Objective:To investigate whether paclitaxel (PTX) can induce immunogenic cell death (ICD) in vascular smooth muscle cells (VSMCs), and explore the new molecular mechanism of PTX-coated balloon angioplasty in intracranial atherosclerotic stenosis.Methods:(1) Cell culture and identification: VSMCs were induced into synthetic vascular smooth muscle cells (sVSMCs); the mRNA and protein expressions of smooth muscle protein 22-α (SM22-α) and α-smooth muscle actin (α-SMA) in VSMCsS and sVSMCs were detected by real-time fluorescent quantitative reverse transcriptase-polymerase chain reaction (qRT-PCR) and Western blotting, respectively. Human acute monocytic leukemia cell line THP-1 was induced into dendritic cells (DCs); the CD86 and CD83 expressions in THP-1 and DCs were detected by flow cytometry. (2) Cell viability detection: cell counting kit-8 (CCK-8) assay was used to detect the cell viability of sVSMCs after 0, 0.01, 0.05, 0.5, 5, 10, 50, and 100 μmol/L PTX or under 0, 50, 100, 200, 400, and 600 mmHg (1 mmHg=0.133 kPa) pressures. (3) ICD marker detection: sVSMCs were collected and divided into blank-control group, dimethyl sulfoxide (DMSO) group and PTX group (cultured with 3.2 μmol/L PTX) at normal state and pressure procedure (188 mmHg), respectively; calreticulin (CRT) expression was detected by immunofluorescent staining; adenosine triphosphate (ATP) expression was detected by luciferase assay, and high mobility group protein B1 (HMGB1) expression was detected by enzyme-linked immunosorbent assay (ELISA). (4) ICD-related immune activation assay detection: sVSMCs and DCs were collected and divided into DCs group, PTX+DCs group (cultured with 3.2 μmol/L PTX), DCs+sVSMCs group, and PTX+DCs+sVSMCs group (cultured with 3.2 μmol/L PTX); CD86 and CD83 expressions were detected by flow cytometry; interleukin (IL)-2, IL-10 and interferon-γ (IFN-γ) levels were detected by ELISA. The sVSMCs, DCs and CD8 +T cells were collected and divided into sVSMCs group, sVSMCs+DCs group, sVSMCs+CD8 +T cell group, sVSMCs+DCs+CD8 +T cell group, PTX+sVSMCs group (cultured with 3.2 μmol/L PTX), and PTX+sVSMCs+DCs+CD8 +T cell group (cultured with 3.2 μmol/L PTX); proliferation of these cells was detected by cell clone formation assay. Results:(1) The SM22-α and α-SMA mRNA and protein expressions in the sVSMCs group were significantly lower than those in the VSMCs group ( P<0.05); rate of double-positive CD83 and CD86 in the DCs group was significantly higher than that in the THP-1 group ( P<0.05). (2) The sVSMCs viability decreased in a concentration-dependent manner after PTX treatment at concentrations of 0, 0.01, 0.05, 0.5, 5, 10, 50, and 100 μmol/L, respectively, with significant differences ( P<0.05); half maximal inhibitory concentration (IC 50) of PTX on sVSMCs was 3.2 μmol/L; no significant difference in sVSMCs viability after 3.2 μmol/L PTX treatment was noted under 0, 50, 100, 200, 400, and 600 mmHg pressures ( P>0.05). (3) Under normal state and pressure procedure, CRT fluorescent intensity of sVSMCs in the PTX group (42.00±3.50, 24.19±2.41) was significantly higher than that in the blank-control group (8.60±1.8, 8.42±1.7) and DMSO group (10.23±1.47, 9.71±1.01), ATP luminescence intensity (17 399.33±2 035.58, 17 445.67±2 449.34) was significantly higher than that in the blank-control group (9 021.33±726.84, 10 271.33±2 194.22) and DMSO group (11 977.33±960.91, 11 683.33±419.50), and HMGB1 concentration ([3 258.31±502.08] pg/mL, [3 265.27±246.06] pg/mL) was significantly higher than that in the blank-control group ([1 156.48±184.96] pg/mL, [1 205.20±196.36] pg/mL) and DMSO group ([1 309.59±75.03] pg/mL, [1 265.51±14.52] pg/mL, P<0.05). (4) The PTX+DCs+sVSMCs group had significantly higher CD83, CD86, IFN-γ and IL-2 expressions and lower IL-10 expression than the DCs group, PTX+DCs group, and DCs+sVSMCs group ( P<0.05); the PTX+sVSMCs group and PTX+sVSMCs+DCs+CD8 +T cell group had significantly lower clone formation rate compared with the sVSMCs group, sVSMCs+DCs group, sVSMCs+CD8 +T cell group, and sVSMCs+DCs+CD8 +T cell group ( P<0.05). Conclusion:PTX can promote ICD in VSMCs by promoting DCs activation and enhancing CD8 +T cell toxicity.

Objective:To investigate the mechanism of mitochondrial DNA (mtDNA)-reactive oxygen species (ROS)-dynamin-related protein 1 (Drp1) axis in regulating phenotypic transformation of vascular smooth muscle cells (VSMCs).Methods:(1) VSMCs were divided into a control group, a synthetic VSMCs group, and a Drp1 siRNA+synthetic VSMCs group; cells in the Drp1 siRNA+synthetic VSMCs group were transfected with 50 nmol/L Drp1 siRNA for 48 h; cells in the latter two groups were treated with 20 ng/mL platelet-derived growth factor (PDGF)-BB, while cells in the control group were treated with an equal volume of solvent. After another 24 h of culture, Drp1 expression in VSMCs, and mitochondrial Drp1 and mitofusin 2 (Mfn2) expressions were detected by Western blotting, and changes in mitochondrial morphology were detected by mitochondrial fluorescent staining. (2) VSMCs were divided into a control group, a synthetic VSMCs group, and a mitochondrial fission inhibitor 1 (Mdivi-1)+synthetic VSMCs group; cells in the Mdivi-1+synthetic VSMCs group were pretreated with 50 μmol/L Mdivi-1 for 2 h; and cells in the latter two groups were treated with 20 ng/mL PDGF-BB, while cells in the control group were treated with an equal volume of solvent. After 24 hours of continued culture, expressions of α-smooth muscle actin (α-SMA), smooth muscle protein 22-α (SM22-α), proliferating cell nuclear antigen (PCNA), and Cyclin D1 were detected by Western blotting; invasion and migration abilities of VSMCs were detected by Transwell assay and scratch wound healing assay, respectively. (3) VSMCs were divided into a control group, a synthetic VSMCs group, and a N-acetylcysteine (NAC)+synthetic VSMCs group; cells in the NAC+synthetic VSMCs group were pretreated with 5 mmol/L NAC for 1 h; cells in the latter two groups were treated with 20 ng/mL PDGF-BB, while cells in the control group were treated with an equal volume of solvent. After 24 h of continued culture, expressions of Drp1, phosphorylated (p)-Drp1, α-SMA, SM22-α, PCNA, and Cyclin D1 were detected by Western blotting; changes in mitochondrial morphology were detected by mitochondrial fluorescent staining; intracellular ROS level was detected by 2', 7' -dichlorodihydrofluorescein diacetate (DCFH-DA) fluorescent probe; cell invasion and migration abilities were detected by Transwell assay and scratch wound healing assay, respectively. (4) VSMCs were divided into a control group, a synthetic VSMCs group, and a 5-Aza-2'-deoxycytidine (5-Aza-dC)+synthetic VSMCs group; cells in the 5-Aza-dC+synthetic VSMCs group were pretreated with 2 μmol/L 5-Aza-dC for 1 h; and then, cells in the latter two groups were treated with 20 ng/mL PDGF-BB, while cells in the control group were treated with an equal volume of solvent. After 24 h of continued culture, agarose gel electrophoresis was used to analyze the methylation degree in the mitochondrial D-loop region; intracellular ROS level was detected using DCFH-DA fluorescent probe; expressions of mitochondrial DNMT1, α-SMA, SM22-α, PCNA, and Cyclin D1 were detected by Western blotting; invasion and migration abilities were detected by Transwell assay and scratch wound healing assay, respectively.Results:(1) Compared with the control group and synthetic VSMCs group, the Drp1 siRNA+synthetic VSMCs group had significantly decreased Drp1 protein expression ( P<0.05). Compared with the control group, the synthetic VSMCs group had significantly increased Drp1 protein expression and decreased Mfn2 protein expression in the mitochondria ( P<0.05); compared with the synthetic VSMCs group, the Drp1 siRNA+synthetic VSMCs group had statistically decreased Drp1 protein expression and increased Mfn2 protein expression in the mitochondria ( P<0.05). Results of mitochondrial fluorescent staining showed that mitochondria in the control group were with filamentous structure, while mitochondrial fission in the synthetic VSMCs group was enhanced, and morphology of mitochondria in the Drp1 siRNA+synthetic VSMCs group tended to be continuous and complete. (2) Compared with the control group, the synthetic VSMCs group had statistically decreased α-SMA and SM22-α protein expressions and increased PCNA and Cyclin D1 protein expressions ( P<0.05). Compared with the synthetic VSMCs group, the Mdivi-1+synthetic VSMCs group had significantly increased α-SMA and SM22-α protein expressions and decreased PCNA and Cyclin D1 protein expressions ( P<0.05). Results of Transwell and scratch wound healing assays showed that compared with the control group, the synthetic VSMCs group had larger number of migrating cells and faster cell scratch healing; compared with the synthetic VSMCs group, the Mdivi-1+synthetic VSMCs group had smaller number of migrating cells and slower cell scratch healing. (3) Compared with the control group (1.10±0.02), the synthetic VSMCs group (1.53±0.02) had significantly increased p-Drp1 protein expression ( P<0.05). Compared with the synthetic VSMCs group, the NAC+synthetic VSMCs group (0.90±0.02) had statistically decreased p-Drp1 protein expression ( P<0.05). Results of mitochondrial fluorescent staining showed that mitochondria in cells of the control group were in a filamentous structure, while mitochondrial fission in cells of the synthetic VSMCs group was enhanced, and morphology of mitochondria in the NAC+synthetic VSMCs group tended to be continuous and complete. Results of DCFH-DA fluorescent probe showed that ROS level in the synthetic VSMCs group was higher than that in the control group, and ROS level in the NAC+synthetic VSMCs group was lower than that in the synthetic VSMCs group. Compared with the control group, the synthetic VSMCs group had significantly decreased α-SMA and SM22-α protein expressions and increased PCNA and Cyclin D1 protein expressions ( P<0.05). Compared with the synthetic VSMCs group, the NAC+synthetic VSMCs group had significantly increased α-SMA and SM22-α protein expressions and decreased PCNA and Cyclin D1 protein expressions ( P<0.05). Results of Transwell and scratch wound healing assays showed that compared with the control group, the synthetic VSMCs group had larger number of migrating cells and faster cell scratch healing; compared with the synthetic VSMCs group, the NAC+synthetic VSMCs group had smaller number of migrating cells and slower cell scratch healing. (4) Results of agarose gel electrophoresis showed that compared with the control group, the synthetic VSMCs group had significantly increased methylation rate in the mitochondrial D-loop region ( P<0.05); compared with the synthetic VSMCs group, the 5-Aza-dC+synthetic VSMCs group had statistically decreased methylation rate in the mitochondrial D-loop region ( P<0.05). Compared with the control group, the synthetic VSMCs group had statistically increased mitochondrial DNMT1 protein expression (1.03±0.03 vs. 0.55±0.03, P<0.05); and compared with the synthetic VSMCs group, the the 5-Aza-dC+synthetic VSMCs group (0.62±0.03) had significantly decreased mitochondrial DNMT1 protein expression ( P<0.05). Results of DCFH-DA fluorescent probe showed that ROS level in the synthetic VSMCs group was higher than that in the control group; ROS level in the 5-Aza-dC+synthetic VSMCs group was lower than that in the synthetic VSMCs group. Compared with the control group, the synthetic VSMCs group had significantly decreased α-SMA and SM22-α protein expressions and increased PCNA and Cyclin D1 protein expressions ( P<0.05). Compared with the synthetic VSMCs group, the 5-Aza-dC+synthetic VSMCs group had significantly increased α-SMA and SM22-α protein expressions and decreased PCNA and Cyclin D1 protein expressions ( P<0.05). Results of Transwell and scratch wound healing assays showed that compared with the control group, the synthetic VSMCs group had larger number of migrating cells and faster scratch healing. Compared with the synthetic VSMCs group, the 5-Aza-dC+synthetic VSMCs group had smaller number of migrating cells and slower scratch healing. Conclusion:The mtDNA-ROS-Drp1 axis may regulate the phenotypic transformation of VSMCs by modulating mitochondrial epigenetic modifications.

Objective:To investigate whether paclitaxel (PTX) can induce immunogenic cell death (ICD) in vascular smooth muscle cells (VSMCs), and explore the new molecular mechanism of PTX-coated balloon angioplasty in intracranial atherosclerotic stenosis.Methods:(1) Cell culture and identification: VSMCs were induced into synthetic vascular smooth muscle cells (sVSMCs); the mRNA and protein expressions of smooth muscle protein 22-α (SM22-α) and α-smooth muscle actin (α-SMA) in VSMCsS and sVSMCs were detected by real-time fluorescent quantitative reverse transcriptase-polymerase chain reaction (qRT-PCR) and Western blotting, respectively. Human acute monocytic leukemia cell line THP-1 was induced into dendritic cells (DCs); the CD86 and CD83 expressions in THP-1 and DCs were detected by flow cytometry. (2) Cell viability detection: cell counting kit-8 (CCK-8) assay was used to detect the cell viability of sVSMCs after 0, 0.01, 0.05, 0.5, 5, 10, 50, and 100 μmol/L PTX or under 0, 50, 100, 200, 400, and 600 mmHg (1 mmHg=0.133 kPa) pressures. (3) ICD marker detection: sVSMCs were collected and divided into blank-control group, dimethyl sulfoxide (DMSO) group and PTX group (cultured with 3.2 μmol/L PTX) at normal state and pressure procedure (188 mmHg), respectively; calreticulin (CRT) expression was detected by immunofluorescent staining; adenosine triphosphate (ATP) expression was detected by luciferase assay, and high mobility group protein B1 (HMGB1) expression was detected by enzyme-linked immunosorbent assay (ELISA). (4) ICD-related immune activation assay detection: sVSMCs and DCs were collected and divided into DCs group, PTX+DCs group (cultured with 3.2 μmol/L PTX), DCs+sVSMCs group, and PTX+DCs+sVSMCs group (cultured with 3.2 μmol/L PTX); CD86 and CD83 expressions were detected by flow cytometry; interleukin (IL)-2, IL-10 and interferon-γ (IFN-γ) levels were detected by ELISA. The sVSMCs, DCs and CD8 +T cells were collected and divided into sVSMCs group, sVSMCs+DCs group, sVSMCs+CD8 +T cell group, sVSMCs+DCs+CD8 +T cell group, PTX+sVSMCs group (cultured with 3.2 μmol/L PTX), and PTX+sVSMCs+DCs+CD8 +T cell group (cultured with 3.2 μmol/L PTX); proliferation of these cells was detected by cell clone formation assay. Results:(1) The SM22-α and α-SMA mRNA and protein expressions in the sVSMCs group were significantly lower than those in the VSMCs group ( P<0.05); rate of double-positive CD83 and CD86 in the DCs group was significantly higher than that in the THP-1 group ( P<0.05). (2) The sVSMCs viability decreased in a concentration-dependent manner after PTX treatment at concentrations of 0, 0.01, 0.05, 0.5, 5, 10, 50, and 100 μmol/L, respectively, with significant differences ( P<0.05); half maximal inhibitory concentration (IC 50) of PTX on sVSMCs was 3.2 μmol/L; no significant difference in sVSMCs viability after 3.2 μmol/L PTX treatment was noted under 0, 50, 100, 200, 400, and 600 mmHg pressures ( P>0.05). (3) Under normal state and pressure procedure, CRT fluorescent intensity of sVSMCs in the PTX group (42.00±3.50, 24.19±2.41) was significantly higher than that in the blank-control group (8.60±1.8, 8.42±1.7) and DMSO group (10.23±1.47, 9.71±1.01), ATP luminescence intensity (17 399.33±2 035.58, 17 445.67±2 449.34) was significantly higher than that in the blank-control group (9 021.33±726.84, 10 271.33±2 194.22) and DMSO group (11 977.33±960.91, 11 683.33±419.50), and HMGB1 concentration ([3 258.31±502.08] pg/mL, [3 265.27±246.06] pg/mL) was significantly higher than that in the blank-control group ([1 156.48±184.96] pg/mL, [1 205.20±196.36] pg/mL) and DMSO group ([1 309.59±75.03] pg/mL, [1 265.51±14.52] pg/mL, P<0.05). (4) The PTX+DCs+sVSMCs group had significantly higher CD83, CD86, IFN-γ and IL-2 expressions and lower IL-10 expression than the DCs group, PTX+DCs group, and DCs+sVSMCs group ( P<0.05); the PTX+sVSMCs group and PTX+sVSMCs+DCs+CD8 +T cell group had significantly lower clone formation rate compared with the sVSMCs group, sVSMCs+DCs group, sVSMCs+CD8 +T cell group, and sVSMCs+DCs+CD8 +T cell group ( P<0.05). Conclusion:PTX can promote ICD in VSMCs by promoting DCs activation and enhancing CD8 +T cell toxicity.

Objective:To investigate the mechanism of mitochondrial DNA (mtDNA)-reactive oxygen species (ROS)-dynamin-related protein 1 (Drp1) axis in regulating phenotypic transformation of vascular smooth muscle cells (VSMCs).Methods:(1) VSMCs were divided into a control group, a synthetic VSMCs group, and a Drp1 siRNA+synthetic VSMCs group; cells in the Drp1 siRNA+synthetic VSMCs group were transfected with 50 nmol/L Drp1 siRNA for 48 h; cells in the latter two groups were treated with 20 ng/mL platelet-derived growth factor (PDGF)-BB, while cells in the control group were treated with an equal volume of solvent. After another 24 h of culture, Drp1 expression in VSMCs, and mitochondrial Drp1 and mitofusin 2 (Mfn2) expressions were detected by Western blotting, and changes in mitochondrial morphology were detected by mitochondrial fluorescent staining. (2) VSMCs were divided into a control group, a synthetic VSMCs group, and a mitochondrial fission inhibitor 1 (Mdivi-1)+synthetic VSMCs group; cells in the Mdivi-1+synthetic VSMCs group were pretreated with 50 μmol/L Mdivi-1 for 2 h; and cells in the latter two groups were treated with 20 ng/mL PDGF-BB, while cells in the control group were treated with an equal volume of solvent. After 24 hours of continued culture, expressions of α-smooth muscle actin (α-SMA), smooth muscle protein 22-α (SM22-α), proliferating cell nuclear antigen (PCNA), and Cyclin D1 were detected by Western blotting; invasion and migration abilities of VSMCs were detected by Transwell assay and scratch wound healing assay, respectively. (3) VSMCs were divided into a control group, a synthetic VSMCs group, and a N-acetylcysteine (NAC)+synthetic VSMCs group; cells in the NAC+synthetic VSMCs group were pretreated with 5 mmol/L NAC for 1 h; cells in the latter two groups were treated with 20 ng/mL PDGF-BB, while cells in the control group were treated with an equal volume of solvent. After 24 h of continued culture, expressions of Drp1, phosphorylated (p)-Drp1, α-SMA, SM22-α, PCNA, and Cyclin D1 were detected by Western blotting; changes in mitochondrial morphology were detected by mitochondrial fluorescent staining; intracellular ROS level was detected by 2', 7' -dichlorodihydrofluorescein diacetate (DCFH-DA) fluorescent probe; cell invasion and migration abilities were detected by Transwell assay and scratch wound healing assay, respectively. (4) VSMCs were divided into a control group, a synthetic VSMCs group, and a 5-Aza-2'-deoxycytidine (5-Aza-dC)+synthetic VSMCs group; cells in the 5-Aza-dC+synthetic VSMCs group were pretreated with 2 μmol/L 5-Aza-dC for 1 h; and then, cells in the latter two groups were treated with 20 ng/mL PDGF-BB, while cells in the control group were treated with an equal volume of solvent. After 24 h of continued culture, agarose gel electrophoresis was used to analyze the methylation degree in the mitochondrial D-loop region; intracellular ROS level was detected using DCFH-DA fluorescent probe; expressions of mitochondrial DNMT1, α-SMA, SM22-α, PCNA, and Cyclin D1 were detected by Western blotting; invasion and migration abilities were detected by Transwell assay and scratch wound healing assay, respectively.Results:(1) Compared with the control group and synthetic VSMCs group, the Drp1 siRNA+synthetic VSMCs group had significantly decreased Drp1 protein expression ( P<0.05). Compared with the control group, the synthetic VSMCs group had significantly increased Drp1 protein expression and decreased Mfn2 protein expression in the mitochondria ( P<0.05); compared with the synthetic VSMCs group, the Drp1 siRNA+synthetic VSMCs group had statistically decreased Drp1 protein expression and increased Mfn2 protein expression in the mitochondria ( P<0.05). Results of mitochondrial fluorescent staining showed that mitochondria in the control group were with filamentous structure, while mitochondrial fission in the synthetic VSMCs group was enhanced, and morphology of mitochondria in the Drp1 siRNA+synthetic VSMCs group tended to be continuous and complete. (2) Compared with the control group, the synthetic VSMCs group had statistically decreased α-SMA and SM22-α protein expressions and increased PCNA and Cyclin D1 protein expressions ( P<0.05). Compared with the synthetic VSMCs group, the Mdivi-1+synthetic VSMCs group had significantly increased α-SMA and SM22-α protein expressions and decreased PCNA and Cyclin D1 protein expressions ( P<0.05). Results of Transwell and scratch wound healing assays showed that compared with the control group, the synthetic VSMCs group had larger number of migrating cells and faster cell scratch healing; compared with the synthetic VSMCs group, the Mdivi-1+synthetic VSMCs group had smaller number of migrating cells and slower cell scratch healing. (3) Compared with the control group (1.10±0.02), the synthetic VSMCs group (1.53±0.02) had significantly increased p-Drp1 protein expression ( P<0.05). Compared with the synthetic VSMCs group, the NAC+synthetic VSMCs group (0.90±0.02) had statistically decreased p-Drp1 protein expression ( P<0.05). Results of mitochondrial fluorescent staining showed that mitochondria in cells of the control group were in a filamentous structure, while mitochondrial fission in cells of the synthetic VSMCs group was enhanced, and morphology of mitochondria in the NAC+synthetic VSMCs group tended to be continuous and complete. Results of DCFH-DA fluorescent probe showed that ROS level in the synthetic VSMCs group was higher than that in the control group, and ROS level in the NAC+synthetic VSMCs group was lower than that in the synthetic VSMCs group. Compared with the control group, the synthetic VSMCs group had significantly decreased α-SMA and SM22-α protein expressions and increased PCNA and Cyclin D1 protein expressions ( P<0.05). Compared with the synthetic VSMCs group, the NAC+synthetic VSMCs group had significantly increased α-SMA and SM22-α protein expressions and decreased PCNA and Cyclin D1 protein expressions ( P<0.05). Results of Transwell and scratch wound healing assays showed that compared with the control group, the synthetic VSMCs group had larger number of migrating cells and faster cell scratch healing; compared with the synthetic VSMCs group, the NAC+synthetic VSMCs group had smaller number of migrating cells and slower cell scratch healing. (4) Results of agarose gel electrophoresis showed that compared with the control group, the synthetic VSMCs group had significantly increased methylation rate in the mitochondrial D-loop region ( P<0.05); compared with the synthetic VSMCs group, the 5-Aza-dC+synthetic VSMCs group had statistically decreased methylation rate in the mitochondrial D-loop region ( P<0.05). Compared with the control group, the synthetic VSMCs group had statistically increased mitochondrial DNMT1 protein expression (1.03±0.03 vs. 0.55±0.03, P<0.05); and compared with the synthetic VSMCs group, the the 5-Aza-dC+synthetic VSMCs group (0.62±0.03) had significantly decreased mitochondrial DNMT1 protein expression ( P<0.05). Results of DCFH-DA fluorescent probe showed that ROS level in the synthetic VSMCs group was higher than that in the control group; ROS level in the 5-Aza-dC+synthetic VSMCs group was lower than that in the synthetic VSMCs group. Compared with the control group, the synthetic VSMCs group had significantly decreased α-SMA and SM22-α protein expressions and increased PCNA and Cyclin D1 protein expressions ( P<0.05). Compared with the synthetic VSMCs group, the 5-Aza-dC+synthetic VSMCs group had significantly increased α-SMA and SM22-α protein expressions and decreased PCNA and Cyclin D1 protein expressions ( P<0.05). Results of Transwell and scratch wound healing assays showed that compared with the control group, the synthetic VSMCs group had larger number of migrating cells and faster scratch healing. Compared with the synthetic VSMCs group, the 5-Aza-dC+synthetic VSMCs group had smaller number of migrating cells and slower scratch healing. Conclusion:The mtDNA-ROS-Drp1 axis may regulate the phenotypic transformation of VSMCs by modulating mitochondrial epigenetic modifications.

A large number of non-specific immune cells, such as macrophages, neutrophils and natural killer cells, as well as specific immune cells, such as B cells and T cells, are presented in the atherosclerotic plaques and arterial blood. In addition, immune-related regulatory molecules such as interferon-γ, interleukin-17, and interleukin-1β highly express in atherosclerotic lesion tissues, which is similar to the tumor immune microenvironment and influence the atherosclerosis progression. In this paper, the research progress of immune cells and related factors involved in the immune microenvironment around cerebral atherosclerotic lesions is reviewed to provide idea and basis for its clinical diagnosis and treatment.

Objective To explore the changes in macrophage infiltration behavior during the dynamic evolution of thrombi following the formation of acute carotid artery thrombosis occlusion(ACTO).Methods 15 healthy male New Zealand rabbits were selected to establish an ACTO model by causing injury to the rabbit carotid artery using surgical sutures treated with ferric chloride.All rabbits were randomly divided into 5 groups according to the end-point time using the random number table method,namely 24-hour group,1 week group,4week group,8 week group,and 12week group postoperatively,with 3 rabbits in each group.At 24 hours post-operation,the ACTO model was examined by DS A.At 24 hours,1 week,4 weeks,8 weeks,and 12 weeks post-operation,samples were taken from the thrombotic arterial segment of the 3 rabbits in each group and embedded in paraffin.The thrombus samples were stained with hematoxylin-eosin(HE)and Martius scarlet blue(MSB)to analyze changes in thrombus morphology and composition(including red blood cells,fibrin and collagen fibers).Orbit Imaging Analysis software was used for semi-quantitative analysis of the thrombus composition components.Using immunohistochemistry to detect the distribution of MO and M2 macrophages in thrombi,aimed to summarize the dynamic evolution of thrombus morphology,composition,and macrophage infiltration behavior at different stages following ACTO occurrence.Results The 24-hour DSA results indicated that all experimental rabbits successfully established the ACTO model.(1)HE staining showed a continuous increase in thrombus size from 24 hours to 1 week.By 4 weeks,signs of thrombus dissolution appeared,and at 8 weeks,neovascularization was observed within the thrombus.By 12 weeks,signs of fibrosis were evident in the thrombus.(2)MSB staining revealed that during the acute phase of thrombus formation(within 24 hours after surgery),red blood cells were the predominant component initially,but after this period,fibrin and collagen fibers became the main components.(3)The detection results of MO macrophages showed that 24 hours after surgery,MO macrophages in the thrombus were not evenly distributed throughout the thrombus,but mainly gathered at the thrombus edge;at 1 week after surgery,the positive area percentage of MO macrophage in the thrombus increased compared with 24 hours after surgery(thrombus edge:[41.7±27.0]％vs.[24.6±16.7]％,thrombus core:[35.7±19.6]％vs.[11.1±10.4]％,all P＜0.001),and evenly distributed within the thrombus;at 4 weeks after surgery,MO macrophages in the thrombus decreased compared with 1 week after surgery(thrombosis edge:[10.7±6.1]％vs.[41.7±27.0]％,thrombus core:[12.1±8.5]％vs.[35.7±19.6]％,all P＜0.001),the differences were statistically significant.At 4,8,and 12 weeks after surgery,MO macrophages within the thrombus did not change significantly with time(thrombus edge:[10.7±6.1]％,[8.0±7.7]％,and[8.9±5.3]％;thrombus core:[12.1±8.5]％,[9.5±4.2]％,and[15.7±11.0]％),and the differences were not statistically significant(all P＞0.05).In addition,at 12 weeks after surgery,MO macrophages at the thrombus edge was less than the thrombus core([8.9+5.3]％vs.[15.7±11.0]％,P＜0.01).The detection results of M2 macrophages showed that 24 hours after surgery,M2 macrophages in the thrombus were widely distributed throughout the thrombus;at 1 week after surgery,the positive area percentage of M2 macrophages in the thrombus increased compared with 24 hours after surgery(thrombus edge:[22.1±11.3]％vs.[11.4±8.7]％,P＜0.001;thrombus core:[24.5±9.8]％vs.[7.6±6.0]％,P＜0.001);at 4 weeks after surgery,M2 macrophage in the thrombus decreased compared with 1 week after surgery(thrombosis edge:[10.6±3.7]％vs.[22.1±11.3]％,P＜0.001;thrombus core:[9.2±4.3]％vs.[24.5±9.8]％,P＜0.001);at 8 weeks after surgery,M2 macrophages in the thrombus increased compared with 4 weeks after surgery([17.9±8.8]％vs.[9.2±4.3]％,P＜0.001),and the differences were statistically significant.However,M2 macrophages in the thrombus did not change significantly from 8 weeks to 12 weeks after surgery(thrombus edge:[9.4±6.3]％vs.[8.5±5.3]％,P＞0.05;thrombus core:[17.9±8.8]％vs.[14.4±10.0]％,P＞0.05).In addition,at 8 and 12 weeks after surgery,M2 macrophages in the thrombus core was greater than the thrombus edge(8 weeks after surgery:[17.9±8.8]％vs.[9.4±6.3]％,P＜0.001;12weeks after surgery:[14.4±10.0]％vs.[8.5±5.3]％,P＜0.001).Conclusions This study successfully established an ACTO animal model and demonstrated for the first time the dynamic evolution of macrophages within 12 weeks post-thrombus formation.Macrophages may played a significant role in both thrombus formation and fibrinolysis,as well as in the promotion of thrombus dissolution and the formation of new blood vessels within the thrombus which may potentially promote the spontaneous reperfusion of the occluded vessels.The results of this study need further verification.

Objective To evaluate the effectiveness of the central government-funded echinococcosis control programme in Tianzhu Tibetan Autonomous County, Gansu Province from 2007 to 2022, so as to provide insights into echinococcosis control. Methods Administrative villages were sampled using a multi-stage cluster random sampling method from Tianzhu Tibetan Autonomous County, Gansu Province from 2007 to 2022, and all residents at ages of 12 years and older in the sampled villages were screened for echinococcosis, and schools were sampled using a cluster sampling method, and all children at ages of 12 years and older in the sampled schools were screened for echinococcosis. Domestic dogs were sampled using a systematic random sampling method, and one domestic dog stool sample was collected from each household. Stray dog stool samples were collected outside the villages, and Echinococcus coproantigens were detected using enzyme-linked immunosorbent assay in domestic and stray dogs. In addition, echinococcosis was screened in sheep and cattle in designated slaughterhouses in Tianzhu Tibetan Autonomous County. The trends in the prevalence of echinococcosis in humans and livestock and the positive rate of Echinococcus coproantigens in dogs were examined with the Cochran-Armitage trend test. In addition, individuals screened for echinococcosis were randomly sampled from 2007 to 2022 for survey on the awareness of echinococcosis control knowledge. Results A total of 290 356 person-times were screened for echinococcosis among residents at ages of 12 years and older in Tianzhu Tibetan Autonomous County, Gansu Province from 2007 to 2022, with 1 094 residents detected with cystic echinococcosis, and the detection of echinococcosis appeared a tendency towards a gradual decline over years (χ² = 358.602, P < 0.001). A total of 32 931 person-times were screened for echinococcosis among children at ages of 12 years and older in Tianzhu Tibetan Autonomous County, Gansu Province from 2007 to 2022, with 296 children detected with echinococcosis, and the detection of echinococcosis appeared a tendency towards a gradual decline over years (χ² = 267.673, P < 0.001). A total of 33 230 domestic dog stool samples were tested for Echinococcus coproantigens in Tianzhu Tibetan Autonomous County, Gansu Province from 2007 to 2022, with 1 777 Echinococcus coproantigens-positive samples tested, and the positive rate of Echinococcus coproantigens appeared a tendency towards a decline in domestic dogs over years (χ² = 2 210.428, P < 0.001), while the positive rate of Echinococcus coproantigens showed a tendency towards a rise in domestic animals from 2016 to 2022 (χ² = 37.745, P < 0.001). The positive rate of Echinococcus coproantigens remained relatively stable in stray dogs in Tianzhu Tibetan Autonomous County, Gansu Province from 2019 to 2022 (χ² = 0.315, P = 0.575). A total of 10 973 sheep were screened for echinococcosis in Tianzhu Tibetan Autonomous County from 2007 to 2022, with 334 sheep detected with echinococcosis, and the detection of echinococcosis appeared a tendency towards a decline in sheep over years (χ² = 53.579, P < 0.001); however, there was no significant change in the detection of echinococcosis during the period from 2015 through 2022 (χ² = 1.520, P = 0.218). A total of 2 400 cattle were screened for echinococcosis in Tianzhu Tibetan Autonomous County from 2017 to 2022, with 231 cattle detected with echinococcosis, and the detection of echinococcosis showed a tendency towards a decline over years (χ² = 5.579, P < 0.05). The awareness of echinococcosis control knowledge increased from 44.37% in 2007 to 94.00% in 2022 among residents at ages of 12 years and older and from 52.50% in 2007 to 92.50% in 2022 among children at ages of 12 years and older in Tianzhu Tibetan Autonomous County, respectively. Conclusions There has been a reduction in the detection of echinococcosis in humans and domestic animals and the positive rate of Echinococcus coproantigens in dogs and a rise in the awareness of the echinococcosis control knowledge following the implementation of the central government-funded echinococcosis control programme in Tianzhu Tibetan Autonomous County, Gansu Province; however, integrated echinococcosis control measures are still required for further control of the prevalence of echinococcosis.

OBJECTIVE To explore the difference of vestibular damage between sudden deafness and vestibular neuritis.METHODS Patients in otolaryngology head and neck surgery eenterin PLA general hospital from February 25 in 2016 to July 20 in 2016 were included in this research.Among these patients,55 cases were diagnosed as sudden deafness group,including 39 cases With vertigo.And other 46 cases were diagnosed as vestibular neuritis.Vestibular bithermal caloric test,head impulse test(head impulse test,HIT),cervical vestibular evoked myogenic potentials(cervical vestibular evoked myogenic potential,cVEMP),ocular vestibular evoked myogenic potentials(ocular vestibular evoked myogenic potential,oVEMP) were performed to evaluate their vestibular function and were compared.RESULTS The abnormal rate of vestibular bithermal caloric test in sudden deafness group 25.45％,and 97.82％ in vestibular neuritis group.There was significant difference between two groups(x2=54.01,P＜0.001).HIT:the abnormal ratein sudden deafness groupwas 9.09％ and 32.61％ in vestibular neuritis group,there was significant difference between two groups(x2=8.72,P=0.003).VEMP:the abnormal rate of cVEMP in sudden deafness group was 69.10％ and 43.47％ in vestibular neuritis group,there was significant difference between two groups(x2=6.72,P=0.010).But the abnormal rate of oVEMP in sudden deafness group was 54.55％ and 63.04％ in vestibular neuritis group,and there was not statistically significant difference between two groups(x2=0.745,P=0.388).CONCLUSION The vestibular damage of sudden deafness with vertigo was more likely involved with saccule and inferior vestibular nerve,more close to the nerve terminal,and the injury was in a low frequency range;but the vestibular damage in vestibular neuritis was wider,and the injury involved a full band,the damaged part may be higher.

Objective To investigate the effect of omeprazole combined with FOLFOX scheme as an adjuvant therapy for stage Ⅱ or Ⅲ colon cancer patients after a radical resection.Methods 98 stage Ⅱ or Ⅲ colon cancer patients in our hospital from January 2008 to December 2009 were randomly divided into study group (48 cases) receiving regimen of omeprazole combined with FOLFOX and control group (50 cases) treated with FOLFOX chemotherapy after radical colectomy.Surgical specimens were examined for expression of V-ATPase protein.Chemotherapy period was 6 months,8-12 courses.We observed results of follow-up curative effect,comparing the side effects and postoperative 2 year,3 year and 5 year disease-free survival rate (DFS) difference using statistical analysis.Results Study was completed in all 93 cases,5 cases were lost to follow-up.The baseline data distribution in the two groups were balanced basically.In study group the gastrointestinal side effects of chemotherapy was lower than the control group (x2 =4.924 6,P =0.026).In the two groups,the 2-year,3-year and 5-year DFS were 73％ vs 60％ (x2 =1.743 7,P =0.187),62％ vs50％ (x2 =1.4075,P=0.235),49％ vs40％ (x2 =0.8159,P=0.366) (P＞0.05).V-ATPase protein expression was 71％ (70/98) in all samples.The 2-year and 3-year DFS of patients for V-ATPase protein positive expression in the two groups were 75％ vs 51％ (x2 =3.970 8,P =0.046),66％ vs 40％ (x2 =4.399 5,P =0.036).Compared with the control group,the 2-year,3-year DFS increased in the study group (P ＜ 0.05).In stage Ⅲ colon cancer patients,the 2-year DFS was 73％ vs 47％ (x2 =4.504 5,P =0.034).Conclusions PPI combined with FOLFOX in V-ATPase protein positive expression or Ⅲ stage colon cancer patients after radical colectemy improves long-term survival,as well as reduces the gastrointestinal side effects of chemotherapy.

Objective To investigate the expression of Vacuolar-H +-ATPase (V-ATPase) and P-glyeoprotein (P-gp) protein in colon carcinoma tissues,the correlation between the expression of V-ATPase and P-gp and their clinicopathological significance.Methods In samples from 80 cases of colon cancer,20 cases of colon adenoma and 10 cases of normal colonic mucosa tissues,the expression of V-ATPase and P-gp protein were detected by immunohistochemical method,their relationship was analyzed,the clinicopathological features and prognosis were evaluated.Results In colon cancer,V-ATPase and P-gp protein expression was 72％ and 80％,higher than that in colon adenomas (40％,35％),and in normal colon mucosa (20％,20％),the difference was statistically significant (P ＜ 0.05).There was a positive correlation between the expression of V-ATPase and that of P-gp (r =0.567,P ＜0.01).V-ATPase and P-gp protein expression in colon cancer was associated with TNM stage,lymph node metastasis and tumor differentiation (P ＜ 0.05).Patients with high V-ATPase expression had lower 5-year survival rate than those with low V-ATPase expression (P =0.023),and 5-year recurrence rate was higher than those with low expression (P =0.024).Conclusions The expression of V-ATPase is up-regulated in colon cancer,there is a positive correlation with colon cancer progress and metastasis,and high V-ATPase protein expression predicts poor prognosis.