June 2022, items were screened preliminarily through group discussion and Delphi method. In August 2022, the entries was revised by a pre-survey in a small sample (n=50). 3) Parents of children aged 4 - 7 from 8 kindergartens in 4 main urban areas of Nanjing were investigated by stratified cluster random sampling method in September to December 2022. The valid sample of the first survey (n=344) was analyzed to conduct item analysis and re-test reliability analysis, the valid sample of the second survey (n=695) was tested for reliability and confirmatory factor analysis, then the scale was finally compiled and evaluated. 【Results】 1) The scale contained 19 items in 4 dimensions:visual memory, discerning vision, spatial vision and visual integration. All items passed the project analysis test. 2) The Cronbach′s α coefficient of each dimension ranged from 0.604 to 0.886, and the Cronbach′s α coefficient of the whole scale was 0.917. During the two surveys, the scores of each item were correlated, and the average retest reliability coefficient was 0.601 (P< 0.05). 3) Content validity index (S-CVI) at scale level was 0.91, and item level content validity index (I-CVI) ranged from 0.8 to 1.0. After several rounds of model modification, the confirmatory factor model fit well. 【Conclusion】 The reliability and validity of the Visual Cognitive Ability Assessment Scale for Preschool Children are acceptable and meet the requirements of the scale, which provides a practical tool for clinical screening of visual and cognitive disorders.

Irritable bowel syndrome(IBS)is one of the most common functional gastrointestinal disorders,of which diarrhea-predominant IBS(IBS-D)accounts for the largest proportion.The pathogenesis of IBS-D is complicated and diverse,and there is currently a lack of clinically effective drugs.The establishment of animal models is an essential tool for further studies of the disease mechanisms,evaluation of clinical efficacy,and drug development,and the preparation and evaluation standards of models are important factors affecting the quality of the research.Based on the currently accepted pathogenesis of IBS-D and the previous modeling experience of our research group,this review systematically summarizes the evaluation method used in animal models of IBS-D in terms of diarrhea observation,visceral sensitivity tests,and intestinal motility tests,to provide a reference for future studies.

ObjectiveTo analyze the spatiotemporal characteristics and prevention and control measures of the pandemic caused by the SARS-CoV-2 Omicron variant in Shanghai in 2022， aiming to optimize future prevention and control strategies. MethodsDescriptive statistical method was used to analyze data on daily infections released by the Shanghai Municipal Health Commission from March 1 to June 30， 2022. ResultsAs of 30 June， a total of 627 110 infections and 588 deaths had been reported in Shanghai. Most of the cases were in Pudong New Area （35.47%）， Minhang District （10.18%） and Huangpu District （9.27%）. The cumulative infection rate was 8.78% in Huangpu District， which was the highest among all the districts. With the progress of the pandemic， the prevention and control measures were strengthened from a “precise prevention and control” strategy to “block and grid” screening， and then upgraded to city-wide lockdown. All daily new infections were identified from the quarantined population on April 29， 2022， reaching the goal of “clearance of community transmission”. ConclusionThe cumulative infections in Shanghai exceeded any previous epidemics in mainland China. Given the enhanced transmissibility and vaccine-induced immune escape of the Omicron variant， timely and strong public health measures are needed to suppress the pandemic under the general policy of "Dynamic zero-COVID".

Objective Network pharmacology and molecular docking and molecular dynamics techniques were used to investigate the mechanism of action of Alhagi sparsifolia Shap.in the treatment of sepsis and to perform animal experimental verification.Methods First,we screened the effective ingredients and their action targets of Alhagi sparsifolia Shap.,meanwhile,screened relevant action targets for the treatment of sepsis,constructed a protein interaction(PPI)network,and performed topology analysis to draw a TCM disease target network diagram.Second,Kyoto Encyclopedia of genes and genomes enrichment analysis was performed for core targets in the network diagram,along with gene ontology functional enrichment analysis.This was followed by molecular docking and molecular dynamics simulation experiment validation of the core targets.Finally,mice were used for the verification of animal experiments.Results Thirty active components of Alhagi sparsifolia Shap.were screened out,and the top 5 ranked by degree value were quercetin,(-)-epigallocatechin,(-)-Epigallocatechin Gallate,genistein,kaempferol and epigallocatechin with 196 action targets;2144 disease-related targets for sepsis,105 targets for Alhagi sparsifolia Shap.-sepsis intersection,and the core targets were TNF,IL-6,AKT1,VEGFA,CASP3,IL-1β Et al.PI3K-Akt,TNF,HIF-1,AGE-RAGE,IL-17 and other signaling pathways are involved to mediate inflammatory responses,apoptosis and other biological processes to exert therapeutic effects on sepsis.Molecular docking results showed that camelina flavanoids bound equally well to each key target,among which the conformations with the lowest binding energy were(-)-Epigallocatechin Gallate-IL-6 and quercetin-IL-6.Molecular dynamics simulations were performed on the two pairs of complexes,and the results indicated that the stable binding could be achieved through a combination of electrostatic,van der Waals potential,and hydrogen bonding interactions.Animal experiments confirmed that Alhagi sparsifolia Shap.could inhibit the activation of PI3K/Akt signaling pathway,decrease the protein expression of Caspase-3,VEGF and reduced peripheral blood inflammatory factors secretion of TNF-α、IL-1βand IL-6,alleviating inflammatory injury in tissues and organs.Conclusion The therapeutic effect of Alhagi sparsifolia Shap.on sepsis is achieved through multi biological processes,multi targets,and multi pathways.It provides a certain theoretical basis for the clinical application of camel spines as well as sepsis treatment.

Two new neolignans and one new lignan (1-3) were obtained from the roots of Paeonia lactiflora. Their structures were unambiguously elucidated based on extensive spectroscopic analysis, single-crystal X-ray crystallography, and the calculated and experimental electronic circular dichroism (ECD) spectra. Compound 1 was a racemic mixture and successfully resolved into the anticipated enantiomers via chiral-phase HPLC. Compound 3 demonstrated moderate inhibitory activity against human carboxylesterase 2A1 (hCES2A1) with an IC₅₀ value of 7.28 ± 0.94 μmol·^-1.
Chromatography, High Pressure Liquid ; Humans ; Lignans/chemistry* ; Paeonia ; Plant Roots/chemistry* ; Stereoisomerism