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Aim To study the effect of menthol on hypobaric hypoxia-induced pulmonary arterial hypertension and explore the underlying mechanism in mice. Methods 10 to 12 weeks old wild type (WT) mice and TRPM8 gene knockout (TRPM8
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Pathological vascular remodeling is a hallmark of various vascular diseases. Previous research has established the significance of andrographolide in maintaining gastric vascular homeostasis and its pivotal role in modulating endothelial barrier dysfunction, which leads to pathological vascular remodeling. Potassium dehydroandrographolide succinate (PDA), a derivative of andrographolide, has been clinically utilized in the treatment of inflammatory diseases precipitated by viral infections. This study investigates the potential of PDA in regulating pathological vascular remodeling. The effect of PDA on vascular remodeling was assessed through the complete ligation of the carotid artery in C57BL/6 mice. Experimental approaches, including rat aortic primary smooth muscle cell culture, flow cytometry, bromodeoxyuridine (BrdU) incorporation assay, Boyden chamber cell migration assay, spheroid sprouting assay, and Matrigel-based tube formation assay, were employed to evaluate the influence of PDA on the proliferation and motility of smooth muscle cells (SMCs). Molecular docking simulations and co-immunoprecipitation assays were conducted to examine protein interactions. The results revealed that PDA exacerbates vascular injury-induced pathological remodeling, as evidenced by enhanced neointima formation. PDA treatment significantly increased the proliferation and migration of SMCs. Further mechanistic studies disclosed that PDA upregulated myeloid differentiation factor 88 (MyD88) expression in SMCs and interacted with T-cadherin (CDH13). This interaction augmented proliferation, migration, and extracellular matrix deposition, culminating in pathological vascular remodeling. Our findings underscore the critical role of PDA in the regulation of pathological vascular remodeling, mediated through the MyD88/CDH13 signaling pathway.
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Mice , Rats , Animals , Myeloid Differentiation Factor 88/metabolism , Vascular Remodeling , Cell Proliferation , Vascular System Injuries/pathology , Carotid Artery Injuries/pathology , Molecular Docking Simulation , Muscle, Smooth, Vascular , Cell Movement , Mice, Inbred C57BL , Signal Transduction , Succinates/pharmacology , Potassium/pharmacology , Cells, Cultured , Diterpenes , CadherinsABSTRACT
Dayuanyin (DYY) has been shown to reduce lung inflammation in both coronavirus disease 2019 (COVID-19) and lung injury. This experiment was designed to investigate the efficacy and mechanism of action of DYY against hypoxic pulmonary hypertension (HPH) and to evaluate the effect of DYY on the protection of lung function. Animal welfare and experimental procedures are approved and in accordance with the provision of the Animal Ethics Committee of the Institute of Materia Medica, Chinese Academy of Medical Science. Male C57/BL6J mice were randomly divided into 4 groups: control group, model group, DYY group (800 mg·kg-1), and positive control sildenafil group (100 mg·kg-1). The animals were given control solvents or drugs by gavage three days in advance. On day 4, the animals in the model group, DYY group and sildenafil group were kept in a hypoxic chamber containing 10% ± 0.5% oxygen, and the animals in the control group were kept in a normal environment, and the control solvent or drugs continued to be given continuously for 14 days. The right ventricular systolic pressure, right ventricular hypertrophy index, organ indices and other metrics were measured in the experimental endpoints. Meantime, the expression levels of the inflammatory factors in mice lung tissues were measured. The potential therapeutic targets of DYY on pulmonary hypertension were predicted using network pharmacology, the expression of nuclear factor kappa B (NF-κB) signaling pathway-related proteins were measured by Western blot assay. It was found that DYY significantly reduced the right ventricular systolic pressure, attenuated lung injury and decreased the expression of inflammatory factors in mice. It can also inhibit hypoxia-induced activation of NF-κB signaling pathway. DYY has a protective effect on lung function, as demonstrated by DYY has good efficacy in HPH, and preventive administration can slow down the disease progression, and its mechanism may be related to inhibit the activation of NF-κB and signal transducer and activator of transcription 3 (STAT3) by DYY.
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Objective:To detect the characteristics of vascular remodeling after carotid balloon injury model in rats using ultrasound biomicroscopy(UBM), and to discuss the application value of UBM technique by comparing ultrasonic characteristics with histopathological results.Methods:Carotid balloon injury was performed in 10-week-old SD rats(11 female and 11 male) by 2F Fogarty balloon catheter. The left common carotid artery(CCA) was injured and the right side in the same animal was used as an uninjured control. Arterial structures and hemodynamics were evaluated pre-procedure and post-procedure at 7, 14 days.The intima-media thickness(IMT) inner diameter, outer diameter, lumen area, vessel area, peak systolic velocity, end diastolic velocity of CCA were measured by UBM, and the vascular resistance index, shear stress and blood flow were calculated to evaluate the vascular hemodynamics. The histological data were obtained by H&E staining in cross-sections at 14 days after balloon injury. The characteristics of arterial structure and hemodynamic changes at various time points were compared, the structural changes of CCA between injured and control side after injury were compared. The Spearman correlation and linear regression were used to test the correlation between ultrasonic and histological measurements 14 days after balloon injury.Results:①Compared with pre-procedure, the IMT at 14 days after balloon injury was increased, the inner diameter was decreased, the shear stress in ultrasound was increased(all P<0.05). H&E staining histological test showed that IMT and neointima area in male rats were larger than those of female rats (all P<0.001). ②After carotid balloon injury, the lumen area decreased, but the CCA underwent compensatory positive remodeling and the vessel area increased. ③Significant correlations were demonstrated between UBM and histology in IMT, inner diameter, outer diameter and vessel area of CCA( rs=0.819, 0.965, 0.896, 0.955; all P<0.001). The vessel area value measured by UBM was larger than that of histology( P=0.006). Conclusions:The CCA of rats can be showed clearly by UBM in males and females. The arterial structure cab be measured by UBM accurately with good correlation with histology, as did arterial hemodynamic parameters, which may be benefit for the study in carotid balloon injury model of rats.
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Objective:To explore the mechanism of bone morphogenetic protein 2 (BMP-2) regulating pulmonary vascular remodeling in pulmonary hypertension (PH).Methods:Pulmonary artery smooth muscle cells (PASMC) groups: control group, PH group, PH+BMP-2 group, PH+BMP-2+ small interfering BMP receptor(si-BMPR)-Ⅰa group, PH+BMP-2+ si-BMPR-Ⅰb group, PH+BMP -2+si-BMPR-Ⅱ group. In vitro PH model was induced by hypoxia. The three BMP-2 receptors were silenced by the transfection of si-BMPR-Ⅰa, si-BMPR-Ⅰb and si-BMPR-Ⅱ plasmids, respectively. Cell proliferation and apoptosis in each group were detected, transient receptor potential ion channel C1/6 (TRPC1/6), p21 mRNA and protein levels, and intracellular Ca 2+ concentration were detected. Results:The intracellular Ca 2+ concentration in the PH group was higher than that in the control group: (785.15 ± 44.26) nmol/L vs. (224.15 ± 15.87) nmol/L, the and apoptosis rate was lower than that in the control group: (3.15 ± 0.22)% vs. (7.31 ± 0.45)%, there were statistical differences ( P<0.05). The intracellular Ca 2+ concentration in the PH+BMP-2 group was (297.64 ± 21.46) nmol/L, and was lower than that in the PH group, and apoptosis rate was (6.88 ± 0.75)%, and was higher than that in the PH group, there were statistical differences ( P<0.05). The intracellular Ca 2+ concentration in the PH+BMP-2+si-BMPR-Ⅰa group, PH+BMP-2+ si-BMPR-Ⅰb group, PH+BMP -2+si-BMPR-Ⅱ group was (412.31 ± 29.57), (384.34 ± 30.66), (695.23 ± 39.85) nmol/L, and was higher than that in the PH+BMP-2 group, and apoptosis rate was (4.10 ± 0.27)%, (4.26 ± 0.28)%, (3.33 ± 0.24)%, and was lower than that in the PH+BMP-2 group, there were statistical differences ( P<0.05). The intracellular Ca 2+ concentration in the PH+BMP -2+si-BMPR-Ⅱ group was higher than that in the PH+BMP-2+si-BMPR-Ⅰa group and PH+BMP-2+ si-BMPR-Ⅰb group, the apoptosis rate was lower than that in the PH+BMP-2+si-BMPR-Ⅰa group and PH+BMP-2+ si-BMPR-Ⅰb group, there were statistical differences ( P<0.05). Conclusions:BMP-2 mainly inhibits the expression of TRPC1/6 by interacting with the receptor BMPR-Ⅱ, inhibits the influx of Ca 2+ and promotes the expression of p21, thereby inhibiting the proliferation of PASMC and promoting apoptosis, participating in pulmonary vascular remodeling in PH.
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Pulmonary hypertension(PH)is a type of progressive cardiovascular disease or clinical syndrome. Its pathological mechanism is complex. The existing clinical drugs cannot well inhibit the progression of the disease. Traditional Chinese Medicine(TCM)has unique advantages in the treatment of PH due to its synergistic effect of multiple components and multiple targets. Recent studies have found that the TCM of promoting blood circulation and removing blood stasis can play a significant role in the treatment of PH, such as dilating pulmonary blood vessels, improving endothelial function, and relieving right heart failure. This article briefly summarizes and discusses the therapeutic effect and mechanism of TCM that can promote blood circulation and remove blood stasis in treatment of PH.
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Aim To investigate the mechanism of high salt-induced cerebral artery remodeling in mice by up-regulating TMEM16A. Methods Forty C57BL/6J mice were randomly divided into four groups (10 per group, 8 weeks of intervention), namely, blank control group (normal diet), low-salt group (2% high salt diet), medium-salt group (4% high salt diet) and high-salt group (8% high salt diet). HE staining was used to observe the morphological changes of cerebral arteries; blood vessel permeability test was used to compare the color and absorbance value of brain tissue. Immunofluorescence was employed to detect TMEM16A expression in cerebral arteries of mice in each group; PCR and Western blot were applied to detect the mRNA and protein expression of TMEM16A in cerebral arterial tissues; whole-cell patch clamp was use to record the calcium-activated chloride channel (CaCC) currents of mouse cerebral artery smooth muscle cells in each group. Results HE results showed that 2%, 4%, and 8% high salt diet could concentra-tion-dependently induce cerebral arterial wall thickening and lumen stenosis in C57BL/6J mice. The permeability test found that compared with the control group, the absorbance value of the brain tissue of the mice in the 2%, 4% and 8% high salt groups increased significantly. The results of isolated muscle tension showed that compared with the control group, the systolic response of isolated cerebral arteries to 60 mmol • L
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Pulmonary hypertension (PH) is an extremely malignant pulmonary vascular disease of unknown etiology. ADAR1 is an RNA editing enzyme that converts adenosine in RNA to inosine, thereby affecting RNA expression. However, the role of ADAR1 in PH development remains unclear. In the present study, we investigated the biological role and molecular mechanism of ADAR1 in PH pulmonary vascular remodeling. Overexpression of ADAR1 aggravated PH progression and promoted the proliferation of pulmonary artery smooth muscle cells (PASMCs). Conversely, inhibition of ADAR1 produced opposite effects. High-throughput whole transcriptome sequencing showed that ADAR1 was an important regulator of circRNAs in PH. CircCDK17 level was significantly lowered in the serum of PH patients. The effects of ADAR1 on cell cycle progression and proliferation were mediated by circCDK17. ADAR1 affects the stability of circCDK17 by mediating A-to-I modification at the A5 and A293 sites of circCDK17 to prevent it from m1A modification. We demonstrate for the first time that ADAR1 contributes to the PH development, at least partially, through m1A modification of circCDK17 and the subsequent PASMCs proliferation. Our study provides a novel therapeutic strategy for treatment of PH and the evidence for circCDK17 as a potential novel marker for the diagnosis of this disease.
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OBJECTIVES@#To study the effect of platelet-derived growth factor-BB (PDGF-BB) on pulmonary vascular remodeling in neonatal rats with hypoxic pulmonary hypertension (HPH).@*METHODS@#A total of 128 neonatal rats were randomly divided into four groups: PDGF-BB+HPH, HPH, PDGF-BB+normal oxygen, and normal oxygen (n=32 each). The rats in the PDGF-BB+HPH and PDGF-BB+normal oxygen groups were given an injection of 13 μL 6×1010 PFU/mL adenovirus with PDGF-BB genevia the caudal vein. After 24 hours of adenovirus transfection, the rats in the HPH and PDGF-BB+HPH groups were used to establish a neonatal rat model of HPH. Right ventricular systolic pressure (RVSP) was measured on days 3, 7, 14, and 21 of hypoxia. Hematoxylin-eosin staining was used to observe pulmonary vascular morphological changes under an optical microscope, and vascular remodeling parameters (MA% and MT%) were also measured. Immunohistochemistry was used to measure the expression levels of PDGF-BB and proliferating cell nuclear antigen (PCNA) in lung tissue.@*RESULTS@#The rats in the PDGF-BB+HPH and HPH groups had a significantly higher RVSP than those of the same age in the normal oxygen group at each time point (P<0.05). The rats in the PDGF-BB+HPH group showed vascular remodeling on day 3 of hypoxia, while those in the HPH showed vascular remodeling on day 7 of hypoxia. On day 3 of hypoxia, the PDGF-BB+HPH group had significantly higher MA% and MT% than the HPH, PDGF-BB+normal oxygen, and normal oxygen groups (P<0.05). On days 7, 14, and 21 of hypoxia, the PDGF-BB+HPH and HPH groups had significantly higher MA% and MT% than the PDGF-BB+normal oxygen and normal oxygen groups (P<0.05). The PDGF-BB+HPH and HPH groups had significantly higher expression levels of PDGF-BB and PCNA than the normal oxygen group at all time points (P<0.05). On days 3, 7, and 14 of hypoxia, the PDGF-BB+HPH group had significantly higher expression levels of PDGF-BB and PCNA than the HPH group (P<0.05), while the PDGF-BB+normal oxygen group had significantly higher expression levels of PDGF-BB and PCNA than the normal oxygen group (P<0.05).@*CONCLUSIONS@#Exogenous administration of PDGF-BB in neonatal rats with HPH may upregulate the expression of PCNA, promote pulmonary vascular remodeling, and increase pulmonary artery pressure.
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Rats , Animals , Hypertension, Pulmonary , Becaplermin , Animals, Newborn , Proliferating Cell Nuclear Antigen , Vascular Remodeling , Pulmonary Artery/metabolism , Hypoxia , Oxygen , Cell Proliferation , Myocytes, Smooth Muscle/metabolismABSTRACT
Abstract Objective To investigate the effects of atorvastatin calcium on pulmonary vascular remodeling, the authors explored the regulatory mechanism of Histone Deacetylation Enzyme-2 (HDAC2) in rats with Chronic Obstructive Pulmonary Disease (COPD), and provided a new direction for drug treatment in the progression of vascular remodeling. Methods Eighteen female SD rats were randomly divided into control (Group S1), COPD (Group S2), and atorvastatin calcium + COPD (Group S3) groups. A COPD rat model was established by passive smoking and intratracheal injection of Lipopolysaccharide (LPS). Haematoxylin and eosin staining and Victoria Blue + Van Gibson staining were used to observe pathological changes in the lung tissue. The pulmonary vascular inflammation score was calculated, and the degree of pulmonary vascular remodeling was evaluated. The ratio of Muscular Arteries in lung tissue (MA%), the ratio of the vessel Wall Area to the vessel total area (WA%), and the ratio of the vessel Wall Thickness to the vascular outer diameter (WT%) were measured using imaging software. The expression of HDAC2 was measured using western blotting, ELISA (Enzyme-Linked Immunosorbent Assay), and qPCR (Real-time PCR). Results Compared with the control group, the degree of pulmonary vascular inflammation and pulmonary vascular remodeling increased in rats with COPD. The WT%, WA%, and lung inflammation scores increased significantly; the expression of HDAC2 and HDAC2mRNA in the serum and lung tissue decreased, and the level of Vascular Endothelial Growth Factor (VEGF) in the lung tissues increased (p< 0.05). Compared with the COPD group, the lung tissues from rats in the atorvastatin group had fewer inflammatory cells, and the vascular pathological changes were significantly relieved. The WT%, WA%, and lung inflammation scores decreased significantly; the expression of HDAC2 and HDAC2mRNA in the serum and lung tissues increased, and the level of VEGF in the lung tissues decreased (p< 0.05). Conclusion The present study revealed that atorvastatin calcium could regulate the contents and expression of HDAC2 in serum and lung tissues and inhibit the production of VEGF, thereby regulating pulmonary vascular remodeling in a rat model with COPD.
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Resumo O envelhecimento biológico é reflexo da interação entre genética, idade cronológica e fatores externos; é a base para novos conceitos em envelhecimento vascular, cuja progressão é determinada pela diferença entre idade biológica e cronológica. Do ponto de vista estrutural, os efeitos do envelhecimento vascular são mais evidentes na camada média das grandes artérias elásticas e resultam em aumento da rigidez arterial, da dilatação do lúmen e da espessura da parede. Esses efeitos são descritos no continuum de envelhecimento cardiovascular (proposto por Dzau em 2010) em que as etapas progressivas de lesões da microvasculatura de coração, rins e cérebro, têm início a partir do processo de envelhecimento. O aumento da rigidez arterial pode ser verificado de forma não invasiva por vários métodos. Os eventos cardiovasculares têm sido tradicionalmente previstos utilizando escores que combinam fatores de risco convencionais para aterosclerose. No continuum cardiovascular clássico (Dzau, 2006), é desafiador avaliar o peso exato da contribuição de cada fator de risco; entretanto, por refletir o dano precoce e cumulativo desses fatores de riscos cardiovascular, a rigidez arterial reflete o verdadeiro dano à parede arterial. Este artigo fornece uma visão geral dos mecanismos da fisiopatogenia, alterações estruturais das artérias e consequências hemodinâmicas do envelhecimento arterial; métodos não invasivos para a avaliação da rigidez arterial e da medida central da pressão arterial; o continuum de envelhecimento cardiovascular, e aplicação do conceito de rigidez arterial na estratificação de risco cardiovascular.
Abstract Biological aging occurs as a result of the interaction between genetics, chronological age and external factors. It is the basis for new concepts of vascular aging, whose progression is determined by the difference between biological and chronological age. From the structural point of view, the effects of vascular aging are more evident in the tunica media of large elastic arteries, marked by increased arterial stiffness, lumen dilation and wall thickness. These effects are described in the continuum of cardiovascular aging (proposed by Dzau in 2010), in which the progressive steps of microvasculature lesions of the heart, kidney and brain are initiated from the aging process. The increase of arterial stiffness can be detected by several non-invasive methods. Cardiovascular events have been traditionally described using scores that combine conventional risk factors for atherosclerosis. In the classic cardiovascular continuum (Dzau, 2006), to determine the exact contribution of each risk factor is challenging; however, since arterial stiffness reflects both early and cumulative damage of these cardiovascular risk factors, it is an indicator of the actual damage to the arterial wall. This article provides a general overview of pathophysiological mechanisms, arterial structural changes, and hemodynamic consequences of arterial stiffness; non-invasive methods for the assessment of arterial stiffness and of central blood pressure; the cardiovascular aging continuum, and the application of arterial stiffness in cardiovascular risk stratification.
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Introdução: estudos sugerem forte associação da exposição perinatal e pós-natal a dietas ricas em gordura e complicações cardiovasculares. Objetivo: avaliar os efeitos da exposição a dieta hiperlipídica no período perinatal e pós desmame sobre indicadores de risco cardiometabólico e alterações histomorfometrica na aorta em ratos. Metodologia: Ratas Wistar foram separadas em grupos de acordo com a dieta durante a gestação e lactação: dieta controle (n=3) e dieta hiperlipídica (n=3). No 21º dia de vida filhotes machos foram divididos em subgrupos (n=6): CC: formado por ratos expostos a dieta controle durante toda a vida; CH: formado por ratos cuja a mãe consumiu dieta controle e após o desmame os filhotes consumiram dieta hiperlipídica; HH: formado por filhotes expostos a dieta hiperlipídica durante toda a vida e HC: formado por ratos cuja a mãe consumiu dieta hiperlipídica e após o desmame os filhotes consumiram dieta controle. No 60º dia de vida, IMC, índices aterogênicos, proteína C reativa e histomorfometria da aorta dos descendentes foram avaliados. Resultados: o grupo HC apresentou maior IMC em comparação aos grupos HH e CH (p= 0,0004). A razão colesterol total / HDL-colesterol foi maior para o grupo CH comparado ao CC e HC (p = 0,016). Coeficiente aterogênico (p = 0,003), espessura da aorta (p = 0,003) e quantidade de lamelas elásticas (p = 0,0002) foram maiores nos grupos CH e HH em comparação a CC e HC. Conclusão: exposição a dieta hiperlipídica nos períodos perinatal e pós desmame aumentou o risco cardiometabólico e alterou a histomorfometria aórtica de ratos.
Background: studies suggest a strong association of perinatal and postnatal exposure to high-fat diets and cardiovascular complications. Objective: to evaluate the effects of exposure to a high-fat diet in the perinatal and post-weaning period on indicators of cardiometabolic risk and aorta histomorphometric changes in the rats. Methodology: Wistar rats were separated into groups according to the diet during pregnancy and lactation: control diet (n=3) and high fat diet (n=3). On the 21st day of life, male pups were divided into subgroups (n=6): CC: formed by rats exposed to a control diet for all life; CH: formed by rats whose mother consumed a control diet and after weaning the pups consumed a high-fat diet; HH: formed by pups exposed to a high-fat diet for all life and HC: formed by rats whose mother consumed a high-fat diet and after weaning the pups consumed a control diet. On the 60th day of life, BMI, atherogenic indices, C-reactive protein and histomorphometry of the aorta of the offspring were evaluated. Results: the HC group showed higher BMI compared to the HH and CH groups (p=0.0004). The total cholesterol / HDL-cholesterol ratio was higher for the CH group compared to CC and HC (p = 0.016). Atherogenic coefficient (p= 0,003), aortic thickness (p = 0.003) and amount of elastic lamellae (p = 0.0002) were higher in CH and HH groups compared to CC and HC. Conclusion: exposure to a high-fat diet in the perinatal and post-weaning periods increased cardiometabolic risk and altered aortic histomorphometry in rats.
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Animals , Male , Female , Rats , Aorta , Rats , Rats, Wistar , Diet, High-Fat , LipidsABSTRACT
Objective To investigate the effect of cyclic stretch on Src and Runt-related transcription factor 2 (RUNX2), and their pivotal roles in migration of vascular smooth muscle cells (VSMCs). Methods The 5% cyclic stretch (to simulate normotensive physiological condition) or 15% cyclic stretch (to simulate hypertensive pathological condition) was applied to VSMCs by FX-5000T system. Western blotting was used to detect the expression of RUNX2 and phosphorylation of Src in VSMCs. The Ingenuity Pathway Analysis (IPA) bioinformatic software was used to analyze the potential regulatory effect of Src on RUNX2. Small interfering RNA (siRNA) was transfected to decrease the expression of RUNX2. Src inhibitor-1 was used to repress Src kinase activity; Wound-healing assay was applied to detect VSMC migration. Results Compared with 5% cyclic stretch, 15% cyclic stretch significantly increased RUNX2 expression in VSMCs. Under both static and 15% cyclic stretch conditions, VSMC migration was significantly inhibited after reducing RUNX2 expression with siRNA transfection. IPA indicated that Src kinase might be the upstream modulator of RUNX2, and Western blotting validated that RUNX2 expression was significantly decreased after inhibiting Src. Furthermore, under 15% cyclic stretch, Src inhibitor-1 markedly repressed RUNX2 expression and VSMC migration.Conclusions High cyclic stretch increased phosphorylation of Src kinase and expression of RUNX2, which subsequently induced VSMC abnormal migration. Exploring the mechanobiological mechanism of VSMC migration regulated by cyclic stretch may contribute to further revealing the mechanism of vascular physiological homeostasis and vascular pathological remodeling, as well as providing new perspective for the translational research of vascular remodeling upon hypertension.
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Objective:To investigate the influencing factors and clinical effect analysis of the choice of treatment method for spontaneous isolated superior mesenteric artery dissection (SISMAD).Methods:The clinical data of 35 patients with SISMAD admitted to Beijing Friendship Hospital, Capital Medical University from December 2015 to November 2021 were retrospectively analyzed. They were divided into conservative group ( n=24) and surgical group (endoluminal stent group + open surgery group, n=11). The conservative group was treated with conservative methods, the endoluminal stent group ( n=10) was treated with endoluminal stent placement, and the open surgery group ( n=1) was treated with superior mesenteric artery endarterectomy + angioplasty + ileal resection. The white blood cell (WBC) count on admission, the time of abdominal pain, YOO classification, aorta mesenteric angle(AMA), and the length of hospital stay between the two groups were analyzed. All patients were followed up for more than 24 months, at the end of which the vascular remodeling rate of superior mesenteric artery (SMA) between the two groups was studied. In addition, the primary patency rate and secondary patency rate of intracavitary stents were analyzed. Measurement data that conform to normal distribution were expressed as mean ± standard deviation ( ± s), and independent samples t-test was used for comparison between groups; measurement data that do not conform to normal distribution were expressed as median (interquartile range) [ M( Q1,Q3)], the nonparametric test was used for comparison between groups. Enumeration data were compared between groups using the Chi-square test. Results:Univariate analysis showed that compared with the conservative group, the IVS type in YOO classificationin of surgical group was significantly more than the conservative group. There was no significant difference in WBC, duration of abdominal pain, or AMA at admission ( P>0.05). In addition, the length of hospital stay in the conservative group was significantly shorter than that in the surgical group. No intestinal necrosis occurred in endoluminal stent group. After 24 months of follow-up, the remodeling rate of SMA in the surgical group was higher than that in the conservative group; the primary patency rate of the endoluminal stent group was 87.5%, and the secondary patency rate was 100%. One patient in the conservative group developed SMA dissection aneurysm during 12 months of follow-up and received endovascular treatment. Conclusions:For the treatment of SISMAD, most patients can be cured by conservative treatment. However, for patients with consistent abdominal pain and IVS type in YOO classification, if there is no severe manifestation of peritonitis, it is recommended to perform endovascular stent placement as soon as possible to open the blood supply. Meanwhile, the SMA stenting has an ideal long-term patency rate and vascular remodeling rate.
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Neonatal hypoxic pulmonary hypertension(HPH)is a common acute critical disease in NICU, and is one of the diseases leading to neonatal death.At present, the specific pathogenesis is still unclear.Current studies have shown that pulmonary vascular remodeling is an important pathological feature of pulmonary hypertension, and the excessive proliferation and migration of pulmonary artery smooth muscle cell is the main cause of pulmonary vascular remodeling.Platelet-derived growth factor(PDGF-BB)is a powerful mitogenic factor which involved in cell proliferation and migration.Currently, plenty of studies have found that PDGF-BB plays an important role in multiple diseases, including tumor, atherosclerosis, pulmonary hypertension and pulmonary fibrosis.In view of the mechanism of PDGF-BB, this article reviews the possible mechanism of PDGF-BB in pulmonary vascular remodeling with neonatal HPH, aiming to provide a new direction for the therapies of reversing pulmonary vascular remodeling with neonatal HPH.
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Objective:To investigate the relationship between tumor necrosis factor α (TNF-α) and pulmonary vascular remodeling in rats with chronic thromboembolic pulmonary hypertension (CTEPH).Methods:A total of 104 Wister rats were provided by Laboratory Animal Center, Harbin Medical University between January 2020 and June 2020 and included in this study. They were randomly divided into CTEPH group ( n = 52) and sham-operation group ( n = 52). Rats in the CTEPH group were injected with an embolus via the left external jugular vein to establish rat models of CTEPH. Rats in the sham-operation group were injected with the same amount of 0.9% sodium chloride injection. Relevant indicators were measured after 7 days and 1 month of embolization. Results:After embolization for 7 days and 1 month, plasma TNF-α level in the sham-operation group was (45.62 ± 1.65) ng/L and (46.24 ± 2.82) ng/L, respectively, which were significantly lower than those in the CTEPH group [(47.15 ± 1.58) ng/L, (48.85 ± 2.96) ng/L, t = 3.48, 3.31, both P < 0.05). Mean pulmonary artery pressure in the sham-operation group was significantly lower than that in the CTEPH group ( t = 1.89, 3.11, both P < 0.05). TNF-α mRNA expression in the sham-operation group was significantly lower than that in the CTEPH group ( t = 3.06, 3.36, both P < 0.05). The area/total area of pulmonary artery wall in the sham-operation group was significantly lower than that in the CTEPH group ( t = 1.73, 4.17, both P < 0.05). Plasma TNF-α level was positively correlated with pulmonary artery TNF-α mRNA expression ( r = 0.82, P < 0.05). Plasma TNF-α level and pulmonary artery TNF-α mRNA expression were positively correlated with mean pulmonary artery pressure ( r = 0.62, 0.73, both P < 0.05) and area/total area of pulmonary artery wall ( r = 0.61, 0.63, both P < 0.05). Conclusion:TNF-α may be involved in the pathogenesis of CTEPH by increasing pulmonary artery pressure and vascular remodeling.
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Pulmonary hypertension (PH) is a life-threatening disease characterized by pulmonary vascular remodeling, in which hyperproliferation of pulmonary artery smooth muscle cells (PASMCs) plays an important role. The cysteine 674 (C674) in the sarcoplasmic/endoplasmic reticulum Ca2+ ATPase 2 (SERCA2) is the critical redox regulatory cysteine to regulate SERCA2 activity. Heterozygous SERCA2 C674S knock-in mice (SKI), where one copy of C674 was substituted by serine to represent partial C674 oxidative inactivation, developed significant pulmonary vascular remodeling resembling human PH, and their right ventricular systolic pressure modestly increased with age. In PASMCs, substitution of C674 activated inositol requiring enzyme 1 alpha (IRE1α) and spliced X-box binding protein 1 (XBP1s) pathway, accelerated cell cycle and cell proliferation, which reversed by IRE1α/XBP1s pathway inhibitor 4μ8C. In addition, suppressing the IRE1α/XBP1s pathway prevented pulmonary vascular remodeling caused by substitution of C674. Similar to SERCA2a, SERCA2b is also important to restrict the proliferation of PASMCs. Our study articulates the causal effect of C674 oxidative inactivation on the development of pulmonary vascular remodeling and PH, emphasizing the importance of C674 in restricting PASMC proliferation to maintain pulmonary vascular homeostasis. Moreover, the IRE1α/XBP1s pathway and SERCA2 might be potential targets for PH therapy.
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Objective To explore the effect of overwork (OW) on extracellular matrix of arterial vessel wall in rats. Methods Random number grouping method was employed to assign 18 Sprague-Dawley rats into three groups(n=6):the control group(no special treatment),group OW(forced swimming twice a day for 15 days),and sleep deficiency(SD)+OW group(in addition to forced swimming twice a day,the rats were put on the platforms in water to limit sleep for 15 days).On the 16th day,the abdominal aorta and common carotid artery were collected after blood sampling from heart under deep anesthesia.A part of the abdominal aorta sample was taken for Masson staining of collagen fiber,and Verhoeff-Van Gieson staining was carried out for the elastic fiber of common carotid artery.Image J was employed for the quantitative analysis of collagen fiber and elastic fiber content.The expression of collagen 1(Col-1) protein was quantified by immunohistochemistry and the ultrastructure of vascular matrix was examined by transmission electron microscopy.The other part of the abdominal aorta sample was used to determine the mRNA levels of matrix metalloproteinase(MMP)-1,MMP-2,MMP-9,tissue inhibitor of metalloproteinases-1(TIMP-1),and Col-1 by quantitative real-time polymerase chain reaction. Results Compared with that in control group,the content of collagen fiber in groups OW and SD+OW had no significant change(all P>0.05);the content of elastic fiber in groups OW and SD+OW decreased(all P<0.001) and had no significant difference between each other(P>0.05).The vascular vessel wall of group OW showed slight fiber breakage,while that of group SD+OW presented wormhole-like or spongy fiber fragmentation.The mRNA levels of MMP-1 and MMP-2 in groups OW and SD+OW had no significant difference between each other(P>0.05) but were higher than that in control group(all P<0.001).The mRNA levels of MMP-9 and TIMP-1 had no significant difference among the three groups(all P>0.05).Groups OW and SD+OW had lower mRNA level(all P<0.001) and protein level(all P<0.001) of Col-1 than control group,while the mRNA and protein levels of Col-1 had no significant difference between groups OW and SD+OW(P>0.05). Conclusion OW can reduce the content of Col-1 and elastic fibers in the extracellular matrix of arterial vessels,destroy the elastic lamina of vascular wall,up-regulate the expression of MMP-1 and MMP-2,thereby injuring arterial vessels.
Subject(s)
Animals , Rats , Collagen Type I , Extracellular Matrix/metabolism , Matrix Metalloproteinase 1/metabolism , Matrix Metalloproteinase 2/metabolism , Matrix Metalloproteinase 9/metabolism , RNA, Messenger/genetics , Rats, Sprague-Dawley , Tissue Inhibitor of Metalloproteinase-1/metabolismABSTRACT
@#BACKGROUND: Acute pulmonary embolism (APE) with cardiac arrest (CA) is characterized by high mortality in emergency due to pulmonary arterial hypertension (PAH). This study aims to determine whether early pulmonary artery remodeling occurs in PAH caused by massive APE with CA and the protective effects of increasing angiotensin-converting enzyme (ACE) 2-angiotensin (Ang) (1-7)-Mas receptor axis and ACE-Ang II-Ang II type 1 receptor (AT1) axis (ACE2/ACE axes) ratio on pulmonary artery lesion after return of spontaneous circulation (ROSC). METHODS: To establish a porcine massive APE with CA model, autologous thrombus was injected into the external jugular vein until mean arterial pressure dropped below 30 mmHg (1 mmHg=0.133 kPa). Cardiopulmonary resuscitation and thrombolysis were delivered to regain spontaneous circulation. Pigs were divided into four groups of five pigs each: control group, APE-CA group, ROSC-saline group, and ROSC-captopril group, to examine the endothelial pathological changes and expression of ACE2/ACE axes in pulmonary artery with or without captopril. RESULTS: Histological analysis of samples from the APE-CA and ROSC-saline groups showed that pulmonary arterioles were almost completely occluded by accumulated endothelial cells. Western blotting analysis revealed a decrease in the pulmonary arterial ACE2/ACE axes ratio and increases in angiopoietin-2/angiopoietin-1 ratio and expression of vascular endothelial growth factor (VEGF) in the APE-CA group compared with the control group. Captopril significantly suppressed the activation of angiopoietin-2/angiopoietin-1 and VEGF in plexiform lesions formed by proliferative endothelial cells after ROSC. Captopril also alleviated endothelial cell apoptosis by increasing the B-cell lymphoma-2 (Bcl-2)/Bcl-2-associated X (Bax) ratio and decreasing cleaved caspase-3 expression. CONCLUSION: Increasing the ACE2/ACE axes ratio may ameliorate pulmonary arterial remodeling by inhibiting the apoptosis and proliferation of endothelial cells after ROSC induced by APE.
ABSTRACT
Pulmonary hypertension is a rapidly progressing disease of the lung vasculature with poor prognosis, ultimately leading to right heart failure and death. The remodeling of small pulmonary arteries represents an important pathological characteristic of pulmonary hypertension. Pulmonary arterial smooth muscle cells (PASMCs) located in the middle layer of pulmonary artery exhibit hyperproliferation and resistance to apoptosis, which is the main initiator of pulmonary vascular remodeling and similar to that seen in tumor cells. In this review we focus on the signaling pathways that play a key role in PASMCs proliferation and the latest research progress on inhibitors targeting cell proliferation pathways to provide a new perspective for the treatment of PH.