Objective To preliminarily investigate the safety and efficacy of donor pancreas needle biopsy in simultaneous pancreas-kidney transplantation. Methods Clinical data of 7 cases undergoing donor pancreas biopsy were collected retrospectively. All cases underwent donor pancreas biopsy before or during simultaneous pancreas-kidney transplantation. Frozen section or paraffin sectioning techniques were used for tissue preparation, and hematoxylin-eosin and Masson staining were performed to histologically evaluate the donor pancreas. The quality of donor pancreas was comprehensively assessed by combining histological findings with the donor's clinical data. Postoperative follow-up data of 5 simultaneous pancreas-kidney transplant recipients were collected to summarize the safety of donor pancreas biopsy and the prognosis of transplant recipients. Results The 7 pancreas donors were aged 28 to 62 years, with a body mass index ranging from 20.76 to 27.68 kg/m². Liver ultrasound indicated fatty liver in 3 cases, while pancreatic ultrasound did not reveal any significant abnormalities. Among them, biopsy was performed on 2 donors after completion of pancreatic procurement and processing, and the frozen section histology showed moderate acute pancreatitis changes (edema of acinar cells, necrosis and inflammatory cell infiltration). Combined with a serum amylase level elevated more than 3 times the upper limit of normal value, these two donor pancreases were finally discarded. The remaining 5 cases underwent biopsy immediately after pancreatic vascular anastomosis during simultaneous pancreas-kidney transplantation, and histological evaluation was performed on paraffin-embedded sections. No biopsy-related complications (such as bleeding, pancreatic fistula, etc.) occurred after transplantation. One recipient died of severe infection 2 months after transplantation, while the other 4 recipients were followed up for more than 5 years, with well-functioning transplant kidneys and pancreases. Conclusions Donor pancreas biopsy is relatively safe, and the risk of biopsy-related complications after transplantation is controllable. Comprehensive assessment of donor pancreas quality by combining histological evaluation with the donor's clinical indicators is conducive to improving the accuracy of donor pancreas selection and organ utilization.

Based on network pharmacology,through molecular docking and experimental validation,the study explored the mechanism of the Hypericum japonicum-Rehmannia glutinosa-Salvia ple-beian compound(HRS)in the treatment of liver injury.Mice were randomly divided into a control group(CON group),a model group(CCL4 group),a high-dose drug group(HRS-H group),and a low-dose group(HRS-L group).A mouse liver injury model was established using CCL4 induction,liver tissue pathological morphology was observed,and the relative expression levels of liver in-flammatory cytokine genes was measured.Active ingredients of traditional Chinese medicine and targets related to Chinese medicine and diseases were obtained from databases such as Herb,TCM-SP,PubChem,Swiss Target Prediction,Gene Cards and DisGeNET.The intersection of targets was used to obtain potential drug targets.The potential targets were analyzed for protein-protein inter-action(PPI)using the string database and a network diagram of"drug-active component-intersec-tion target"was constructed using Cytoscape.DAVID database was used for GO and KEGG path-way analysis,and Auto Dock Tools software was used for molecular docking.Finally,the results of molecular docking by examining the expression of key target genes and downstream genes such as those related to the PI3K-AKT pathway and the autophagy pathway were experimentally valida-ted.Results:Animal experiment results showed that compared to the CON group,the CCL4 group of mice exhibited disrupted liver architecture,hepatocyte steatosis,vacuolization,and extensive in-flammatory cell infiltration.These characteristics were ameliorated by drug treatment groups with the HRS-H group demonstrating superior effects compared to the HRS-L group.RT-qPCR results from mouse livers showed significantly increased relative expression of TNF-α and INOS mRNA compared to the CON group in the CCL4 group(P＜0.01),and significantly increased IL-1β mR-NA relative expression(P＜0.05).Compared to the CCL4 group,the HRS-H group showed signifi-cantly decreased TNF-α,INOS,and IL-1β mRNA relative expressions(P＜0.01).155 potential tar-gets for HRS in alleviating liver damage were identified through network pharmacology,with top-ranked key target points including STAT3,SRC,PIK3R1,PIK3CA,AKT1,HSP90A11,EGFR,and ESR.Key active ingredients included Tetramethoxyluteolin,Hispidulin,Eupafolin,Kaempferol,and Eupaformonin.GO enrichment analysis yielded 940 entries,and KEGG enrichment analysis yielded 177 biological pathways.Molecular docking results showed a strong binding ability between the main components of HRS and key target points.RT-qPCR results showed increasing trends for EGFR,PI3KCA,HSP90A11,and NF-κB mRNA compared to the CON group in the CCL4 group,significantly increased AKT1 mRNA relative expression(P＜0.05),significant decreases in ULK1,ATG5,LC3B,and ATG7 mRNA relative expressions(P＜0.05),and extremely significant decreases in PTEN,ATG13,BECLIN-1,ATG16L1,ATG12,ATG4B,and ATG3 mRNA relative expressions(P＜0.01).Compared to the CCL4 group,the HRS-H group showed significantly de-creased PI3KCA,HSP90A11,and NF-κB mRNA relative expressions(P＜0.05),extremely signif-icantly decreased EGFR,AKT1,and mTOR mRNA relative expressions(P＜0.01),increased ULK1 relative expression trends,significantly increased PTEN,ATG16L1,ATG5,LC3B,and ATG7 mRNA relative expressions(P＜0.05),extremely significantly increased ATG13,BECLIN-1,ATG12,ATG4B,and ATG3 mRNA relative expressions(P＜0.01).Conclusion:The HRS ex-erts hepatoprotective effects through multi-component,multi-pathway approaches,with alleviating inflammation and promoting hepatocyte autophagy through PI3K-AKT pathway likely being im-portant mechanisms for its protective effects.

Based on network pharmacology,through molecular docking and experimental validation,the study explored the mechanism of the Hypericum japonicum-Rehmannia glutinosa-Salvia ple-beian compound(HRS)in the treatment of liver injury.Mice were randomly divided into a control group(CON group),a model group(CCL4 group),a high-dose drug group(HRS-H group),and a low-dose group(HRS-L group).A mouse liver injury model was established using CCL4 induction,liver tissue pathological morphology was observed,and the relative expression levels of liver in-flammatory cytokine genes was measured.Active ingredients of traditional Chinese medicine and targets related to Chinese medicine and diseases were obtained from databases such as Herb,TCM-SP,PubChem,Swiss Target Prediction,Gene Cards and DisGeNET.The intersection of targets was used to obtain potential drug targets.The potential targets were analyzed for protein-protein inter-action(PPI)using the string database and a network diagram of"drug-active component-intersec-tion target"was constructed using Cytoscape.DAVID database was used for GO and KEGG path-way analysis,and Auto Dock Tools software was used for molecular docking.Finally,the results of molecular docking by examining the expression of key target genes and downstream genes such as those related to the PI3K-AKT pathway and the autophagy pathway were experimentally valida-ted.Results:Animal experiment results showed that compared to the CON group,the CCL4 group of mice exhibited disrupted liver architecture,hepatocyte steatosis,vacuolization,and extensive in-flammatory cell infiltration.These characteristics were ameliorated by drug treatment groups with the HRS-H group demonstrating superior effects compared to the HRS-L group.RT-qPCR results from mouse livers showed significantly increased relative expression of TNF-α and INOS mRNA compared to the CON group in the CCL4 group(P＜0.01),and significantly increased IL-1β mR-NA relative expression(P＜0.05).Compared to the CCL4 group,the HRS-H group showed signifi-cantly decreased TNF-α,INOS,and IL-1β mRNA relative expressions(P＜0.01).155 potential tar-gets for HRS in alleviating liver damage were identified through network pharmacology,with top-ranked key target points including STAT3,SRC,PIK3R1,PIK3CA,AKT1,HSP90A11,EGFR,and ESR.Key active ingredients included Tetramethoxyluteolin,Hispidulin,Eupafolin,Kaempferol,and Eupaformonin.GO enrichment analysis yielded 940 entries,and KEGG enrichment analysis yielded 177 biological pathways.Molecular docking results showed a strong binding ability between the main components of HRS and key target points.RT-qPCR results showed increasing trends for EGFR,PI3KCA,HSP90A11,and NF-κB mRNA compared to the CON group in the CCL4 group,significantly increased AKT1 mRNA relative expression(P＜0.05),significant decreases in ULK1,ATG5,LC3B,and ATG7 mRNA relative expressions(P＜0.05),and extremely significant decreases in PTEN,ATG13,BECLIN-1,ATG16L1,ATG12,ATG4B,and ATG3 mRNA relative expressions(P＜0.01).Compared to the CCL4 group,the HRS-H group showed significantly de-creased PI3KCA,HSP90A11,and NF-κB mRNA relative expressions(P＜0.05),extremely signif-icantly decreased EGFR,AKT1,and mTOR mRNA relative expressions(P＜0.01),increased ULK1 relative expression trends,significantly increased PTEN,ATG16L1,ATG5,LC3B,and ATG7 mRNA relative expressions(P＜0.05),extremely significantly increased ATG13,BECLIN-1,ATG12,ATG4B,and ATG3 mRNA relative expressions(P＜0.01).Conclusion:The HRS ex-erts hepatoprotective effects through multi-component,multi-pathway approaches,with alleviating inflammation and promoting hepatocyte autophagy through PI3K-AKT pathway likely being im-portant mechanisms for its protective effects.

Objective:This study used data-independent acquisition (DIA) proteomics to analyze plasma protein expression in sepsis-induced coagulopathy (SIC), identify key biomarkers, and develop a diagnostic model.Methods:This prospective study included 46 adult sepsis patients from the intensive care unit. Patients were categorized into a general sepsis group ( n=26) and an SIC group ( n=20) based on established SIC criteria. Plasma samples underwent proteomic and bioinformatics analyses to identify differentially expressed protein (DEP) using LASSO regression and Random Forest. A diagnostic model was constructed and assessed via receiver operating characteristic (ROC) curve analysis. Results:The baseline data revealed that SIC patients exhibited longer prothrombin times, lower platelet counts, and higher D-dimer, fibrin degradation products, blood lactate, SOFA scores, and APACHE Ⅱ scores compared with general sepsis patients ( P<0.05). DIA proteomics identified 2 637 proteins, with 240 DEP meeting the criteria (fold change >1.5, P<0.05), including 81 upregulated and 159 downregulated DEP. Subcellular localization analysis revealed that DEPs were predominantly extracellular and nuclear. Gene ontology (GO) annotation showed that DEP were mainly involved in cellular physiology, biological regulation, and stress response processes in biological processes. Domain annotation revealed a predominance of immunoglobulin V regions in DEP, which are crucial for antigen recognition and binding. KEGG enrichment analysis showed significant enrichment of DEP in pathways related to natural killer cell-mediated cytotoxicity, glycosylphosphatidylinositol anchor biosynthesis, tumor necrosis factor signaling, and NF-κB signaling. LASSO regression identified angiogenin and C-type lectin domain family 10 member A as key DEP. The SIC diagnostic nomogram showed an area under the curve of 0.896, with 0.731 specificity and 0.900 sensitivity. Conclusion:The nomogram incorporating angiogenin and C-type lectin domain family 10 member A provides an accurate tool for SIC diagnosis.

Objective:This study used data-independent acquisition (DIA) proteomics to analyze plasma protein expression in sepsis-induced coagulopathy (SIC), identify key biomarkers, and develop a diagnostic model.Methods:This prospective study included 46 adult sepsis patients from the intensive care unit. Patients were categorized into a general sepsis group ( n=26) and an SIC group ( n=20) based on established SIC criteria. Plasma samples underwent proteomic and bioinformatics analyses to identify differentially expressed protein (DEP) using LASSO regression and Random Forest. A diagnostic model was constructed and assessed via receiver operating characteristic (ROC) curve analysis. Results:The baseline data revealed that SIC patients exhibited longer prothrombin times, lower platelet counts, and higher D-dimer, fibrin degradation products, blood lactate, SOFA scores, and APACHE Ⅱ scores compared with general sepsis patients ( P<0.05). DIA proteomics identified 2 637 proteins, with 240 DEP meeting the criteria (fold change >1.5, P<0.05), including 81 upregulated and 159 downregulated DEP. Subcellular localization analysis revealed that DEPs were predominantly extracellular and nuclear. Gene ontology (GO) annotation showed that DEP were mainly involved in cellular physiology, biological regulation, and stress response processes in biological processes. Domain annotation revealed a predominance of immunoglobulin V regions in DEP, which are crucial for antigen recognition and binding. KEGG enrichment analysis showed significant enrichment of DEP in pathways related to natural killer cell-mediated cytotoxicity, glycosylphosphatidylinositol anchor biosynthesis, tumor necrosis factor signaling, and NF-κB signaling. LASSO regression identified angiogenin and C-type lectin domain family 10 member A as key DEP. The SIC diagnostic nomogram showed an area under the curve of 0.896, with 0.731 specificity and 0.900 sensitivity. Conclusion:The nomogram incorporating angiogenin and C-type lectin domain family 10 member A provides an accurate tool for SIC diagnosis.

With the optimization of surgical technologies and postoperative management regimens, the number of lung transplantation has been significantly increased, which has become an important treatment for patients with end-stage lung disease. However, due to the impact of comprehensive factors, such as bronchial ischemia and immunosuppression, the incidence of airway stenosis after lung transplantation is relatively high, which severely affects postoperative survival and quality of life of lung transplant recipients. In recent years, with the improvement of perioperative management, organ preservation and surgical technologies, the incidence of airway stenosis after lung transplantation has been declined, but it remains at a high level. Early diagnosis and timely intervention play a significant role in enhancing clinical prognosis of patients with airway stenosis. In this article, the general conditions, diagnosis, treatment and prevention of airway stenosis after lung transplantation were reviewed, aiming to provide reference for comprehensive management of airway stenosis after lung transplantation and improving clinical prognosis of lung transplant recipients.

Infant, Newborn ; Humans ; Infant, Premature ; Infant, Low Birth Weight ; Blood Transfusion ; Infant, Premature, Diseases

Rice stripe virus (RSV) transmitted by the small brown planthopper causes severe rice yield losses in Asian countries. Although viral nuclear entry promotes viral replication in host cells, whether this phenomenon occurs in vector cells remains unknown. Therefore, in this study, we systematically evaluated the presence and roles of RSV in the nuclei of vector insect cells. We observed that the nucleocapsid protein (NP) and viral genomic RNAs were partially transported into vector cell nuclei by utilizing the importin α nuclear transport system. When blocking NP nuclear localization, cytoplasmic RSV accumulation significantly increased. In the vector cell nuclei, NP bound the transcription factor YY1 and affected its positive regulation to FAIM. Subsequently, decreased FAIM expression triggered an antiviral caspase-dependent apoptotic reaction. Our results reveal that viral nuclear entry induces completely different immune effects in vector and host cells, providing new insights into the balance between viral load and the immunity pressure in vector insects.
Animals ; Cell Nucleus ; Hemiptera/metabolism* ; Insect Vectors/genetics* ; Insecta ; Nucleocapsid Proteins/metabolism* ; Oryza ; Plant Diseases ; Tenuivirus/metabolism* ; Virus Replication

Objective To modify the mouse model of orthotopic left lung transplantation from different perspectives, aiming to establish a simpler, faster and stabler mouse model of lung transplantation. Methods Based on preliminary modified rat model of orthotopic left lung transplantation established by our team, varying extent of modifications were made regarding the tracheal intubation, cannula preparation and anastomosis procedures of orthotopic left lung transplantation in the recipient mice. Orthotopic left lung transplantation in 40 mice were performed by an operator with microsurgical experience. The dissection of the recipient's hilar structure was carried out at the plane of the hilar clamp model within the reverse-view, and the three branches (left main bronchus, pulmonary artery and pulmonary vein) of the pulmonary hilum were anastomosed in turn by the "pendulum" anastomosis method. The operation time of each procedure was recorded. The recipient mice were sacrificed at postoperative 2 weeks, and the incidence of postoperative complications was recorded. Results Lung transplantation was successfully completed in 40 mice, with no bronchial and vascular tearing or twisting, and no bleeding at the anastomosis site. The overall cardiopulmonary procurement time was (10.7±1.5) min, cannula preparation time was (16.2±1.5) min, cold ischemia time was (25.1±2.4) min, warm ischemia time was (19.4±1.6) min, and the total operation time was (57.2±2.9) min, respectively. During the follow-up from 6 to 14 days after surgery, one recipient mouse died of pleural effusion, probably caused by infection. No pneumothorax, thrombosis or atelectasis was found in the remaining recipient mice during postoperative follow-up. Conclusions The modified mouse model of orthotopic left lung transplantation based on "pendulum" anastomosis of the reverse-view plane possesses multiple advantages of short operation time, high success rate and few complications, which is expected to become an alternative model of studying pathological changes after lung transplantation and worthy of further application.

Objective:To investigate the role and significance of heme oxygenase-1 (HO-1) in regulating macrophage polarization on seawater-drowning-induced acute lung injury (ALI) in mice.Methods:Raw 264.7 cells were divided into four groups. The control group was not stimulated with artificial seawater (SW), while the SW 8 h group, SW 24 h group, and SW 72 h group stimulated with artificial seawater for 8 h, 24 h, and 72 h, respectively. The morphological changes of cells were observed, the apoptosis, the contents of inducible nitric oxide synthase (iNOS), and HO-1 protein were detected. Hmox1 flox/ floxCre+ /- and Hmox1 -/- (HO-1 M-KO) mice with conditional knockout of HO-1 gene in alveolar macrophages were produced and randomly divided into HO-1 flox/flox Control group, HO-1 flox/flox SW 24 h group, HO-1 M-KO Control group, and HO-1 M-KO SW 24 h Group, with 6 mice in each group. The mouse model of seawater-drowning-induced ALI was established by placing mice in a hollow container and then immersing them in 6 cm deep and (25±2)℃ artificial seawater for 28 s. Samples were taken 24 hours after seawater drowning to carry out alveolar lavage, and then the total cell counts and protein concentrations in bronchoalveolar lavage fluid (BALF), and the pathological changes and the iNOS protein content in lung tissues were observed. Results:Abnormally shaped Raw 264.7 cells increased while the total number of Raw 264.7 cells decreased after seawater stimulation. The apoptosis rates of the control group, SW 8 h group, SW 24 h group, and SW 72 h group were increased to (5.99±0.23)%, (16.71±1.16)%, (41.80±2.50)%, and (77.84±1.59)%, respectively, with statistically significant differences ( P<0.01). The contents of HO-1 protein in the control group, SW 8 h group, SW 24 h group, and SW 72 h group were (1.07±0.06), (1.42±0.01), (2.77±0.22), and (0.99±0.10), respectively, and the contents of HO-1 protein of both SW 8 h group and SW 24 h group increased significantly ( P<0.05). The contents of iNOS protein in the cells of the control group, SW 8 h group, SW 24 h group, and SW 72 h group were (0.94±0.10), (3.44±0.32), (1.52±0.09), and (2.26±0.11), respectively, and the contents of iNOS protein of SW 8 h group, SW 24 h group, and SW 72 h group increased significantly ( P<0.05); compared with the SW 8 h group, the HO-1 protein content increased significantly, while the iNOS protein content decreased in the SW 24 h group significantly ( P<0.01). Lung tissue injury in HO-1 M-KO mice was significantly aggravated after drowning. The cavity of pulmonary alveoli collapsed and shrunk, intra-alveolar hemorrhage occurred, alveolar septum thickened, and inflammatory cell infiltration aggravated. The cell number and protein concentration in BALF significantly increased ( P<0.01), and the iNOS content in lung tissue significantly increased( P<0.01). Conclusion:HO-1 can alleviate the seawater-drowning-induced ALI in mice by inhibiting the M1 macrophage polarization.