BACKGROUND:The pathogenesis of inflammatory bowel disease involves inflammation,immune activation,visceral hypersensitivity,and dysbiosis of the gut microbiota.Inflammation promotes the release of inflammatory mediators by immune cells,damaging the enteric nervous system.Enteric glial cells are an important component of the intestinal nervous system and are excellent cells for studying intestinal neuroinflammation.Primary enteric glial cells play a crucial role in exploring cell therapies for intestinal nervous system diseases.Currently,the methods for obtaining these cells are mostly cumbersome.Therefore,finding a convenient and fast method for extracting this cell is crucial.OBJECTIVE:To establish a method for optimizing the isolation,culture,and identification of mouse enteric glial cells.METHODS:0-7-day-old C57BL/6 neonatal mice were euthanized by excessive inhalation of isoflurane.After soaking in 75％alcohol for disinfection,the duodenum(1 cm below the pylorus to 1 cm above the Qu's ligament)was removed by laparotomy at the midline of the abdomen.A 1 mL syringe was filled with DPBS and the intestinal contents were repeatedly rinsed until the intestine became translucent,and the mesentery and blood vessels were peeled off.The duodenum was cut to a size of 1 mm and digested in 0.25％EDTA trypsin for 20 minutes.Then an equal amount of DMEM/F12 complete culture medium was added to terminate digestion.The liquid was filtered through a 100 μm cell filter,centrifuged,and the cells were resuspended in 1 mL of DMEM/F12 complete culture medium.When the cell adhesion growth density reached 80％,cells were digested for subculture.When cells were cultured to the third generation,glial fibrillary acid protein labeled with enteric glial cells was used for identification by immunofluorescence method.RESULTS AND CONCLUSION:The isolated and cultured cells were full of colloids,with protrusions extending outward and passable.Glial fibrillary acid protein staining was positive.This method can successfully isolate and culture enteric glial cells and is easy to operate,providing a stable model for the study of the pathophysiology of the enteric nervous system.

BACKGROUND:The pathogenesis of inflammatory bowel disease involves inflammation,immune activation,visceral hypersensitivity,and dysbiosis of the gut microbiota.Inflammation promotes the release of inflammatory mediators by immune cells,damaging the enteric nervous system.Enteric glial cells are an important component of the intestinal nervous system and are excellent cells for studying intestinal neuroinflammation.Primary enteric glial cells play a crucial role in exploring cell therapies for intestinal nervous system diseases.Currently,the methods for obtaining these cells are mostly cumbersome.Therefore,finding a convenient and fast method for extracting this cell is crucial.OBJECTIVE:To establish a method for optimizing the isolation,culture,and identification of mouse enteric glial cells.METHODS:0-7-day-old C57BL/6 neonatal mice were euthanized by excessive inhalation of isoflurane.After soaking in 75％alcohol for disinfection,the duodenum(1 cm below the pylorus to 1 cm above the Qu's ligament)was removed by laparotomy at the midline of the abdomen.A 1 mL syringe was filled with DPBS and the intestinal contents were repeatedly rinsed until the intestine became translucent,and the mesentery and blood vessels were peeled off.The duodenum was cut to a size of 1 mm and digested in 0.25％EDTA trypsin for 20 minutes.Then an equal amount of DMEM/F12 complete culture medium was added to terminate digestion.The liquid was filtered through a 100 μm cell filter,centrifuged,and the cells were resuspended in 1 mL of DMEM/F12 complete culture medium.When the cell adhesion growth density reached 80％,cells were digested for subculture.When cells were cultured to the third generation,glial fibrillary acid protein labeled with enteric glial cells was used for identification by immunofluorescence method.RESULTS AND CONCLUSION:The isolated and cultured cells were full of colloids,with protrusions extending outward and passable.Glial fibrillary acid protein staining was positive.This method can successfully isolate and culture enteric glial cells and is easy to operate,providing a stable model for the study of the pathophysiology of the enteric nervous system.

Objective: The effect on fat infiltration (FI) of paraspinal muscles in degenerative lumbar spinal diseases has been demonstrated except for spinopelvic parameters. The present study is to identify the effect of spinopelvic parameters on FI of paraspinal muscle (PSM) and psoas major muscle (PMM) in patients with degenerative lumbar spondylolisthesis. Methods: A single-center, retrospective cross-sectional study of 160 patients with degenerative lumbar spondylolisthesis (DLS) and lumbar stenosis (LSS) who had lateral full-spine x-ray and lumbar spine magnetic resonance imaging was conducted. PSM and PMM FIs were defined as the ratio of fat to its muscle cross-sectional area. The FIs were compared among patients with different pelvic tilt (PT) and pelvic incidence (PI), respectively. Results: The PSM FI correlated significantly with pelvic parameters in DLS patients, but not in LSS patients. The PSM FI in pelvic retroversion (PT > 25°) was 0.54 ± 0.13, which was significantly higher in DLS patients than in normal pelvis (0.41 ± 0.14) and pelvic anteversion (PT < 5°) (0.34 ± 0.12). The PSM FI of DLS patients with large PI ( > 60°) was 0.50 ± 0.13, which was higher than those with small ( < 45°) and normal PI (0.37 ± 0.11 and 0.36 ± 0.13). However, the PSM FI of LSS patients didn’t change significantly with PT or PI. Moreover, the PMM FI was about 0.10–0.15, which was significantly lower than the PSM FI, and changed with PT and PI in a similar way of PSM FI with much less in magnitude. Conclusion FI of the PSMs increased with greater pelvic retroversion or larger pelvic incidence in DLS patients, but not in LSS patients.

Objective: The effect on fat infiltration (FI) of paraspinal muscles in degenerative lumbar spinal diseases has been demonstrated except for spinopelvic parameters. The present study is to identify the effect of spinopelvic parameters on FI of paraspinal muscle (PSM) and psoas major muscle (PMM) in patients with degenerative lumbar spondylolisthesis. Methods: A single-center, retrospective cross-sectional study of 160 patients with degenerative lumbar spondylolisthesis (DLS) and lumbar stenosis (LSS) who had lateral full-spine x-ray and lumbar spine magnetic resonance imaging was conducted. PSM and PMM FIs were defined as the ratio of fat to its muscle cross-sectional area. The FIs were compared among patients with different pelvic tilt (PT) and pelvic incidence (PI), respectively. Results: The PSM FI correlated significantly with pelvic parameters in DLS patients, but not in LSS patients. The PSM FI in pelvic retroversion (PT > 25°) was 0.54 ± 0.13, which was significantly higher in DLS patients than in normal pelvis (0.41 ± 0.14) and pelvic anteversion (PT < 5°) (0.34 ± 0.12). The PSM FI of DLS patients with large PI ( > 60°) was 0.50 ± 0.13, which was higher than those with small ( < 45°) and normal PI (0.37 ± 0.11 and 0.36 ± 0.13). However, the PSM FI of LSS patients didn’t change significantly with PT or PI. Moreover, the PMM FI was about 0.10–0.15, which was significantly lower than the PSM FI, and changed with PT and PI in a similar way of PSM FI with much less in magnitude. Conclusion FI of the PSMs increased with greater pelvic retroversion or larger pelvic incidence in DLS patients, but not in LSS patients.

Objective To investigate the imaging features of intestinal schwannoma(IS)in order to improve the diagnostic ability of the disease.Methods The clinical and imaging data of 14 patients with surgically and pathologically confirmed IS were retrospectively analyzed,including the location,size,morphology,nature,growth pattern,CT density,MRI signal,PET/CT metabolism and other characteristics of the tumors.Results Of the 14 IS cases,the lesions of 3 cases were located in the duodenum,2 cases in the cecum,8 cases in the colon and 1 case in the rectum.The lesions were all round or oval,with an average maximum diameter of(2.4±1.1)cm.The lesions were solid in 13 cases,extraluminal growth in 10 cases,cystic degeneration in 1 case and myxoid degeneration in 1 case.Chronic inflammatory lymph nodes were seen around the diseased intestines in 9 cases,and the short diameter of lymph nodes was greater than 5 mm in 6 cases.All 14 cases of IS showed low attenuation on plain CT scan,and progressive enhancement after contrast injection,including 1 case of mild enhancement,2 cases of moderate enhancement,and 11 cases of obvious enhancement.Two cases of IS showed low signal intensity on T1WI,slightly high signal intensity on T2WI,significantly high signal intensity on DWI,and obvious progressive enhancement after contrast injection on MRI.Two cases of IS showed high metabolism on 18F-FDG-PET/CT,and the SUVmax was 9.4 and 8.8,respectively.Conclusion The imaging findings of IS were characteristic to a certain extent.They mainly manifested as solid nodules or masses derived from the intestinal submucosa,with uniform attenuation or signal intensity,obvious progressive enhancement after contrast injection,obvious hypermetabolism on 18F-FDG-PET/CT,and slightly larger homogeneous lymph nodes were common around the lesions.

Objective: The effect on fat infiltration (FI) of paraspinal muscles in degenerative lumbar spinal diseases has been demonstrated except for spinopelvic parameters. The present study is to identify the effect of spinopelvic parameters on FI of paraspinal muscle (PSM) and psoas major muscle (PMM) in patients with degenerative lumbar spondylolisthesis. Methods: A single-center, retrospective cross-sectional study of 160 patients with degenerative lumbar spondylolisthesis (DLS) and lumbar stenosis (LSS) who had lateral full-spine x-ray and lumbar spine magnetic resonance imaging was conducted. PSM and PMM FIs were defined as the ratio of fat to its muscle cross-sectional area. The FIs were compared among patients with different pelvic tilt (PT) and pelvic incidence (PI), respectively. Results: The PSM FI correlated significantly with pelvic parameters in DLS patients, but not in LSS patients. The PSM FI in pelvic retroversion (PT > 25°) was 0.54 ± 0.13, which was significantly higher in DLS patients than in normal pelvis (0.41 ± 0.14) and pelvic anteversion (PT < 5°) (0.34 ± 0.12). The PSM FI of DLS patients with large PI ( > 60°) was 0.50 ± 0.13, which was higher than those with small ( < 45°) and normal PI (0.37 ± 0.11 and 0.36 ± 0.13). However, the PSM FI of LSS patients didn’t change significantly with PT or PI. Moreover, the PMM FI was about 0.10–0.15, which was significantly lower than the PSM FI, and changed with PT and PI in a similar way of PSM FI with much less in magnitude. Conclusion FI of the PSMs increased with greater pelvic retroversion or larger pelvic incidence in DLS patients, but not in LSS patients.

Objective: The effect on fat infiltration (FI) of paraspinal muscles in degenerative lumbar spinal diseases has been demonstrated except for spinopelvic parameters. The present study is to identify the effect of spinopelvic parameters on FI of paraspinal muscle (PSM) and psoas major muscle (PMM) in patients with degenerative lumbar spondylolisthesis. Methods: A single-center, retrospective cross-sectional study of 160 patients with degenerative lumbar spondylolisthesis (DLS) and lumbar stenosis (LSS) who had lateral full-spine x-ray and lumbar spine magnetic resonance imaging was conducted. PSM and PMM FIs were defined as the ratio of fat to its muscle cross-sectional area. The FIs were compared among patients with different pelvic tilt (PT) and pelvic incidence (PI), respectively. Results: The PSM FI correlated significantly with pelvic parameters in DLS patients, but not in LSS patients. The PSM FI in pelvic retroversion (PT > 25°) was 0.54 ± 0.13, which was significantly higher in DLS patients than in normal pelvis (0.41 ± 0.14) and pelvic anteversion (PT < 5°) (0.34 ± 0.12). The PSM FI of DLS patients with large PI ( > 60°) was 0.50 ± 0.13, which was higher than those with small ( < 45°) and normal PI (0.37 ± 0.11 and 0.36 ± 0.13). However, the PSM FI of LSS patients didn’t change significantly with PT or PI. Moreover, the PMM FI was about 0.10–0.15, which was significantly lower than the PSM FI, and changed with PT and PI in a similar way of PSM FI with much less in magnitude. Conclusion FI of the PSMs increased with greater pelvic retroversion or larger pelvic incidence in DLS patients, but not in LSS patients.

Background/Aims: Cholestatic liver diseases including primary biliary cholangitis (PBC) are associated with active hepatic fibrogenesis, which ultimately progresses to cirrhosis. Activated hepatic stellate cells (HSCs) are the main fibrogenic effectors in response to cholangiocyte damage. JCAD regulates cell proliferation and malignant transformation in nonalcoholic steatoheaptitis-associated hepatocellular carcinoma (NASH-HCC). However, its participation in cholestatic fibrosis has not been explored yet. Methods: Serial sections of liver tissue of PBC patients were stained with immunofluorescence. Hepatic fibrosis was induced by bile duct ligation (BDL) in wild-type (WT), global JCAD knockout mice (JCAD-KO) and HSC-specific JCAD knockout mice (HSC-JCAD-KO), and evaluated by histopathology and biochemical tests. In situ-activated HSCs isolated from BDL mice were used to determine effects of JCAD on HSC activation. Results: In consistence with staining of liver sections from PBC patients, immunofluorescent staining revealed that JCAD expression was identified in smooth muscle α-actin (α-SMA)-positive fibroblast-like cells and was significantly up-regulated in WT mice with BDL. JCAD deficiency remarkably ameliorated BDL-induced hepatic injury and fibrosis, as documented by liver hydroxyproline content, when compared to WT mice with BDL. Histopathologically, collagen deposition was dramatically reduced in both JCAD-KO and HSC-JCAD-KO mice compared to WT mice, as visualized by Trichrome staining and semi-quantitative scores. Moreover, JCAD deprivation significantly attenuated in situ HSC activation and reduced expression of fibrotic genes after BDL. Conclusions JCAD deficiency effectively suppressed hepatic fibrosis induced by BDL in mice, and the underlying mechanisms are largely through suppressed Hippo-YAP signaling activity in HSCs.

Objective: The effect on fat infiltration (FI) of paraspinal muscles in degenerative lumbar spinal diseases has been demonstrated except for spinopelvic parameters. The present study is to identify the effect of spinopelvic parameters on FI of paraspinal muscle (PSM) and psoas major muscle (PMM) in patients with degenerative lumbar spondylolisthesis. Methods: A single-center, retrospective cross-sectional study of 160 patients with degenerative lumbar spondylolisthesis (DLS) and lumbar stenosis (LSS) who had lateral full-spine x-ray and lumbar spine magnetic resonance imaging was conducted. PSM and PMM FIs were defined as the ratio of fat to its muscle cross-sectional area. The FIs were compared among patients with different pelvic tilt (PT) and pelvic incidence (PI), respectively. Results: The PSM FI correlated significantly with pelvic parameters in DLS patients, but not in LSS patients. The PSM FI in pelvic retroversion (PT > 25°) was 0.54 ± 0.13, which was significantly higher in DLS patients than in normal pelvis (0.41 ± 0.14) and pelvic anteversion (PT < 5°) (0.34 ± 0.12). The PSM FI of DLS patients with large PI ( > 60°) was 0.50 ± 0.13, which was higher than those with small ( < 45°) and normal PI (0.37 ± 0.11 and 0.36 ± 0.13). However, the PSM FI of LSS patients didn’t change significantly with PT or PI. Moreover, the PMM FI was about 0.10–0.15, which was significantly lower than the PSM FI, and changed with PT and PI in a similar way of PSM FI with much less in magnitude. Conclusion FI of the PSMs increased with greater pelvic retroversion or larger pelvic incidence in DLS patients, but not in LSS patients.

ObjectiveTo explore the mechanism of Shenxiong glucose injection （SGI） in inhibiting hydrogen peroxide （H₂O₂）-induced oxidative damage in H9c2 cells by tandem mass tags （TMT）-labeled quantitative proteomics. MethodH9c2 cells cultured in vitro were exposed to H₂O₂ for inducing oxidative damage. The cell viability was measured by cell proliferation and cytotoxicity assay （MTS）， followed by peptide fractionation by high performance liquid chromatography （HPLC） and protein expression detection in H9c2 cells by ultrahigh performance liquid chromatography-mass spectrometry. MaxQuant （v1.5.2.8） was utilized for data retrieval， and the high-resolution mass spectrometry was conducted to screen out differentially expressed proteins， which were then subjected to gene ontology （GO） and Kyoto encyclopedia of genes and genomes （KEGG） enrichment analysis. The protein expression levels of perilipin 2 （Plin2） and tropomyosin 1 （Tpm1） in cells were measured by Western blot. ResultThe spectral analysis yielded 48 608 specific peptide fragments and 5 903 quantifiable proteins. Compared with the model group，the SGI group exhibited 82 differentially expressed proteins，of which 22 were up-regulated and 60 were down-regulated. GO analysis results showed that the differentially expressed proteins were mainly involved in biological processes such as programmed cell death regulation，regulation of cell proliferation，cardiovascular system development， and cell migration. As revealed by KEGG analysis， these proteins were mainly related to peroxisome proliferator-activated receptor （PPAR），focal adhesion，phosphatidylinositol 3-kinase/protein kinase B（PI3K/Akt），and Ras-related protein 1 （Rap1） pathways. Western blot results demonstrated that compared with the model group，SGI significantly increased the Plin2 protein expression and decreased the Tpm1 protein expression （P<0.01），consistent with the proteomics results. ConclusionSGI may inhibit cell apoptosis and antagonize H₂O₂-induced cell oxidative damage by regulating PPAR，focal adhesion，PI3K/Akt and Rap1 pathways，which should be further verified by subsequent experiments.