Your search keyword '"Vascular remodelling"' showing total 763 results

1. A new perspective on targeting pulmonary arterial hypertension: Programmed cell death pathways (Autophagy, Pyroptosis, Ferroptosis)

Author

Ge, Qingliang, Zhang, Tianqing, Yu, Jiangbiao, Lu, Xuelin, Xiao, Sijie, Zhang, Ting, Qing, Tao, Xiao, Zhenni, Zeng, Liuting, and Luo, Li

Published

2024

2. A Belgian consensus on sotatercept for the treatment of pulmonary arterial hypertension.

Author

Vachiéry, Jean-Luc, Belge, Catharina, Cools, Bjorn, Damen, An, Demeure, Fabian, De Pauw, Michel, Dewachter, Céline, De Wolf, Daniel, Gabriel, Laurence, Godinas, Laurent, Guiot, Julien, Haine, Steven, Leys, Mathias, Meysman, Marc, Pouleur, Anne-Catherine, Ruttens, David, Vandecasteele, Els, Vansteenkiste, Wendy, Weber, Thierry, and Wirtz, Gil

Abstract

Pulmonary arterial hypertension (PAH) is a rare disease affecting the small pulmonary vessels, ultimately leading to right ventricular failure and death. Current treatment options target three different pathways (endothelin, nitric oxide/cGMP and prostacyclin pathways). Despite their demonstrated efficacy, these therapies (commonly used in combination) do not cure the disease which is why novel pathways beyond the traditional 'big three' are being developed. Sotatercept is a ligand trap for multiple proteins within the TGF-β superfamily that was recently approved in the US for the treatment of PAH. Unlike currently available therapies, sotatercept has the potential to act as an anti-remodelling agent rather than a vasodilator. The safety and efficacy of subcutaneous (SC) sotatercept have been established in two multicentre, placebo-controlled randomised-controlled trials. The compound has been shown to consistently improve a variety of measurable endpoints, including exercise capacity, haemodynamics, quality of life and delay of clinical worsening. The drug appears to have an acceptable safety profile, although it is associated with an increased risk in developing telangiectasia and biological changes affecting platelet counts and haemoglobin. This study reviews the current evidence on SC sotatercept and provides a Belgian perspective on its place in the future treatment strategy for PAH. [ABSTRACT FROM AUTHOR]

Published

2024

3. New Insights into the Pathophysiology of Coronary Artery Aneurysms.

Author

Bararu-Bojan, Iris, Badulescu, Oana-Viola, Badescu, Minerva Codruta, Vladeanu, Maria Cristina, Plesoianu, Carmen Elena, Bojan, Andrei, Iliescu-Halitchi, Dan, Tudor, Razvan, Huzum, Bogdan, Frasinariua, Otilia Elena, and Ciocoiu, Manuela

Subjects

*VASCULAR endothelial growth factors, *ENDOTHELIAL growth factors, *TUMOR necrosis factors, *MUCOCUTANEOUS lymph node syndrome, *LITERATURE reviews, *TAKAYASU arteritis

Abstract

Coronary aneurysms are typically defined as sections of a coronary artery where the diameter is more than 1.5 times that of an adjacent normal segment. In rare circumstances, these aneurysms can become exceedingly large, leading to the classification of giant coronary artery aneurysms. Despite their occurrence, there is no clear consensus on the precise definition of giant coronary artery aneurysms, and their etiology remains somewhat ambiguous. Numerous potential causes have been suggested, with atherosclerosis being the most prevalent in adults, accounting for up to 50% of cases. In pediatric populations, Kawasaki disease and Takayasu arteritis are the primary causes. Although often discovered incidentally, coronary artery aneurysms can lead to severe complications. These complications include local thrombosis, distal embolization, rupture, and vasospasm, which can result in ischemia, heart failure, and arrhythmias. The optimal approach to medical, interventional, or surgical management of these aneurysms is still under debate and requires further clarification. This literature review aims to consolidate current knowledge regarding coronary artery aneurysms' pathophysiology, emphasizing their definition, causes, complications, and treatment strategies. Recent research has begun to explore the molecular mechanisms involved in the formation and progression of coronary artery aneurysms. Various molecules, such as matrix metalloproteinases (MMPs), inflammatory cytokines, and growth factors, play crucial roles in the degradation of the extracellular matrix and the remodeling of vascular walls. Elevated levels of MMPs, particularly MMP-9, have been associated with the weakening of the arterial wall, contributing to aneurysm development. Inflammatory cytokines such as tumor necrosis factor-alpha (TNF-α) and interleukins (IL-1β and IL-6) have been implicated in promoting inflammatory responses that further degrade vascular integrity. Additionally, growth factors such as vascular endothelial growth factor (VEGF) may influence angiogenesis and vascular remodeling processes. Understanding these molecular pathways is essential for developing targeted therapies aimed at preventing the progression of coronary artery aneurysms and improving patient outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

4. Vascular Changes in Eyes with Post-Fever Retinitis Pre and Post Treatment Demonstrated Using Optical Coherence Tomography Angiography.

Author

Mooss, Vidya S., Konana, Vinaya Kumar, and Babu Murthy, Kalpana

Subjects

*OPTICAL coherence tomography, *VASCULAR remodeling, *ANGIOGRAPHY, *DISEASE progression, *BLOOD vessels

Abstract

Purpose: To document vascular changes in eyes with post-fever retinitis (PFR) pre and post treatment demonstrated using optical coherence tomography angiography (OCTA). Methods: This is a retrospective observational case series wherein patients with PFR were retrospectively evaluated for changes in the retinal vasculature during the course of disease using OCTA. Results: At presentation, OCTA revealed flow void areas in superficial and deep capillary plexus (SCP and DCP) corresponding to the areas of retinitis. Post treatment, OCTA showed a significant decrease in the flow void areas with the appearance of new capillary network in both SCP and DCP. The optical coherence tomography also demonstrated normalization of retinal architecture over time. It is speculated that the good visual outcome in PFR could be attributed to the normalization of retinal architecture and remodelling in retinal vasculature. Conclusion: OCTA being non-invasive can be used to understand and quantify the extent of vascular remodelling in PFR. [ABSTRACT FROM AUTHOR]

Published

2024

5. Ocular and systemic associations and heritability of retinal arterial wall‐to‐lumen ratios in a twin cohort.

Author

Carstensen, Christopher Voigt, Bjerager, Jakob, Belmouhand, Mohamed, Eckmann‐Hansen, Christina, Rothenbuehler, Simon P., Dabbah, Sami, Dalgård, Christine, Laigaard, Poul, and Larsen, Michael

Subjects

*RETINAL artery, *DIZYGOTIC twins, *BLOOD pressure, *HERITABILITY, *BLOOD lipids, *CHOLESTERYL ester transfer protein, *HYPERTENSION

Abstract

Purpose: To investigate ocular and systemic factors associated with the retinal arterial wall‐to‐lumen ratio (WLR) and to determine the relative contribution of genetic and environmental variation to WLR in healthy adults. Methods: This cross‐sectional twin study included 78 monozygotic and 67 dizygotic same‐sex twin pairs aged 58.4 ± 9.8 (mean ± SD) years. Lumen diameter (LD) and outer diameter (OD) of a superotemporal retinal artery were measured using adaptive optics fundus photography, and the WLR was calculated. Linear mixed model regression analysis of associations with WLR comprised the descriptive variables ocular axial length (AL), intraocular pressure (IOP), height, weight, body mass index (BMI), smoking, blood pressure, high density (HDL), low density (LDL) and very low density (VLDL) lipoproteins, total cholesterol and triglycerides. The relative influence of genes and environment on WLR was calculated through polygenetic modelling. Results: Increasing age and arterial blood pressure were associated with a higher WLR, while increasing retinal artery OD and ocular AL were associated with a lower WLR. Sex, smoking status, BMI, IOP, cholesterol levels or triglycerides had no detectable impact on the WLR. Broad‐sense heritability of WLR was 21% (95% CI: 1–41%), while environmental factors accounted for the remaining 79% of the interindividual variance (95% CI: 59–99%). Conclusion: Retinal artery wall thickness was closely linked to increasing age and higher arterial blood pressure, the latter being mediated by the environment over genes. [ABSTRACT FROM AUTHOR]

Published

2024

6. TGF-β1, pSmad-2/3, Smad-7, and β-Catenin Are Augmented in the Pulmonary Arteries from Patients with Idiopathic Pulmonary Fibrosis (IPF): Role in Driving Endothelial-to-Mesenchymal Transition (EndMT).

Author

Gaikwad, Archana Vijay, Eapen, Mathew Suji, Dey, Surajit, Bhattarai, Prem, Shahzad, Affan Mahmood, Chia, Collin, Jaffar, Jade, Westall, Glen, Sutherland, Darren, Singhera, Gurpreet Kaur, Hackett, Tillie-Louise, Lu, Wenying, and Sohal, Sukhwinder Singh

Subjects

*IDIOPATHIC pulmonary fibrosis, *PULMONARY artery, *VASCULAR remodeling, *WNT signal transduction, *CELLULAR signal transduction

Abstract

Background: We have previously reported that endothelial-to-mesenchymal transition (EndMT) is an active process in patients with idiopathic pulmonary fibrosis (IPF) contributing to arterial remodelling. Here, we aim to quantify drivers of EndMT in IPF patients compared to normal controls (NCs). Methods: Lung resections from thirteen IPF patients and eleven NCs were immunohistochemically stained for EndMT drivers, including TGF-β1, pSmad-2/3, Smad-7, and β-catenin. Intima, media, and adventitia were analysed for expression of each EndMT driver in pulmonary arteries. Computer- and microscope-assisted Image ProPlus7.0 image analysis software was used for quantifications. Results: Significant TGF-β1, pSmad-2/3, Smad-7, and β-catenin expression was apparent across all arterial sizes in IPF (p < 0.05). Intimal TGF-β1, pSmad-2/3, Smad-7, and β-catenin were augmented in the arterial range of 100–1000 μm (p < 0.001) compared to NC. Intimal TGF-β1 and β-catenin percentage expression showed a strong correlation with the percentage expression of intimal vimentin (r′ = 0.54, p = 0.05 and r′ = 0.61, p = 0.02, respectively) and intimal N-cadherin (r′ = 0.62, p = 0.03 and r′ = 0.70, p = 0.001, respectively). Intimal TGF-β1 and β-catenin expression were significantly correlated with increased intimal thickness as well (r′ = 0.52, p = 0.04; r′ = 0.052, p = 0.04, respectively). Moreover, intimal TGF-β1 expression was also significantly associated with increased intimal elastin deposition (r′ = 0.79, p = 0.002). Furthermore, total TGF-β1 expression significantly impacted the percentage of DLCO (r′ = −0.61, p = 0.03). Conclusions: This is the first study to illustrate the involvement of active TGF-β/Smad-2/3-dependent and β-catenin-dependent Wnt signalling pathways in driving EndMT and resultant pulmonary arterial remodelling in patients with IPF. EndMT is a potential therapeutic target for vascular remodelling and fibrosis in general in patients with IPF. [ABSTRACT FROM AUTHOR]

Published

2024

7. Induced pluripotent stem cell–derived exosomes attenuate vascular remodelling in pulmonary arterial hypertension by targeting HIF-1α and Runx2.

Author

Chi, Pei-Ling, Cheng, Chin-Chang, Wang, Mei-Tzu, Liao, Jia-Bin, Kuo, Shu-Hung, Lin, Kun-Chang, Shen, Min-Ci, and Huang, Wei-Chun

Subjects

*PULMONARY arterial hypertension, *VASCULAR remodeling, *INDUCED pluripotent stem cells, *RIGHT ventricular hypertrophy, *EXOSOMES

Abstract

Aims Pulmonary arterial hypertension (PAH) is characterized by extensive pulmonary arterial remodelling. Although mesenchymal stem cell (MSC)-derived exosomes provide protective effects in PAH, MSCs exhibit limited senescence during in vitro expansion compared with the induced pluripotent stem cells (iPSCs). Moreover, the exact mechanism is not known. Methods and results In this study, we used murine iPSCs generated from mouse embryonic fibroblasts with triple factor (Oct4, Klf4, and Sox2) transduction to determine the efficacy and action mechanism of iPSC-derived exosomes (iPSC-Exo) in attenuating PAH in rats with monocrotaline (MCT)-induced pulmonary hypertension. Both early and late iPSC-Exo treatment effectively prevented the wall thickening and muscularization of pulmonary arterioles, improved the right ventricular systolic pressure, and alleviated the right ventricular hypertrophy in MCT-induced PAH rats. Pulmonary artery smooth muscle cells (PASMC) derived from MCT-treated rats (MCT-PASMC) developed more proliferative and pro-migratory phenotypes, which were attenuated by the iPSC-Exo treatment. Moreover, the proliferation and migration of MCT-PASMC were reduced by iPSC-Exo with suppression of PCNA, cyclin D1, MMP-1, and MMP-10, which are mediated via the HIF-1α and P21-activated kinase 1/AKT/Runx2 pathways. Conclusion IPSC-Exo are effective at reversing pulmonary hypertension by reducing pulmonary vascular remodelling and may provide an iPSC-free therapy for the treatment of PAH. [ABSTRACT FROM AUTHOR]

Published

2024

8. Matrine alleviates hypoxia‐induced inflammation and pulmonary vascular remodelling via RPS5/NF‐κB signalling pathway.

Author

Li, Mingxing, Ying, Miaofa, Gu, Shenglong, Zhou, Zheng, and Zhao, Rui

Subjects

VASCULAR remodeling, CELLULAR signal transduction, PROLIFERATING cell nuclear antigen, PULMONARY arterial hypertension, PULMONARY artery

Abstract

Hypoxia‐induced vasoconstriction and vascular remodelling are the main pathological features of hypoxic pulmonary arterial hypertension (HPAH), and inflammation is participated in the occurrence of pulmonary vascular remodelling (PVR). Matrine is an alkaloid with the effects of anti‐inflammation, antifibrosis and antitumour. But, few studies have explored the role of matrine in regulating PVR, and the related mechanisms are still unknown. In this study, we found that hypoxia‐induced pulmonary artery smooth muscle cells (PASMCs) proliferation and inhibited its apoptosis, reduced the expression of ribosomal protein s5 and activated the nuclear factor kappa‐B (NF‐κB) signalling. Matrine, sildenafil and NF‐κB inhibitor Bay 11‐7082 could reverse these changes and impel the cell cycle in phase S retardation, and reduced the expression of p50, p65, proliferating cell nuclear antigen (PCNA), Bcl‐2. In addition, matrine could lower right ventricular systolic pressure and mean pulmonary artery pressure of rats, α‐smooth muscle actin and PCNA expression in pulmonary artery media, the levels of tumor necrosis factor‐α and interleuki‐1β, thus improved hypoxia‐induced PVR. This study indicated that matrine could alleviate inflammation and improve PVR through reversing the imbalance of proliferation and apoptosis of PASMCs, thus it had a therapeutic effect on HPAH. [ABSTRACT FROM AUTHOR]

Published

2024

9. Pathogenic mechanisms and therapeutic implications of extracellular matrix remodelling in cerebral vasospasm

Author

Ziliang Hu, Xinpeng Deng, Shengjun Zhou, Chenhui Zhou, Menglu Shen, Xiang Gao, and Yi Huang

Subjects

Extracellular matrix, Subarachnoid hemorrhage, Cerebral vasospasm, Vascular remodelling, Homeostasis, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Cerebral vasospasm significantly contributes to poor prognosis and mortality in patients with aneurysmal subarachnoid hemorrhage. Current research indicates that the pathological and physiological mechanisms of cerebral vasospasm may be attributed to the exposure of blood vessels to toxic substances, such as oxyhaemoglobin and inflammation factors. These factors disrupt cerebral vascular homeostasis. Vascular homeostasis is maintained by the extracellular matrix (ECM) and related cell surface receptors, such as integrins, characterised by collagen deposition, collagen crosslinking, and elastin degradation within the vascular ECM. It involves interactions between the ECM and smooth muscle cells as well as endothelial cells. Its biological activities are particularly crucial in the context of cerebral vasospasm. Therefore, regulating ECM homeostasis may represent a novel therapeutic target for cerebral vasospasm. This review explores the potential pathogenic mechanisms of cerebral vasospasm and the impacts of ECM protein metabolism on the vascular wall during ECM remodelling. Additionally, we underscore the significance of an ECM protein imbalance, which can lead to increased ECM stiffness and activation of the YAP pathway, resulting in vascular remodelling. Lastly, we discuss future research directions.

Published

2023

10. Correlation of retinal vascular characteristics with laboratory and ocular findings in Fabry disease: exploring ocular diagnostic biomarkers

Author

Migle Lindziute, Jessica Kaufeld, Karsten Hufendiek, Ingo Volkmann, Dorothee Brockmann, Sami Hosari, Bettina Hohberger, Mardin Christian, Carsten Framme, Tode Jan, and Katerina Hufendiek

Subjects

OCT angiography, Fabry disease, Vessel area density, Vascular remodelling, Biomarkers, Medicine

Abstract

Abstract Background The goal of this study was to evaluate macular microvascular changes in patients with Fabry disease (FD) using optical coherence tomography angiography (OCTA) and to explore their correlation with laboratory and ocular findings. Methods A total of 76 eyes (38 patients) and 48 eyes of 24 healthy controls were enrolled in this prospective study. Vessel Area Density (VAD) and Foveal Avascular Zone (FAZ) area were calculated on 2.9 × 2.9 mm OCTA images scanned with the Heidelberg Spectralis II (Heidelberg, Germany). VAD was measured in three layers: Superficial Vascular Plexus (SVP), Intermediate Capillary Plexus (ICP), and Deep Capillary Plexus (DCP). All scans were analyzed with the EA-Tool (Version 1.0), which was coded in MATLAB (The MathWorks Inc, R2017b). FAZ area was manually measured in full-thickness, SVP, ICP and DCP scans. Results Average VAD in SVP, ICP and DCP was higher in Fabry disease patients than in controls (49.4 ± 11.0 vs. 26.5 ± 6.2, 29.6 ± 7.4 vs. 20.2 ± 4.4, 32.3 ± 8.8 vs. 21.7 ± 5.1 respectively, p

Published

2023

11. Computational simulations of the 4D micro-circulatory network in zebrafish tail amputation and regeneration

Author

Roustaei, Mehrdad, Baek, Kyung In, Wang, Zhaoqiang, Cavallero, Susana, Satta, Sandro, Lai, Angela, O'Donnell, Ryan, Vedula, Vijay, Ding, Yichen, Marsden, Alison Lesley, and Hsiai, Tzung K

Subjects

Fluid Mechanics and Thermal Engineering, Engineering, Biomedical Engineering, Underpinning research, 1.1 Normal biological development and functioning, Cardiovascular, Amputation, Surgical, Animals, Blood Flow Velocity, Hemodynamics, Mechanotransduction, Cellular, Shear Strength, Stress, Mechanical, Zebrafish, microvascular injury and regeneration, haemodynamic shear stress, vascular remodelling, non-Newtonian blood flow, General Science & Technology

Abstract

Wall shear stress (WSS) contributes to the mechanotransduction underlying microvascular development and regeneration. Using computational fluid dynamics, we elucidated the interplay between WSS and vascular remodelling in a zebrafish model of tail amputation and regeneration. The transgenic Tg (fli1:eGFP; Gata1:ds-red) zebrafish line was used to track the three-dimensional fluorescently labelled vascular endothelium for post-image segmentation and reconstruction of the fluid domain. Particle image velocimetry was used to validate the blood flow. Following amputation to the dorsal aorta and posterior cardinal vein (PCV), vasoconstriction developed in the dorsal longitudinal anastomotic vessel (DLAV) along with increased WSS in the proximal segmental vessels (SVs) from amputation. Angiogenesis ensued at the tips of the amputated DLAV and PCV where WSS was minimal. At 2 days post amputation (dpa), vasodilation occurred in a pair of SVs proximal to amputation, followed by increased blood flow and WSS; however, in the SVs distal to amputation, WSS normalized to the baseline. At 3 dpa, the blood flow increased in the arterial SV proximal to amputation and through anastomosis with DLAV formed a loop with PCV. Thus, our in silico modelling revealed the interplay between WSS and microvascular adaptation to changes in WSS and blood flow to restore microcirculation following tail amputation.

Published

2022

12. New Insights into the Pathophysiology of Coronary Artery Aneurysms

Author

Iris Bararu-Bojan, Oana-Viola Badulescu, Minerva Codruta Badescu, Maria Cristina Vladeanu, Carmen Elena Plesoianu, Andrei Bojan, Dan Iliescu-Halitchi, Razvan Tudor, Bogdan Huzum, Otilia Elena Frasinariua, and Manuela Ciocoiu

Subjects

coronary artery aneurysms, aneurysms, vascular remodelling, Medicine (General), R5-920

Abstract

Coronary aneurysms are typically defined as sections of a coronary artery where the diameter is more than 1.5 times that of an adjacent normal segment. In rare circumstances, these aneurysms can become exceedingly large, leading to the classification of giant coronary artery aneurysms. Despite their occurrence, there is no clear consensus on the precise definition of giant coronary artery aneurysms, and their etiology remains somewhat ambiguous. Numerous potential causes have been suggested, with atherosclerosis being the most prevalent in adults, accounting for up to 50% of cases. In pediatric populations, Kawasaki disease and Takayasu arteritis are the primary causes. Although often discovered incidentally, coronary artery aneurysms can lead to severe complications. These complications include local thrombosis, distal embolization, rupture, and vasospasm, which can result in ischemia, heart failure, and arrhythmias. The optimal approach to medical, interventional, or surgical management of these aneurysms is still under debate and requires further clarification. This literature review aims to consolidate current knowledge regarding coronary artery aneurysms’ pathophysiology, emphasizing their definition, causes, complications, and treatment strategies. Recent research has begun to explore the molecular mechanisms involved in the formation and progression of coronary artery aneurysms. Various molecules, such as matrix metalloproteinases (MMPs), inflammatory cytokines, and growth factors, play crucial roles in the degradation of the extracellular matrix and the remodeling of vascular walls. Elevated levels of MMPs, particularly MMP-9, have been associated with the weakening of the arterial wall, contributing to aneurysm development. Inflammatory cytokines such as tumor necrosis factor-alpha (TNF-α) and interleukins (IL-1β and IL-6) have been implicated in promoting inflammatory responses that further degrade vascular integrity. Additionally, growth factors such as vascular endothelial growth factor (VEGF) may influence angiogenesis and vascular remodeling processes. Understanding these molecular pathways is essential for developing targeted therapies aimed at preventing the progression of coronary artery aneurysms and improving patient outcomes.

Published

2024

13. Pulmonary Hypertension

Author

Saha, Sudipto, Majumdar, Sreyashi, Bhattacharyya, Parthasarathi, Saha, Sudipto, Majumdar, Sreyashi, and Bhattacharyya, Parthasarathi

Published

2023

14. Bleeding with iron deposition and vascular remodelling in subchondral cysts: A newly discovered feature unique to haemophilic arthropathy

Author

Zhou, Jenny Y, Wong, Jonathan H, Berman, Zachary T, Lombardi, Alecio F, Chang, Eric Y, and von Drygalski, Annette

Subjects

Clinical Research, 2.1 Biological and endogenous factors, Aetiology, Arthritis, Bone Cysts, Hemarthrosis, Hemophilia A, Humans, Iron, Vascular Remodeling, haemophilia, haemophilic arthropathy, iron, osteoarthritis, subchondral cysts, vascular remodelling, Clinical Sciences, Cardiovascular System & Hematology

Abstract

IntroductionJoint iron accumulation is the incendiary factor triggering osteochondral destruction, synovial hypertrophy, inflammation, and vascular remodelling in haemophilic arthropathy (HA). Hemosiderin depositions have been described in synovium and, more recently, in cartilage. Clinical observations also suggest hemosiderin accumulation in subchondral cysts, implying cyst bleeding.AimWe explored associations between cystic iron accumulation, vascular remodelling and HA status to determine if cystic bleeding may contribute to HA progression.MethodsThirty-six haemophilic joints (16 knees, 10 ankles, and 10 elbows; 31 adult patients with haemophilia A/B) were evaluated by magnetic resonance imaging (MRI) for subchondral cysts and hemosiderin. Cyst score (WORMS) and hemosiderin presence were compared between haemophilic and osteoarthritic knees, matched for the degree of arthritis (Kellgren-Lawrence score). Cystic iron accumulation, vascular remodelling and macrophage cell counts were also compared by immunohistochemistry in explanted joint tissues. In haemophilic knees, cyst number and extent of hemosiderin deposition were correlated with haemophilia joint health scores (HJHS).ResultsCystic hemosiderin was detected in 78% of haemophilic joints. Cyst score and presence of hemosiderin were significantly higher in haemophilic compared to osteoarthritic knees. Cyst score and presence of hemosiderin strongly correlated with HJHS. Moreover, iron deposition and vascular remodelling were significantly more pronounced within cysts in haemophilic compared to osteoarthritic knees, with similar total cell and macrophage count.ConclusionThese findings suggest the presence of subchondral bleeding in haemophilia, contributing to poor joint health outcomes. Observations of bleeding into osseous structures are novel and should inform investigations of new therapies.

Published

2021

15. Morphometric assessment of age-related structural changes in the vessels of the microcirculatory bed of the prostate gland under conditions of ethanol intoxication

Author

M. Hnatjuk, S. Nesteruk, L. Tatarchuk, and N. Monastyrska

Subjects

morphological parameters, vascular remodelling, alcohol, age, Medicine (General), R5-920

Abstract

Vessels of the microcirculatory bed ensure the full trophism of the body at the level of capillary-tissue relations and are the first to respond to various functional and pathological conditions of organs. At the same time, morphological changes in prostate microvasculature with age under conditions of prolonged ethanol poisoning have been understudied. The purpose of this study was to determine the age-related remodelling of the prostate vessels of the microcirculatory bed in case of prolonged alcohol intoxication. Injection, histological, morphometric, and statistical methods were used. The microvasculature of the prostate gland of 80 sexually mature white male rats of different ages was studied, 40 animals served as controls, and 40 rats were injected daily for 28 days with a 30% ethanol solution at a dose of 20 ml/kg intragastrically. Morphometric analysis indicated that chronic ethanol poisoning in white rats significantly reduces the lumens of arterial microvessels and hemocapillaries, while expanding the venous vessels in the microcirculatory bed of the prostate gland. When venous congestion occurs, the density of microvessels decreases, and microcirculation bed is disturbed. This disruption is accompanied by atrophic, dystrophic, and necrobiotic changes in endotheliocytes, epithelial cells, muscle cells, stromal structures, infiltration, and sclerosing. Intragastric 28-day administration of a 30% ethanol solution at a dose of 20 ml/kg to laboratory mature white male rats leads to pronounced structural changes in the microvasculature of the prostate microcirculatory bed: constriction of arterioles, precapillary arterioles and hemocapillaries, dilation of the capillary venules and venules, which is complicated by significant venous haemorrhage, development of atrophy, dystrophy, necrosis of vascular endothelial cells, glandular epithelial cells, muscle cells, connective tissue structures, cellular infiltration, and sclerosis. Vessels of the microcirculatory bed play a leading role in ethanol-induced damage of prostate structures, which dominate in 24-month-old experimental animals

Published

2023

16. High apoptotic endothelial microparticle levels measured in asthma with elevated IgE and eosinophils

Author

Yael Strulovici-Barel, Robert J. Kaner, and Ronald G. Crystal

Subjects

Airway remodelling, Angiogenesis, Biomarker, Pulmonary capillaries, Vascular remodelling, Diseases of the respiratory system, RC705-779

Abstract

Abstract While asthma is considered an inflammatory-mediated airway epithelial and smooth muscle disorder, there is increasing evidence of airway capillary endothelial dysfunction associated with vascular remodelling and angiogenesis in some individuals with this condition. The inflammation is typically characterized as type-2 high (eosinophilic) vs type 2-low (neutrophilic and pauci-granulocytic); we hypothesized that the type-2 high group would be more likely to evidence endothelial dysfunction. As a biomarker of these processes, we hypothesized that nonsmokers with allergic asthma may have elevated plasma levels of endothelial microparticles (EMPs), membrane vesicles that are shed when endothelial cells undergo activation or apoptosis. Total and apoptotic circulating EMPs were measured by fluorescence-activated cell analysis in patients with allergic asthma (n = 29) and control subjects (n = 26), all nonsmokers. When the entire group of patients with asthma were compared to the control subjects, there were no differences in total circulating EMPs nor apoptotic EMPs. However, patients with asthma with elevated levels of IgE and eosinophils had higher levels of apoptotic EMPs, compared to patients with asthma with mildly increased IgE and eosinophil levels. This observation is relevant to precision therapies for asthma and highlights the importance of sub-phenotyping in the condition.

Published

2023

17. Pathogenic mechanisms and therapeutic implications of extracellular matrix remodelling in cerebral vasospasm.

Author

Hu, Ziliang, Deng, Xinpeng, Zhou, Shengjun, Zhou, Chenhui, Shen, Menglu, Gao, Xiang, and Huang, Yi

Subjects

*CEREBRAL vasospasm, *EXTRACELLULAR matrix, *CELL receptors, *PHYSIOLOGY, *SUBARACHNOID hemorrhage

Abstract

Cerebral vasospasm significantly contributes to poor prognosis and mortality in patients with aneurysmal subarachnoid hemorrhage. Current research indicates that the pathological and physiological mechanisms of cerebral vasospasm may be attributed to the exposure of blood vessels to toxic substances, such as oxyhaemoglobin and inflammation factors. These factors disrupt cerebral vascular homeostasis. Vascular homeostasis is maintained by the extracellular matrix (ECM) and related cell surface receptors, such as integrins, characterised by collagen deposition, collagen crosslinking, and elastin degradation within the vascular ECM. It involves interactions between the ECM and smooth muscle cells as well as endothelial cells. Its biological activities are particularly crucial in the context of cerebral vasospasm. Therefore, regulating ECM homeostasis may represent a novel therapeutic target for cerebral vasospasm. This review explores the potential pathogenic mechanisms of cerebral vasospasm and the impacts of ECM protein metabolism on the vascular wall during ECM remodelling. Additionally, we underscore the significance of an ECM protein imbalance, which can lead to increased ECM stiffness and activation of the YAP pathway, resulting in vascular remodelling. Lastly, we discuss future research directions. Highlights: Changes in extracellular matrix homeostasis in response to stress after subarachnoid hemorrhage. Role of extracellular matrix in the pathogenesis of cerebral vasospasm. The imbalance of extracellular matrix homeostasis is an important cause of vascular remodelling. YAP pathway regulates the proliferation of vascular cells through the extracellular matrix. [ABSTRACT FROM AUTHOR]

Published

2023

18. A Microsurgical Arteriovenous Malformation Model on Saphenous Vessels in the Rat.

Author

Al-Smadi, Mohammad Walid, Fazekas, Laszlo Adam, Aslan, Siran, Bernat, Brigitta, Beqain, Anas, Al-Khafaji, Mustafa Qais Muhsin, Priksz, Daniel, Orlik, Brigitta, and Nemeth, Norbert

Subjects

ARTERIOVENOUS malformation, CARDIOVASCULAR system, BLOOD pressure, HEART beat, SAPHENOUS vein

Abstract

Arteriovenous malformation (AVM) is an anomaly of blood vessel formation. Numerous models have been established to understand the nature of AVM. These models have limitations in terms of the diameter of the vessels used and the impact on the circulatory system. Our goal was to establish an AVM model that does not cause prompt and significant hemodynamic and cardiac alterations but is feasible for follow-up of the AVM's progression. Sixteen female rats were randomly divided into sham-operated and AVM groups. In the AVM group, the saphenous vein and artery were interconnected using microsurgical techniques. The animals were followed up for 12 weeks. Anastomosis patency and the structural and hemodynamic changes of the heart were monitored. The hearts and vessels were histologically analyzed. During the follow-up period, shunts remained unobstructed. Systolic, diastolic, mean arterial pressure, and heart rate values slightly and non-significantly decreased in the AVM group. Echocardiogram results indicated minor systolic function impact, with slight and insignificant changes in aortic pressure and blood velocity, and minimal left ventricular wall enlargement. The small-caliber saphenous AVM model does not cause acute hemodynamic changes. Moderate but progressive alterations and venous dilatation confirmed AVM-like features. The model seems to be suitable for studying further the progression, enlargement, or destabilization of AVM. [ABSTRACT FROM AUTHOR]

Published

2023

19. Correlation of retinal vascular characteristics with laboratory and ocular findings in Fabry disease: exploring ocular diagnostic biomarkers.

Author

Lindziute, Migle, Kaufeld, Jessica, Hufendiek, Karsten, Volkmann, Ingo, Brockmann, Dorothee, Hosari, Sami, Hohberger, Bettina, Christian, Mardin, Framme, Carsten, Jan, Tode, and Hufendiek, Katerina

Subjects

*ANGIOKERATOMA corporis diffusum, *TORTUOSITY, *OPTICAL coherence tomography, *BIOMARKERS

Abstract

Background: The goal of this study was to evaluate macular microvascular changes in patients with Fabry disease (FD) using optical coherence tomography angiography (OCTA) and to explore their correlation with laboratory and ocular findings. Methods: A total of 76 eyes (38 patients) and 48 eyes of 24 healthy controls were enrolled in this prospective study. Vessel Area Density (VAD) and Foveal Avascular Zone (FAZ) area were calculated on 2.9 × 2.9 mm OCTA images scanned with the Heidelberg Spectralis II (Heidelberg, Germany). VAD was measured in three layers: Superficial Vascular Plexus (SVP), Intermediate Capillary Plexus (ICP), and Deep Capillary Plexus (DCP). All scans were analyzed with the EA-Tool (Version 1.0), which was coded in MATLAB (The MathWorks Inc, R2017b). FAZ area was manually measured in full-thickness, SVP, ICP and DCP scans. Results: Average VAD in SVP, ICP and DCP was higher in Fabry disease patients than in controls (49.4 ± 11.0 vs. 26.5 ± 6.2, 29.6 ± 7.4 vs. 20.2 ± 4.4, 32.3 ± 8.8 vs. 21.7 ± 5.1 respectively, p < 0.001). Patients with cornea verticillata (CV) had a higher VAD in ICP and DCP compared to patients without CV (p < 0.01). Patients with increased lysoGb3 concentration had a higher VAD in DCP when compared to patients with normal lysoGb3 concentration (p < 0.04). There was no difference in VAD in patients with and without vascular tortuosity. However, a significantly higher VAD was observed in patients with vascular tortuosity compared to controls (p < 0.03). Conclusions: Increased lysoGb3 and VAD in DCP could be reliable biomarkers of disease activity. Cornea verticillata could be adopted as a predictive biomarker for VAD changes and disease progression. The combination of cornea verticillata and increased VAD may serve as a diagnostic biomarker for Fabry disease, however due to the discrepancies in VAD values in various studies, further research has to be done to address this claim. [ABSTRACT FROM AUTHOR]

Published

2023

20. Understanding the role of the long non-coding RNA MIR503HG in endothelial-to-mesenchymal transition during vascular remodelling

Author

Pinho Monteiro, João Pedro, Baker, Andrew, and Caporali, Andrea

Subjects

vascular remodelling, EndMT, endothelial cells, lncRNA MIR503HG

Abstract

Endothelial-to-mesenchymal transition (EndMT) is a dynamic biological process present during development and involved in a variety of pathological vascular remodelling scenarios. However, despite our growing understanding of the key cellular alterations required, the precise molecular determinants governing this phenotypical transition remain elusive. With long non-coding RNAs (lncRNA) now emerging as powerful regulators of gene expression we sought to understand their role in the process of EndMT. To replicate EndMT in vitro and characterise its molecular signature, human umbilical vein endothelial cells (HUVEC) and human pulmonary artery endothelial cells (HPAEC) were exposed to a continuous co-treatment of transforming growth factor-beta 2 (TGF-β2) and interleukin 1 beta (IL-1β) for a total of 7 days. Using high-throughput RNA-sequencing analysis of these cells, a total of 103 differential expressed lncRNAs were identified. Of these, the downregulation of the lncRNA MIR503HG was found to be a prevalent feature present in multiple human primary EC types undergoing EndMT in vitro. Further analysis revealed that depletion of MIR503HG was sufficient to elicit a robust EndMT phenotype, with a significant increase in the expression of SNAI2, ACTA2 and COL1A1, accompanied by repression of CD31. Conversely, ectopic expression of a single MIR503HG transcript suppressed these hallmark EndMT-associated changes despite TGF-β2 and IL-1β co-treatment. Accompanying RNA-sequencing of these cells showed that the overexpression of MIR503HG alone was able to inhibit over 25% of the EndMT transcriptional profile. Crucially, these changes were found to be independent of the functional regulation of miR-503 and miR-424, found within the MIR503HG locus. Our findings were then confirmed in vivo using a sugen/hypoxia-induced model of pulmonary hypertension (PH) established in endothelial lineage-tracing mice. Here, the expression of the MIR503HG mouse homolog (Gm28730) was significantly downregulated in association with an EndMT profile in the lung. Conversely, targeted up-regulation of MIR503HG in the mouse lung significantly suppressed the appearance of mesenchymal markers in CD31+ cells during PH. Notably, MIR503HG availability was also found to be decreased in lung tissue sections from patients with idiopathic pulmonary arterial hypertension (IPAH) and cultured blood outgrowth ECs isolated from patients with heritable pulmonary arterial hypertension (HPAH). Collectively, our studies identify MIR503HG as essential in maintaining EC phenotypical commitment and preventing EndMT both in vitro and during disease.

Published

2020

21. piRNA-823 is a novel potential therapeutic target in aortic dissection

Author

Min Li, Gang Li, Yanyan Yang, Jinbao Zong, Xiuxiu Fu, Aung Lynn Htet Htet, Xiaolu Li, Tianxiang Li, Jianxun Wang, and Tao Yu

Subjects

Aortic dissection, piR-823, Vascular remodelling, Vascular smooth muscle cells, Acetylation, Therapeutics. Pharmacology, RM1-950

Abstract

Aortic dissection (AD) presents a medical challenge for clinicians. Here, to determine the role of a novel small non-coding piRNA-823 (piR-823) in AD, murine and human aorta from patients with AD were used. A high expression levels of piR-823 were found in patients with AD. Using performed loss- and gain-of-function assays in vitro and in vivo, we explore the regulatory effect of piR-823 on vascular smooth muscle cells (VSMCs) and AD. piR-823 obviously facilitates the proliferation, migration, and phenotypic transformation of VSMCs with or without nicotine treatment. piR-823 directly binds and suppresses histone deacetylase 1 (HDAC1) expression, and regulates the acetylation of histone 3 (H3) via H3K9ac and H3K27ac, eventually, VSMC functions and AD. To consolidate our findings, AD murine model was performed, and we observed that piR-823 antagomir strongly inhibited the pathogenesis of AD through regulating vascular remodeling. Thus, our study finds a potential target for the prevention and treatment strategy for nicotine-induced AD.

Published

2023

22. Characterisation of Lipoma-Preferred Partner as a Novel Mechanotransducer in Vascular Smooth Muscle Cells.

Author

Sporkova, Alexandra, Nahar, Taslima, Cao, Mingsi, Ghosh, Subhajit, Sens-Albert, Carla, Friede, Prisca Amayi Patricia, Nagel, Anika, Al-Hasani, Jaafar, and Hecker, Markus

Subjects

*MUSCLE cells, *BLOOD pressure, *MESENTERIC artery, *GENE expression, *PATHOLOGICAL physiology, *VASCULAR smooth muscle

Abstract

In arteries and arterioles, a chronic increase in blood pressure raises wall tension. This continuous biomechanical strain causes a change in gene expression in vascular smooth muscle cells (VSMCs) that may lead to pathological changes. Here we have characterised the functional properties of lipoma-preferred partner (LPP), a Lin11–Isl1–Mec3 (LIM)-domain protein, which is most closely related to the mechanotransducer zyxin but selectively expressed by smooth muscle cells, including VSMCs in adult mice. VSMCs isolated from the aorta of LPP knockout (LPP-KO) mice displayed a higher rate of proliferation than their wildtype (WT) counterparts, and when cultured as three-dimensional spheroids, they revealed a higher expression of the proliferation marker Ki 67 and showed greater invasion into a collagen gel. Accordingly, the gelatinase activity was increased in LPP-KO but not WT spheroids. The LPP-KO spheroids adhering to the collagen gel responded with decreased contraction to potassium chloride. The relaxation response to caffeine and norepinephrine was also smaller in the LPP-KO spheroids than in their WT counterparts. The overexpression of zyxin in LPP-KO VSMCs resulted in a reversal to a more quiescent differentiated phenotype. In native VSMCs, i.e., in isolated perfused segments of the mesenteric artery (MA), the contractile responses of LPP-KO segments to potassium chloride, phenylephrine or endothelin-1 did not vary from those in isolated perfused WT segments. In contrast, the myogenic response of LPP-KO MA segments was significantly attenuated while zyxin-deficient MA segments displayed a normal myogenic response. We propose that LPP, which we found to be expressed solely in the medial layer of different arteries from adult mice, may play an important role in controlling the quiescent contractile phenotype of VSMCs. [ABSTRACT FROM AUTHOR]

Published

2023

23. Vascular/epithelial changes as late sequelae after recovery from SARS‐COV‐2 infection: an in‐vivo comparative study.

Author

Pezzuto, Federica, Lunardi, Francesca, Vedovelli, Luca, Olteanu, Gheorghe E, Fortarezza, Francesco, De Pellegrin, Alessandro, Melan, Luca, Faccioli, Eleonora, De Franceschi, Elisa, Giraudo, Chiara, del Vecchio, Claudia, Marinello, Serena, Pasello, Giulia, Gregori, Dario, Navalesi, Paolo, Rea, Federico, Schiavon, Marco, and Calabrese, Fiorella

Subjects

*SARS-CoV-2, *POST-acute COVID-19 syndrome, *IN vivo studies, *LUNG diseases, *LUNGS, TUMOR surgery

Abstract

Aims: While there is partial evidence of lung lesions in patients suffering from long COVID there are substantial concerns about lung remodelling sequelae after COVID‐19 pneumonia. The aim of the present retrospective comparative study was to ascertain morphological features in lung samples from patients undergoing tumour resection several months after SARS‐CoV‐2 infection. Methods and results: The severity of several lesions with a major focus on the vascular bed was analysed in 2 tumour‐distant lung fragments of 41 cases: 21 SARS‐CoV‐2 (+) lung tumour (LT) patients and 20 SARS‐CoV‐2 (−) LT patients. A systematic evaluation of several lesions was carried out by combining their scores into a grade of I–III. Tissue SARS‐CoV‐2 genomic/subgenomic transcripts were also investigated. Morphological findings were compared with clinical, laboratory and radiological data. SARS‐CoV‐2 (+) LT patients with previous pneumonia showed more severe parenchymal and vascular lesions than those found in SARS‐CoV‐2 (+) LT patients without pneumonia and SARS‐CoV‐2 (−) LT patients, mainly when combined scores were used. SARS‐CoV‐2 viral transcripts were not detected in any sample. SARS‐CoV‐2 (+) LT patients with pneumonia showed a significantly higher radiological global injury score. No other associations were found between morphological lesions and clinical data. Conclusions: To our knowledge, this is the first study that, after a granular evaluation of tissue parameters, detected several changes in lungs from patients undergoing tumour resection after SARS‐CoV‐2 infection. These lesions, in particular vascular remodelling, could have an important impact overall on the future management of these frail patients. [ABSTRACT FROM AUTHOR]

Published

2023

24. Sirtuin 2 deficiency aggravates ageing-induced vascular remodelling in humans and mice.

Author

Zhang, Yang, Wang, Xiaoman, Li, Xun-Kai, Lv, Shuang-Jie, Wang, He-Ping, Liu, Yang, Zhou, Jingyue, Gong, Hui, Chen, Xiao-Feng, Ren, Si-Chong, Zhang, Huina, Dai, Yuxiang, Cai, Hua, Yan, Bo, Chen, Hou-Zao, and Tang, Xiaoqiang

Subjects

VASCULAR remodeling, SIRTUINS, REACTIVE oxygen species, ARTERIAL diseases, KNOCKOUT mice

Abstract

Aims The mechanisms underlying ageing-induced vascular remodelling remain unclear. This study investigates the role and underlying mechanisms of the cytoplasmic deacetylase sirtuin 2 (SIRT2) in ageing-induced vascular remodelling. Methods and results Transcriptome and quantitative real-time PCR data were used to analyse sirtuin expression. Young and old wild-type and Sirt2 knockout mice were used to explore vascular function and pathological remodelling. RNA-seq, histochemical staining, and biochemical assays were used to evaluate the effects of Sirt2 knockout on the vascular transcriptome and pathological remodelling and explore the underlying biochemical mechanisms. Among the sirtuins, SIRT2 had the highest levels in human and mouse aortas. Sirtuin 2 activity was reduced in aged aortas, and loss of SIRT2 accelerated vascular ageing. In old mice, SIRT2 deficiency aggravated ageing-induced arterial stiffness and constriction–relaxation dysfunction, accompanied by aortic remodelling (thickened vascular medial layers, breakage of elastin fibres, collagen deposition, and inflammation). Transcriptome and biochemical analyses revealed that the ageing-controlling protein p66Shc and metabolism of mitochondrial reactive oxygen species (mROS) contributed to SIRT2 function in vascular ageing. Sirtuin 2 repressed p66Shc activation and mROS production by deacetylating p66Shc at lysine 81. Elimination of reactive oxygen species by MnTBAP repressed the SIRT2 deficiency–mediated aggravation of vascular remodelling and dysfunction in angiotensin II–challenged and aged mice. The SIRT2 coexpression module in aortas was reduced with ageing across species and was a significant predictor of age-related aortic diseases in humans. Conclusion The deacetylase SIRT2 is a response to ageing that delays vascular ageing, and the cytoplasm–mitochondria axis (SIRT2–p66Shc–mROS) is important for vascular ageing. Therefore, SIRT2 may serve as a potential therapeutic target for vascular rejuvenation. [ABSTRACT FROM AUTHOR]

Published

2023

25. Coronary artery calcification and aortic valve calcification in patients with kidney failure: a sex-disaggregated study.

Author

Ward, Liam J., Laucyte-Cibulskiene, Agne, Hernandez, Leah, Ripsweden, Jonaz, Pilote, Louise, Norris, Colleen M., Raparelli, Valeria, Kautzky-Willer, Alexandra, Herrero, Maria Trinidad, Stenvinkel, Peter, and Kublickiene, Karolina

Subjects

*CORONARY artery calcification, *KIDNEY failure, *AORTIC valve, *KIDNEY calcification, *ARTERIAL calcification, *FEMALES, *HEART valves, *HEART

Abstract

Background: Chronic kidney disease (CKD) is linked to an increased cardiovascular disease (CVD) burden. Albeit underappreciated, sex differences are evident in CKD with females being more prone to CKD development, but males progressing more rapidly to kidney failure (KF). Cardiovascular remodelling is a hallmark of CKD with increased arterial and valvular calcification contributing to CKD. However, little is known regarding sex differences in calcific cardiovascular remodelling in KF patients. Thus, we hypothesise that sex differences are present in coronary artery calcification (CAC) and aortic valve calcification (AVC) in patients with KF. Methods: KF patients, males (n = 214) and females (n = 107), that had undergone computer tomography (CT) assessment for CAC and AVC were selected from three CKD cohorts. All patients underwent non-contrast multi-detector cardiac CT scanning, with CAC and AVC scoring based on the Agatston method. Baseline biochemical measurements were retrieved from cohort databases, including plasma analyses for inflammation markers (IL-6, TNF, hsCRP) and oxidative stress by skin autofluorescence measuring advanced glycation end-products (AGE), amongst other variables. Results: Sex-disaggregated analyses revealed that CAC score was associated with age in both males and females (both p < 0.001). Age-adjusted analyses revealed that in males CAC was associated with diabetes mellitus (DM) (p = 0.018) and CVD (p = 0.011). Additionally, for females CAC associated with IL-6 (p = 0.005) and TNF (p = 0.004). In both females and males CAC associated with AGE (p = 0.042 and p = 0.05, respectively). CAC was associated with mortality for females (p = 0.015) independent of age. AVC in females was not reviewed due to low AVC-positive samples (n = 14). In males, in multivariable regression AVC was associated with age (p < 0.001) and inflammation, as measured by IL-6 (p = 0.010). Conclusions: In female KF patients inflammatory burden and oxidative stress were associated with CAC. Whereas in male KF patients oxidative stress and inflammation were associated with CAC and AVC, respectively. Our findings suggest a sex-specific biomarker signature for cardiovascular calcification that may affect the development of cardiovascular complications in males and females with KF. Plain language summary: Chronic kidney disease (CKD) is a condition that affects the kidneys and increases the risk of heart problems. Males and females may experience CKD differently, and our study aimed to understand the differences in the development of calcification in the blood vessels of the heart (coronary artery calcification, or CAC) and the heart valves (aortic valve calcification, or AVC) between males and females with CKD. We analysed 214 males and 107 females with CKD who had undergone a heart scan (computer tomography, or CT) to measure CAC and AVC. We collected information on age, diabetes, cardiovascular disease, and markers of inflammation and oxidative stress. Our results showed that in both males and females CAC was associated with age. In males, CAC was associated with diabetes and cardiovascular disease, while in females, it was linked to markers of inflammation. In females, CAC was also associated with mortality regardless of age. Unfortunately, we had insufficient samples of females with AVC for analysis. However, in males AVC was associated with age and inflammation. Overall, our study indicates sex-specific differences in the development of calcification in the blood vessels and heart valves of CKD patients. In females, inflammation and oxidative stress are associated with CAC, while in males, oxidative stress and inflammation are associated with CAC and AVC, respectively. These findings underscore the importance of considering these differences when assessing cardiovascular complications in CKD patients. It may help in developing personalised treatment approaches for both males and females with CKD. Highlights: The gold standard technique of computer-tomography was used to measure coronary artery calcification (CAC) and aortic valve calcification (AVC) scores in males and females with kidney failure. In male kidney failure patients age and inflammatory burden was significantly associated with AVC. In addition, cardiovascular disease, diabetes, and oxidative stress were significantly associated with CAC score. In female kidney failure patients age, oxidative stress, and inflammation were significantly associated with CAC score. Cardiovascular calcification presents with a sex-specific biomarker signature that may affect cardiovascular complications in males and females with kidney failure. [ABSTRACT FROM AUTHOR]

Published

2023

26. High apoptotic endothelial microparticle levels measured in asthma with elevated IgE and eosinophils.

Author

Strulovici-Barel, Yael, Kaner, Robert J., and Crystal, Ronald G.

Subjects

*VASCULAR remodeling, *IMMUNOGLOBULIN E, *EOSINOPHILS, *CELL analysis, *ASTHMA

Abstract

While asthma is considered an inflammatory-mediated airway epithelial and smooth muscle disorder, there is increasing evidence of airway capillary endothelial dysfunction associated with vascular remodelling and angiogenesis in some individuals with this condition. The inflammation is typically characterized as type-2 high (eosinophilic) vs type 2-low (neutrophilic and pauci-granulocytic); we hypothesized that the type-2 high group would be more likely to evidence endothelial dysfunction. As a biomarker of these processes, we hypothesized that nonsmokers with allergic asthma may have elevated plasma levels of endothelial microparticles (EMPs), membrane vesicles that are shed when endothelial cells undergo activation or apoptosis. Total and apoptotic circulating EMPs were measured by fluorescence-activated cell analysis in patients with allergic asthma (n = 29) and control subjects (n = 26), all nonsmokers. When the entire group of patients with asthma were compared to the control subjects, there were no differences in total circulating EMPs nor apoptotic EMPs. However, patients with asthma with elevated levels of IgE and eosinophils had higher levels of apoptotic EMPs, compared to patients with asthma with mildly increased IgE and eosinophil levels. This observation is relevant to precision therapies for asthma and highlights the importance of sub-phenotyping in the condition. [ABSTRACT FROM AUTHOR]

Published

2023

27. Vascular smooth muscle cells specific deletion of angiopoietin-like protein 8 prevents angiotensin II-promoted hypertension and cardiovascular hypertrophy.

Author

Jiao, Xiaolu, Yu, Huahui, Du, Zhiyong, Li, Linyi, Hu, Chaowei, Du, Yunhui, Zhang, Jing, Zhang, Xiaoping, Lv, Qianwen, Li, Fan, Sun, Qiuju, Wang, Yu, and Qin, Yanwen

Subjects

*ANGIOTENSIN II, *VASCULAR smooth muscle, *ANGIOPOIETIN-like proteins, *MUSCLE cells, *DIASTOLIC blood pressure, *SYSTOLIC blood pressure

Abstract

Aims Angiopoietin-like protein 8 (ANGPTL8) plays important roles in lipid metabolism, glucose metabolism, inflammation, and cell proliferation and migration. Clinical studies have indicated that circulating ANGPTL8 concentrations are increased in patients with hypertension and positively associated with blood pressure. ANGPTL8 deficiency ameliorates blood pressure in mice treated with chronic intermittent hypoxia. Currently, little is known regarding the pathophysiological role of the vascular smooth muscle cell (VSMC)-derived ANGPTL8 in hypertension and hypertensive cardiovascular remodelling. Methods and results Circulating ANGPTL8 concentrations, as determined by enzyme-linked immunosorbent assay, were significantly higher in hypertensive patients than in controls (524.51 ± 26.97 vs. 962.92 ± 15.91 pg/mL; P < 0.001). In hypertensive mice [angiotensin II (AngII) treatment for 14 days] and spontaneously hypertensive rats, ANGPTL8 expression was increased and predominantly located in VSMCs. In AngII-treated mice, systolic and diastolic blood pressure in Tagln-Cre-ANGPTL8fl/fl mice were approximately 15–25 mmHg lower than that in ANGPTL8fl/fl mice. AngII-induced vascular remodelling, vascular constriction, and increased expression of cell markers of proliferation (PCNA and Ki67) and migration (MMP-2 and MMP-9) were strikingly attenuated in Tagln-Cre-ANGPTL8fl/fl mice compared with ANGPTL8fl/fl mice. Furthermore, the AngII-induced increase in the heart size, heart weight, heart/body weight ratio, cardiomyocyte cross-sectional area, and collagen deposition was ameliorated in Tagln-Cre-ANGPTL8fl/fl mice compared with ANGPTL8fl/fl mice. In rat artery smooth muscle cells, ANGPTL8-short hairpin RNA decreased intracellular calcium levels and prevented AngII-induced proliferation and migration through the PI3K-Akt pathway, as shown using LY294002 (inhibitor of PI3K) and Akt inhibitor VIII. Conclusion This study suggests that ANGPTL8 in VSMCs plays an important role in AngII-induced hypertension and associated cardiovascular remodelling. ANGPTL8 may be a novel therapeutic target against pathological hypertension and hypertensive cardiovascular hypertrophy. [ABSTRACT FROM AUTHOR]

Published

2023

28. Building a Scaffold for Arteriovenous Fistula Maturation: Unravelling the Role of the Extracellular Matrix.

Author

Laboyrie, Suzanne L., de Vries, Margreet R., Bijkerk, Roel, and Rotmans, Joris I.

Subjects

*ARTERIOVENOUS fistula, *EXTRACELLULAR matrix, *CHRONIC kidney failure, *RENAL replacement therapy, *TISSUE scaffolds, *ARTERIAL catheterization

Abstract

Vascular access is the lifeline for patients receiving haemodialysis as kidney replacement therapy. As a surgically created arteriovenous fistula (AVF) provides a high-flow conduit suitable for cannulation, it remains the vascular access of choice. In order to use an AVF successfully, the luminal diameter and the vessel wall of the venous outflow tract have to increase. This process is referred to as AVF maturation. AVF non-maturation is an important limitation of AVFs that contributes to their poor primary patency rates. To date, there is no clear overview of the overall role of the extracellular matrix (ECM) in AVF maturation. The ECM is essential for vascular functioning, as it provides structural and mechanical strength and communicates with vascular cells to regulate their differentiation and proliferation. Thus, the ECM is involved in multiple processes that regulate AVF maturation, and it is essential to study its anatomy and vascular response to AVF surgery to define therapeutic targets to improve AVF maturation. In this review, we discuss the composition of both the arterial and venous ECM and its incorporation in the three vessel layers: the tunica intima, media, and adventitia. Furthermore, we examine the effect of chronic kidney failure on the vasculature, the timing of ECM remodelling post-AVF surgery, and current ECM interventions to improve AVF maturation. Lastly, the suitability of ECM interventions as a therapeutic target for AVF maturation will be discussed. [ABSTRACT FROM AUTHOR]

Published

2023

29. Circ-Ntrk2 acts as a miR-296-5p sponge to activate the TGF-β1/p38 MAPK pathway and promote pulmonary hypertension and vascular remodelling

Author

Lihuang Su, Xiuchun Li, Xulong Mao, Tingting Xu, Yiying Zhang, Shini Li, Xiayan Zhu, Liangxing Wang, Dan Yao, Jian Wang, and Xiaoying Huang

Subjects

Circ-Ntrk2, Pulmonary arterial hypertension, Vascular remodelling, miR-296-5p, Proliferation, Right ventricular hypertrophy, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background Circular RNAs (circRNAs), a novel class of non-coding RNAs, play an important regulatory role in pulmonary arterial hypertension (PAH); however, the specific mechanism is rarely studied. In this study, we aimed to discover functional circRNAs and investigate their effects and mechanisms in hypoxia-induced pulmonary vascular remodelling, a core pathological change in PAH. Methods RNA sequencing was used to illustrate the expression profile of circRNAs in hypoxic PAH. Bioinformatics, Sanger sequencing, and quantitative real-time PCR were used to identify the ring-forming characteristics of RNA and analyse its expression. Then, we established a hypoxia-induced PAH mouse model to evaluate circRNA function in PAH by echocardiography and hemodynamic measurements. Moreover, microRNA target gene database screening, fluorescence in situ hybridisation, luciferase reporter gene detection, and western blotting were used to explore the mechanism of circRNAs. Results RNA sequencing identified 432 differentially expressed circRNAs in mouse hypoxic lung tissues. Our results indicated that circ-Ntrk2 is a stable cytoplasmic circRNA derived from Ntrk2 mRNA and frequently upregulated in hypoxic lung tissue. We further found that circ-Ntrk2 sponges miR-296-5p and miR-296-5p can bind to the 3′-untranslated region of transforming growth factor-β1 (TGF-β1) mRNA, thereby attenuating TGF-β1 translation. Through gene knockout or exogenous expression, we demonstrated that circ-Ntrk2 could promote PAH and vascular remodelling. Moreover, we verified that miR-296-5p overexpression alleviated pulmonary vascular remodelling and improved PAH through the TGF-β1/p38 MAPK pathway. Conclusions We identified a new circRNA (circ-Ntrk2) and explored its function and mechanism in PAH, thereby establishing potential targets for the diagnosis and treatment of PAH. Furthermore, our study contributes to the understanding of circRNA in relation to PAH.

Published

2023

30. Is vascular remodelling in patients with chronic heart failure exaggerated?

Author

Robert Pietschner, Agnes Bosch, Dennis Kannenkeril, Kristina Striepe, Mario Schiffer, Stephan Achenbach, Roland E. Schmieder, and Julie Kolwelter

Subjects

Heart failure, Vascular remodelling, Vascular function, Cardiovascular risk factors, Central haemodynamics, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Abstract Background Vascular remodelling of large arteries increases afterload of the left ventricle. The aim of this study was to analyse whether vascular remodelling and function under laboratory and 24‐hour ambulatory conditions is impaired in patients with chronic heart failure (CHF) independently of cardiovascular risk factors. Methods and results In this monocentric cross‐sectional observational study, 105 patients with CHF and an ejection fraction ≤49% (CHF+) were compared to 118 subjects without CHF (CHF−). After adjustment for age, gender, arterial hypertension, hyperlipidaemia, type 2 diabetes, obesity and smoking, vascular function and structure parameters, as assessed by pulse wave analysis (SphygmoCor) and the UNEX EF device, respectively, between the CHF+ and the CHF− group differed for resting pulse wave velocity (PWV) (P = 0.010), 24‐h ambulatory PWV (P = 0.011), central systolic blood pressure (cSBP) (P =

Published

2023

31. Modelling Pulmonary Arterial Hypertension: Clinical Concepts, Engineering Applications and an Integrated Medico-engineering Approach

Author

Torii, Ryo, Muthurangu, Vivek, Butera, Gianfranco, editor, Schievano, Silvia, editor, Biglino, Giovanni, editor, and McElhinney, Doff B., editor

Published

2022

32. Using Confocal Microscopy to Generate an Accurate Vascular Model for Use in Patient Education Animation

Author

Douglass, Angela, Moffat, Gillian, Daly, Craig, Crusio, Wim E., Series Editor, Dong, Haidong, Series Editor, Radeke, Heinfried H., Series Editor, Rezaei, Nima, Series Editor, Steinlein, Ortrud, Series Editor, Xiao, Junjie, Series Editor, and Rea, Paul M., editor

Published

2022

33. Deletion of large-conductance calcium-activated potassium channels promotes vascular remodelling through the CTRP7-mediated PI3K/Akt signaling pathway

Author

Bi Jing, Duan Yanru, Wang Meili, He Chunyu, Li Xiaoyue, Zhang Xi, Tao Yan, Du Yunhui, and Liu Huirong

Subjects

large-conductance calcium-activated potassium channel, vascular remodelling, vascular smooth muscle cell, C1q/tumor necrosis factor-related protein 7, Biochemistry, QD415-436, Genetics, QH426-470

Abstract

The large-conductance calcium-activated potassium (BK) channel is a critical regulator and potential therapeutic target of vascular tone and architecture, and abnormal expression or dysfunction of this channel is linked to many vascular diseases. Vascular remodelling is the early pathological basis of severe vascular diseases. Delaying the progression of vascular remodelling can reduce cardiovascular events, but the pathogenesis remains unclear. To clarify the role of BK channels in vascular remodelling, we use rats with BK channel α subunit knockout (BK α ‒/‒). The results show that BK α ‒/‒ rats have smaller inner and outer diameters, thickened aortic walls, increased fibrosis, and disordered elastic fibers of the aortas compared with WT rats. When the expression and function of BK α are inhibited in human umbilical arterial smooth muscle cells (HUASMCs), the expressions of matrix metalloproteinase 2 (MMP2), MMP9, and interleukin-6 are enhanced, while the expressions of smooth muscle cell contractile phenotype proteins are reduced. RNA sequencing, bioinformatics analysis and qPCR verification show that C1q/tumor necrosis factor-related protein 7 ( CTRP7) is the downstream target gene. Furthermore, except for that of MMPs, a similar pattern of IL-6, smooth muscle cell contractile phenotype proteins expression trend is observed after CTRP7 knockdown. Moreover, knockdown of both BK α and CTRP7 in HUASMCs activates PI3K/Akt signaling. Additionally, CTRP7 is expressed in vascular smooth muscle cells (VSMCs), and BK α deficiency activates the PI3K/Akt pathway by reducing CTRP7 level. Therefore, we first show that BK channel deficiency leads to vascular remodelling. The BK channel and CTRP7 may serve as potential targets for the treatment of cardiovascular diseases.

Published

2022

34. Geraniin Ameliorates Hypertensive Vascular Remodelling in a Diet-Induced Obese Animal Model through Antioxidant and Anti-Inflammatory Effects.

Author

Goh, Boon Hee, Cheng, Hong Sheng, Alexandra, Pricilla Tracy A/P A., Ting, Kang-Nee, Palanisamy, Uma Devi, and Tan, Joash Ban Lee

Abstract

Geraniin, an ellagitannin, has shown a potent blood pressure-lowering effect in vivo. Therefore, this study aims to further characterize the ability of geraniin to attenuate hypertensive vascular dysfunction, a key feature of cardiovascular disease (CVD) development. Hypertension was induced in male Sprague-Dawley rats through feeding a high-fat diet (HFD) for eight weeks, followed by oral administration of 25 mg/kg/day geraniin for four weeks. The parameters of vascular dysfunction such as the structure and function of blood vessels as well as the vascular oxidative stress and inflammation were evaluated. The outcomes of geraniin-treated rats were compared with those of untreated rats on either a normal diet (ND) or HFD and with HFD-fed rats treated with captopril (40 mg/kg/day). We found that geraniin supplementation effectively ameliorated HFD-induced hypertension and abnormal remodelling of the thoracic aorta by suppressing excessive vascular superoxide (O2−) radical generation and overexpression of pro-inflammatory mediators in the circulating leukocytes. Furthermore, compared to the ND-fed rats, geraniin also independently promoted the significant enlargement of the thoracic aortic lumen for blood pressure reduction. Notably, the vascular benefits of geraniin were comparable to that of captopril. Collectively, these data suggest that geraniin can mitigate hypertensive vascular remodelling caused by overnutrition, which potentially abrogates the further development of CVDs. [ABSTRACT FROM AUTHOR]

Published

2023

35. 抵抗素样分子在血管重塑中的作用及 机制研究进展.

Author

曹闲雅, 谭骏岚, 王飞英, and 戴爱国

Subjects

*VASCULAR smooth muscle, *VASCULAR remodeling, *CELL transformation, *PHENOTYPIC plasticity, *EXTRACELLULAR matrix

Abstract

Vascular remodeling is a prevalent pathological basis for many cardiovascular diseases. Therefore, understanding the regulatory mechanisms involved in vascular remodeling might provide insight into potential therapeutic targets and strategies for cardiovascular disease management. The family of resistin-like molecules （RELMs） consists mainly of four members in rodents such as RELMα/FIZZ1/HIMF, RELMβ/FIZZ2, resistin/FIZZ3, and RELMγ/FIZZ4. In humans, RELMs is composed of resistin and RELMβ. Notably, RELMs possess inflammatory regulating, chemokine, and growth factor properties and play an essential role in many pathophysiological processes. Recently, RELMs have been found to participate in vascular remodeling by regulating vascular cell proliferation, vascular smooth muscle cell phenotype transformation, extracellular matrix remodeling, angiogenesis, endothelial mesenchymal transformation, and inflammatory responses. The present paper reviews the role and mechanism of RELMs in vascular remodeling, aiming to provide a reference for the treatment of vascular remodeling-related diseases. [ABSTRACT FROM AUTHOR]

Published

2023

36. The epitranscriptome: RNA modifications in vascular remodelling.

Author

Nossent, A. Yaël

Subjects

*RNA modification & restriction, *VASCULAR remodeling, *POST-translational modification, *PERIPHERAL vascular diseases, *GENETIC regulation, *MYOCARDIAL infarction

Abstract

RNA transcripts are not finished products. Like proteins undergo posttranslational modifications, RNAs undergo posttranscriptional modifications. Some of these modifications affect processing, stability or turnover of RNAs, others can 'edit' nucleotides, change the RNA's function and rewrite the genetic code. The body of RNA modifications is collectively called the 'epitranscriptome'. The epitranscriptome is dynamically regulated. This is the most clear for N6-methyladenosine (m6A), where both m6A-'writers' and –'erasers' have been identified and are also already being employed in studies on the effects of broad-scale m6A modifications on human disease, including cardiovascular disease. Even though not all modifications are readily reversible like m6A, most, if not all, other modifications are actively regulated in response to stressors, such as ischemia, starvation, or incubation with for example cytokines or oxidized LDL, all important factors in vascular remodelling and cardiovascular disease. Epitranscriptome research in human disease in general and in cardiovascular research is still in its infancy and methods to reliably detect and/or manipulate most RNA modifications are still lacking. Nonetheless, the number of studies on RNA modification and on writer-, eraser-, and reader-protein in various forms of vascular remodelling has increased dramatically over the last three years. This review aimed to discuss the available literature on the most common RNA modifications in different forms of vascular remodelling. Both adaptive vascular remodelling, including postischemic angiogenesis, as well as maladaptive remodelling, like atherosclerosis and aneurysm formation, and their direct consequences, such as myocardial infarction, acute stroke, peripheral artery disease and abdominal aorta aneurysm, have been discussed. [Display omitted] • The epitranscriptome, the collective of posttranscriptional modifications of RNAs, adds a layer of regulation of gene expression and function. • Over the past three years, epitranscriptome research in the cardiovascular field has started to take flight. • m6A and A-to-I editing dominate the epitranscriptome field in CVD, but other modifications are gaining momentum too. [ABSTRACT FROM AUTHOR]

Published

2023

37. C1q/TNF‐related protein 4 mediates proliferation and migration of vascular smooth muscle cells during vascular remodelling.

Author

Liu, Jingying, Long, Xingbo, Li, Hexin, Yan, Qiuxia, Wang, Lu, Qin, Ziyu, and Zhang, Hong

Subjects

*VASCULAR smooth muscle, *VASCULAR remodeling, *MUSCLE cells, *MAJOR adverse cardiovascular events, *ARTERIAL stenosis

Abstract

Background: Vascular remodelling is an essential pathophysiological state in many circulatory diseases. Abnormal vascular smooth muscle cell (VSMC) behaviour leads to neointimal formation and may eventually results in major adverse cardiovascular events. The C1q/TNF‐related protein (C1QTNF) family is closely associated with cardiovascular disease. Notably, C1QTNF4 has unique two C1q domains. However, the role of C1QTNF4 in vascular diseases remains unclear. Methods: C1QTNF4 expression was detected in human serum and artery tissues using ELISA and multiplex immunofluorescence (mIF) staining. Scratch assay, transwell assay and confocal microscopy were used to investigate C1QTNF4 effects on VSMC migration. EdU incorporation, MTT assay and cell counting experiment revealed C1QTNF4 effects on VSMC proliferation. C1QTNF4‐transgenic, C1QTNF4−/− and AAV9‐mediated VSMC‐specific C1QTNF4 restoration C1QTNF4−/‐ mouse and rat disease models were generated. RNA‐seq, quantitative real‐time PCR, western blot, mIF, proliferation and migration assays were used to investigate the phenotypic characteristics and underlying mechanisms. Results: Serum C1QTNF4 levels were decreased in patients with arterial stenosis. C1QTNF4 shows colocalisation with VSMC in human renal arteries. In vitro, C1QTNF4 inhibits VSMC proliferation and migration and alters VSMC phenotype. In vivo, an adenovirus‐infected rat balloon injury model, C1QTNF4‐transgenic and C1QTNF4−/− mouse wire‐injury models with or without VSMC‐specific C1QTNF4 restoration were established to mimic the VSMC repair and remodelling. The results show that C1QTNF4 decreases intimal hyperplasia. Especially, we displayed the rescue effect of C1QTNF4 in vascular remodelling using AAV vectors. Next, transcriptome analysis of artery tissue identified the potential mechanism. In vitro and in vivo experiments confirm that C1QTNF4 ameliorates neointimal formation and maintains vascular morphology by downregulating the FAK/PI3K/AKT pathway. Conclusions: Our study demonstrated that C1QTNF4 is a novel inhibitor of VSMC proliferation and migration that acts by downregulating the FAK/PI3K/AKT pathway, thus protecting blood vessels from abnormal neointima formation. These results provide new insights into promising potent treatments for vascular stenosis diseases. [ABSTRACT FROM AUTHOR]

Published

2023

38. Imperatorin derivative OW1, a new vasoactive compound, attenuates cell proliferation and migration by inhibiting Nox1-mediated oxidative stress.

Author

Zhou, Nan, Yong, Suyun, Shi, Xianpeng, Zhang, Peng, and Wang, Jianhua

Subjects

*INHIBITION of cellular proliferation, *NICOTINAMIDE adenine dinucleotide phosphate, *VASOACTIVE intestinal peptide, *OXIDATIVE stress, *VASCULAR smooth muscle, *VASCULAR remodeling

Abstract

Objectives: Reactive oxygen species (ROS) are involved in the structural remodelling of vascular segments and vascular beds. We identified a new imperatorin derivative, OW1, which has significant effects on vasodilation and inhibits vascular remodelling in hypertensive rats. In this study, we investigated whether OW1 inhibits vascular cell proliferation and migration by attenuating Nox1-ROS signalling. Methods: Vascular smooth muscle cells (VSMCs) were treated with OW1 (1, 3 and 10 µmol/L) for 24 h incubation, and it has been analysed for proliferation and peroxidation levels. Moreover, the mRNA and protein levels of nicotinamide adenine dinucleotide phosphate oxidase (Noxs) were measured by RT-PCR and western blot. Furthermore, Nox1-ROS-MAPK/MMP mediated cell proliferation was detected by western blot. Key findings: Ang II-induced increases in the levels of peroxidation and Noxs in VSMCs were also inhibited by OW1. OW1 attenuates cell proliferation and migration through the MAPK pathway and MMPs. OW1 treatment had no significant effects on cell migration, ROS levels, or the expression of phosphorylated MAPKs in VSMCs when Nox1 was knocked down. OW1 reduced ROS levels and expression of phosphorylated MAPKs in NIH3T3 cells with a Nox1 overexpression plasmid. Conclusion: OW1 may inhibit vascular remodelling by downregulating the Nox1-ROS-MAPK/MMP signalling pathway. Graphical Abstract [ABSTRACT FROM AUTHOR]

Published

2023

39. Dilated hypertrophic phenotype of the carotid artery is associated with accelerated age-associated central arterial stiffening.

Author

AlGhatrif, Majd, Lakatta, Edward G., Morrell, Christopher H., Fegatelli, Danilo Alunni, Fiorillo, Edoardo, Marongiu, Michele, Schlessinger, David, Cucca, Francesco, and Scuteri, Angelo

Subjects

CAROTID artery, PULSE wave analysis, OLDER people, AGE, BODY mass index, RESISTANCE training

Abstract

Hypertrophic carotid geometric phenotypes (h-CGP) are predictors of incident cardiovascular disease (CVD). While arterial aging is hypothesized as a contributor to this associated risk, the association of CGPs with chronological age is not clear. In this manuscript we examine whether hypertrophic CGPs represent accelerated biological, rather than chronological, aging by examining their association with carotid-femoral pulse wave velocity (PWV), the hallmark of arterial aging. We analyzed data from 5516 participants of the SardiNIA study with a wide range of age at baseline (20–101 years), and a median follow-up time of 13 years (mean 11.5 years; maximum 17.9 years). Baseline CGPs were defined based on the common carotid lumen diameter, wall thickness, and their ratio. Subject-specific rates of change of PWV, blood pressure parameters, body mass index, glucose, and lipids were estimated using linear mixed effects models. Compared to those with typical(t-) CGP, those with dilated hypertrophy (dh-) CGP had a greater longitudinal increase in PWV; this increase was significantly greater among older individuals and men. The greater PWV longitudinal increase in dh-CGP remained significant after adjusting for baseline values and rates of change of covariates. Dilated hypertrophic CGP is independently associated with accelerated increase in age-associated arterial stiffening over time, with a strong association in men than in women. Future studies are needed to examine if this association mediates the increased risk for CVD observed in individuals with hypertrophic cardiac remodelling and the role of retarding it to reduce this risk. Highlights: • Individuals with dilated hypertrophic geometric phenotypes of the common carotid artery (increased age- and sex-specific wall thickness and lumen diameter) have greater future central arterial stiffening, independently of other determinants of arterial stiffening. • The dilated hypertrophic phenotype group has a greater age-specific arterial dilation, wall thickening, and stiffness (the arterial aging triad). This suggests that this phenotype is a form of accelerated aging that might explain the worse clinic outcomes observed in this group. • Understanding the natural history of the carotid geometric phenotype across the lifespan and the determinants of the deleterious progression towards the dilated hypertrophic phenotype are needed to develop interventions that reduce the adverse clinical outcomes associated with it. [ABSTRACT FROM AUTHOR]

Published

2023

40. Endothelial cells and macrophages as allies in the healthy and diseased brain

Author

Denes, Adam, Hansen, Cathrin E., Oezorhan, Uemit, Figuerola, Sara, de Vries, Helga E., Sorokin, Lydia, Planas, Anna M., Engelhardt, Britta, and Schwaninger, Markus

Published

2024

41. C1q/TNF‐related protein 4 mediates proliferation and migration of vascular smooth muscle cells during vascular remodelling

Author

Jingying Liu, Xingbo Long, Hexin Li, Qiuxia Yan, Lu Wang, Ziyu Qin, and Hong Zhang

Subjects

C1QTNF4, neointima formation, proliferation and migration, vascular remodelling, vascular smooth muscle cell, Medicine (General), R5-920

Abstract

Abstract Background Vascular remodelling is an essential pathophysiological state in many circulatory diseases. Abnormal vascular smooth muscle cell (VSMC) behaviour leads to neointimal formation and may eventually results in major adverse cardiovascular events. The C1q/TNF‐related protein (C1QTNF) family is closely associated with cardiovascular disease. Notably, C1QTNF4 has unique two C1q domains. However, the role of C1QTNF4 in vascular diseases remains unclear. Methods C1QTNF4 expression was detected in human serum and artery tissues using ELISA and multiplex immunofluorescence (mIF) staining. Scratch assay, transwell assay and confocal microscopy were used to investigate C1QTNF4 effects on VSMC migration. EdU incorporation, MTT assay and cell counting experiment revealed C1QTNF4 effects on VSMC proliferation. C1QTNF4‐transgenic, C1QTNF4−/− and AAV9‐mediated VSMC‐specific C1QTNF4 restoration C1QTNF4−/‐ mouse and rat disease models were generated. RNA‐seq, quantitative real‐time PCR, western blot, mIF, proliferation and migration assays were used to investigate the phenotypic characteristics and underlying mechanisms. Results Serum C1QTNF4 levels were decreased in patients with arterial stenosis. C1QTNF4 shows colocalisation with VSMC in human renal arteries. In vitro, C1QTNF4 inhibits VSMC proliferation and migration and alters VSMC phenotype. In vivo, an adenovirus‐infected rat balloon injury model, C1QTNF4‐transgenic and C1QTNF4−/− mouse wire‐injury models with or without VSMC‐specific C1QTNF4 restoration were established to mimic the VSMC repair and remodelling. The results show that C1QTNF4 decreases intimal hyperplasia. Especially, we displayed the rescue effect of C1QTNF4 in vascular remodelling using AAV vectors. Next, transcriptome analysis of artery tissue identified the potential mechanism. In vitro and in vivo experiments confirm that C1QTNF4 ameliorates neointimal formation and maintains vascular morphology by downregulating the FAK/PI3K/AKT pathway. Conclusions Our study demonstrated that C1QTNF4 is a novel inhibitor of VSMC proliferation and migration that acts by downregulating the FAK/PI3K/AKT pathway, thus protecting blood vessels from abnormal neointima formation. These results provide new insights into promising potent treatments for vascular stenosis diseases.

Published

2023

42. Circ-Ntrk2 acts as a miR-296-5p sponge to activate the TGF-β1/p38 MAPK pathway and promote pulmonary hypertension and vascular remodelling.

Author

Su, Lihuang, Li, Xiuchun, Mao, Xulong, Xu, Tingting, Zhang, Yiying, Li, Shini, Zhu, Xiayan, Wang, Liangxing, Yao, Dan, Wang, Jian, and Huang, Xiaoying

Subjects

*VASCULAR remodeling, *PULMONARY arterial hypertension, *GENE expression, *CIRCULAR RNA, *MITOGEN-activated protein kinases

Abstract

Background: Circular RNAs (circRNAs), a novel class of non-coding RNAs, play an important regulatory role in pulmonary arterial hypertension (PAH); however, the specific mechanism is rarely studied. In this study, we aimed to discover functional circRNAs and investigate their effects and mechanisms in hypoxia-induced pulmonary vascular remodelling, a core pathological change in PAH. Methods: RNA sequencing was used to illustrate the expression profile of circRNAs in hypoxic PAH. Bioinformatics, Sanger sequencing, and quantitative real-time PCR were used to identify the ring-forming characteristics of RNA and analyse its expression. Then, we established a hypoxia-induced PAH mouse model to evaluate circRNA function in PAH by echocardiography and hemodynamic measurements. Moreover, microRNA target gene database screening, fluorescence in situ hybridisation, luciferase reporter gene detection, and western blotting were used to explore the mechanism of circRNAs. Results: RNA sequencing identified 432 differentially expressed circRNAs in mouse hypoxic lung tissues. Our results indicated that circ-Ntrk2 is a stable cytoplasmic circRNA derived from Ntrk2 mRNA and frequently upregulated in hypoxic lung tissue. We further found that circ-Ntrk2 sponges miR-296-5p and miR-296-5p can bind to the 3′-untranslated region of transforming growth factor-β1 (TGF-β1) mRNA, thereby attenuating TGF-β1 translation. Through gene knockout or exogenous expression, we demonstrated that circ-Ntrk2 could promote PAH and vascular remodelling. Moreover, we verified that miR-296-5p overexpression alleviated pulmonary vascular remodelling and improved PAH through the TGF-β1/p38 MAPK pathway. Conclusions: We identified a new circRNA (circ-Ntrk2) and explored its function and mechanism in PAH, thereby establishing potential targets for the diagnosis and treatment of PAH. Furthermore, our study contributes to the understanding of circRNA in relation to PAH. [ABSTRACT FROM AUTHOR]

Published

2023

43. BMPR1A promotes ID2–ZEB1 interaction to suppress excessive endothelial to mesenchymal transition.

Author

Lee, Heon-Woo, Adachi, Takaomi, Pak, Boryeong, Park, Saejeong, Hu, Xiaoyue, Choi, Woosoung, Kowalski, Piotr S, Chang, C Hong, Clapham, Katharine R, Lee, Aram, Papangeli, Irinna, Kim, Jongmin, Han, Orjin, Park, Jihwan, Anderson, Daniel G, Simons, Michael, Jin, Suk-Won, and Chun, Hyung J

Subjects

*TRANSFORMING growth factors-beta, *BONE morphogenetic proteins, *PULMONARY arterial hypertension

Abstract

Aims Components of bone morphogenetic protein (BMP) signalling have been implicated in both pathogenesis of pulmonary arterial hypertension (PAH) and endothelial-mesenchymal transition (EndoMT). In particular, the importance of BMP type 2 receptor in these processes has been extensively analysed. However, the contribution of BMP type 1 receptors (BMPR1s) to the onset of PAH and EndoMT remains poorly understood. BMPR1A, one of BMPR1s, was recently implicated in the pathogenesis of PAH, and was found to be down-regulated in the lungs of PAH patients, neither the downstream mechanism nor its contribution to EndoMT has been described. Therefore, we aim to delineate the role of endothelial BMPR1A in modulating EndoMT and pathogenesis of PAH. Methods and results We find that BMPR1A knockdown in endothelial cells (ECs) induces hallmarks of EndoMT, and deletion of endothelial Bmpr1a in adult mice (Bmpr1aiECKO) leads to development of PAH-like symptoms due to excessive EndoMT. By lineage tracing, we show that endothelial-derived smooth muscle cells are increased in endothelial Bmpr1a -deleted mice. Mechanistically, we identify ZEB1 as a primary target for BMPR1A in this setting; upon BMPR1A activation, ID2 physically interacts and sequesters ZEB1 to attenuate transcription of Tgfbr2 , which in turn lowers the responses of ECs towards transforming growth factor beta (TGFβ) stimulation and prevents excessive EndoMT. In Bmpr1aiECKO mice, administering endothelial targeting lipid nanoparticles containing siRNA against Tgfbr2 effectively ameliorate PAH, reiterating the importance of BMPR1A-ID2/ZEB1-TGFBR2 axis in modulating progression of EndoMT and pathogenesis of PAH. Conclusions We demonstrate that BMPR1A is key to maintain endothelial identity and to prevent excessive EndoMT. We identify BMPR1A-induced interaction between ID2 and ZEB1 is the key regulatory step for onset of EndoMT and pathogenesis of PAH. Our findings indicate that BMPR1A-ID2/ZEB1-TGFBR2 signalling axis could serve as a potential novel therapeutic target for PAH and other EndoMT-related vascular disorders. [ABSTRACT FROM AUTHOR]

Published

2023

44. Is vascular remodelling in patients with chronic heart failure exaggerated?

Author

Pietschner, Robert, Bosch, Agnes, Kannenkeril, Dennis, Striepe, Kristina, Schiffer, Mario, Achenbach, Stephan, Schmieder, Roland E., and Kolwelter, Julie

Subjects

VASCULAR remodeling, HEART failure patients, PULSE wave analysis, CARDIOVASCULAR diseases risk factors, SYSTOLIC blood pressure, CAROTID intima-media thickness, ANKLE brachial index

Abstract

Background: Vascular remodelling of large arteries increases afterload of the left ventricle. The aim of this study was to analyse whether vascular remodelling and function under laboratory and 24‐hour ambulatory conditions is impaired in patients with chronic heart failure (CHF) independently of cardiovascular risk factors. Methods and results: In this monocentric cross‐sectional observational study, 105 patients with CHF and an ejection fraction ≤49% (CHF+) were compared to 118 subjects without CHF (CHF−). After adjustment for age, gender, arterial hypertension, hyperlipidaemia, type 2 diabetes, obesity and smoking, vascular function and structure parameters, as assessed by pulse wave analysis (SphygmoCor) and the UNEX EF device, respectively, between the CHF+ and the CHF− group differed for resting pulse wave velocity (PWV) (P = 0.010), 24‐h ambulatory PWV (P = 0.011), central systolic blood pressure (cSBP) (P = <0.001), 24‐h ambulatory cSBP (P = <0.001), resting central augmentation index (P = 0.002), and brachial intima–media thickness (P = 0.022). In CHF+ patients, higher levels of NT‐proBNP, taken as a marker for the severity of CHF, were related to a higher PWV (r = 0.340, P = <0.001), a higher cSBP (r = 0.292, P = 0.005), and a trend to higher central pulse pressure (cPP) (r = 0.198, P = 0.058), higher 24‐h brachial PP (r = 0.322, P = 0.002), and 24‐h total peripheral resistance (s = 0.227, P = 0.041) after full adjustment for covariates. Conclusions: In CHF+ patients we observed augmented vascular remodelling and functional impairment compared with CHF− patients independently of cardiovascular risk factors, age, and gender, and the extent of vascular remodelling and impairment was related to the severity of CHF. [ABSTRACT FROM AUTHOR]

Published

2023

45. On the mechanisms underlying activation and reversal of high altitude‐induced pulmonary hypertension in humans – Another piece in the pulmonary puzzle.

Author

Berger, Marc Moritz and Bailey, Damian Miles

Subjects

*PULMONARY hypertension, *MOUNTAIN sickness, *VASCULAR remodeling

Abstract

Endothelin, high altitude, hypoxia, hypoxic pulmonary vasoconstriction, nitric oxide, reactive oxygen species, Sherpa, vascular remodelling Global alveolar hypoxia leads to sustained vasoconstriction and consequent elevation in pulmonary vascular resistance (PVR) and pulmonary artery pressure (PAP). Keywords: endothelin; high altitude; hypoxia; hypoxic pulmonary vasoconstriction; nitric oxide; reactive oxygen species; Sherpa; vascular remodelling EN endothelin high altitude hypoxia hypoxic pulmonary vasoconstriction nitric oxide reactive oxygen species Sherpa vascular remodelling 1 4 4 01/03/23 20230101 NES 230101 More than 140 million people live above 2,500 m a.s.l. [Extracted from the article]

Published

2023

46. Rapamycin Improves Vascular Remodelling in a Controlled Rat Model of Monocrotaline-Induced Pulmonary Hypertension.

Author

Sengul, A., Vural, C., Arkan, S., Ozer, C., Bayrak, B. Y., Tas, A., and Altintas, N.

Abstract

Background: Pulmonary arterial hypertension (PAH) is a serious disease characterized by the progressive elevation of the pulmonary arterial resistance, leading to the right ventricular failure and death. Objective: To evaluate the effect of rapamycin (RAPA), a potent cell-cycle inhibitor, on exercise capacity, right ventricular hypertrophy and pulmonary vascular remodelling on rats. Methods: A total of 39 nine-week-old male Wistar rats (160-240 g) were divided into three groups: the control (n = 10), PAH control (n = 15) and PAH-RAPA (n = 14) groups. On the 1st day, 60 mg/kg monocrotaline was injected intraperitoneally to induce PAH in the PAH control group and PAH-RAPA groups. On the 21st day, 3 mg/kg/day RAPA was started orally, and the animals were followed for 35 days. On the 35th day, the exercise capacity of the rats was analysed through a modified forced swimming test. After measuring their right ventricular systolic pressure using an open-chest method, their hearts and lungs were excised and analysed histopathologically for right ventricular hypertrophy and pulmonary vascular remodelling. Results: Rapamycin treatment provided limited and insignificant improvements in exercise capacity, right ventricular systolic pressure and right ventricular hypertrophy of the rats. However, there was significant recovery in the rats' pulmonary artery muscular layer thickness with the RAPA treatment (p < 0.049). On the 35th day, the mortality rate was 0% in the control group, 53.1% in the PAH control group and 42.9% in the PAH-RAPA group. No statistically significant decrease was observed in their mortality rates with the RAPA treatment (p > 0.16); however, a significant recovery was noted in terms of the rats' median life span (p < 0.006). Conclusion: Pulmonary artificial hypertension is a progressive disease that is not curable with current therapies. Rapamycin may have the potential to reverse vascular remodelling and prolong life expectancy in cases of pulmonary hypertension. [ABSTRACT FROM AUTHOR]

Published

2023

47. Transient cerebral ischaemia alters mesenteric arteries in hypertensive rats: Limited reversal despite suberoylanilide hydroxamic acid cerebroprotection.

Author

Díaz-Pérez, Andrea, Lope-Piedrafita, Silvia, Pérez, Belén, Vázquez-Sufuentes, Paula, Rodriguez-Garcia, Maria, Briones, Ana M., Navarro, Xavier, Penas, Clara, and Jiménez-Altayó, Francesc

Subjects

*CEREBRAL edema, *MAGNETIC resonance imaging, *STROKE, *VASCULAR remodeling, *BRAIN damage, *REPERFUSION

Abstract

Stroke induces brain injury, especially severe in hypertensive patients, and elevates mortality rates through non-neurological complications. However, the potential effects of a transient ischaemic episode on the peripheral vasculature of hypertensive individuals remain unclear. We investigated whether transient cerebral ischaemia (90 min)/reperfusion (1 or 8 days) induces alterations in mesenteric resistance artery (MRA) properties in adult male spontaneously hypertensive rats (SHR). In addition, we assessed whether the reported cerebroprotective effects of suberoylanilide hydroxamic acid (SAHA; 50 mg/kg; administered intraperitoneally at 1, 4, or 6 h after reperfusion onset) extend over several days and include beneficial effects on MRAs. Functional and structural properties of MRAs were examined at 1- and 8-days post-stroke. Nuclei distribution, collagen content, and oxidative stress were assessed. Ischaemic brain damage was evaluated longitudinally using magnetic resonance imaging. Following stroke, MRAs from SHR exhibited non-reversible impaired contractile responses to the thromboxane A 2 receptor agonist U46619. Stroke increased the MRA cross-sectional area, wall thickness, and wall/lm ratio due to augmented collagen deposition. These changes were partially sustained 8 days later. SAHA did not improve U46619-induced contractions but mitigated stroke-induced oxidative stress and collagen deposition, preventing MRA remodelling at 24 h of reperfusion. Furthermore, SAHA induced sustained cerebroprotective effects over 8 days, including reduced brain infarct and oedema, and improved neurological scores. However, SAHA had minimal impact on chronic MRA contractile impairments and remodelling. These findings suggest that stroke causes MRA changes in hypertensive subjects. While SAHA treatment offers sustained protection against brain damage, it cannot fully restore MRA alterations. [Display omitted] • Stroke causes thromboxane A 2 dysfunction and hypertrophic remodelling in MRAs. • Vascular impairments persist for at least 8 days post-stroke. • Early SAHA intervention offers acute and prolonged cerebroprotection. • SAHA reduces oxidative stress and collagen-related short-term remodelling. • SAHA does not fully prevent persistent peripheral artery disturbances. [ABSTRACT FROM AUTHOR]

Published

2024

48. A Microsurgical Arteriovenous Malformation Model on Saphenous Vessels in the Rat

Author

Mohammad Walid Al-Smadi, Laszlo Adam Fazekas, Siran Aslan, Brigitta Bernat, Anas Beqain, Mustafa Qais Muhsin Al-Khafaji, Daniel Priksz, Brigitta Orlik, and Norbert Nemeth

Subjects

arteriovenous malformation, arteriovenous shunt, microsurgical model, vascular remodelling, hemodynamics, Biology (General), QH301-705.5

Abstract

Arteriovenous malformation (AVM) is an anomaly of blood vessel formation. Numerous models have been established to understand the nature of AVM. These models have limitations in terms of the diameter of the vessels used and the impact on the circulatory system. Our goal was to establish an AVM model that does not cause prompt and significant hemodynamic and cardiac alterations but is feasible for follow-up of the AVM’s progression. Sixteen female rats were randomly divided into sham-operated and AVM groups. In the AVM group, the saphenous vein and artery were interconnected using microsurgical techniques. The animals were followed up for 12 weeks. Anastomosis patency and the structural and hemodynamic changes of the heart were monitored. The hearts and vessels were histologically analyzed. During the follow-up period, shunts remained unobstructed. Systolic, diastolic, mean arterial pressure, and heart rate values slightly and non-significantly decreased in the AVM group. Echocardiogram results indicated minor systolic function impact, with slight and insignificant changes in aortic pressure and blood velocity, and minimal left ventricular wall enlargement. The small-caliber saphenous AVM model does not cause acute hemodynamic changes. Moderate but progressive alterations and venous dilatation confirmed AVM-like features. The model seems to be suitable for studying further the progression, enlargement, or destabilization of AVM.

Published

2023

49. Interferon-stimulated gene 15 pathway is a novel mediator of endothelial dysfunction and aneurysms development in angiotensin II infused mice through increased oxidative stress.

Author

González-Amor, María, García-Redondo, Ana B, Jorge, Inmaculada, Zalba, Guillermo, Becares, Martina, Ruiz-Rodríguez, María J, Rodríguez, Cristina, Bermeo, Hugo, Rodrigues-Díez, Raquel, Rios, Francisco J, Montezano, Augusto C, Martínez-González, Jose, Vázquez, Jesús, Redondo, Juan Miguel, Touyz, Rhian M, Guerra, Susana, Salaices, Mercedes, and Briones, Ana M

Subjects

*ENDOTHELIUM diseases, *ANGIOTENSIN II, *OXIDATIVE stress, *CAROTID intima-media thickness, *MONONUCLEAR leukocytes

Abstract

Aims Interferon-stimulated gene 15 (ISG15) encodes a ubiquitin-like protein that induces a reversible post-translational modification (ISGylation) and can also be secreted as a free form. ISG15 plays an essential role as host-defence response to microbial infection; however, its contribution to vascular damage associated with hypertension is unknown. Methods and results Bioinformatics identified ISG15 as a mediator of hypertension-associated vascular damage. ISG15 expression positively correlated with systolic and diastolic blood pressure and carotid intima-media thickness in human peripheral blood mononuclear cells. Consistently, Isg15 expression was enhanced in aorta from hypertension models and in angiotensin II (AngII)-treated vascular cells and macrophages. Proteomics revealed differential expression of proteins implicated in cardiovascular function, extracellular matrix and remodelling, and vascular redox state in aorta from AngII-infused ISG15–/– mice. Moreover, ISG15–/– mice were protected against AngII-induced hypertension, vascular stiffness, elastin remodelling, endothelial dysfunction, and expression of inflammatory and oxidative stress markers. Conversely, mice with excessive ISGylation (USP18C61A) show enhanced AngII-induced hypertension, vascular fibrosis, inflammation and reactive oxygen species (ROS) generation along with elastin breaks, aortic dilation, and rupture. Accordingly, human and murine abdominal aortic aneurysms showed augmented ISG15 expression. Mechanistically, ISG15 induces vascular ROS production, while antioxidant treatment prevented ISG15-induced endothelial dysfunction and vascular remodelling. Conclusion ISG15 is a novel mediator of vascular damage in hypertension through oxidative stress and inflammation. [ABSTRACT FROM AUTHOR]

Published

2022

50. Endothelial cells and macrophages as allies in the healthy and diseased brain

Author

Projekt DEAL, European Commission, Denes, Adam, Hansen, Cathrin E., Oezorhan, Uemit, Figuerola, Sara, Vries, Helga E. de, Sorokin, Lydia, Planas, Anna M., Engelhardt, Britta, Schwaninger, Markus, Projekt DEAL, European Commission, Denes, Adam, Hansen, Cathrin E., Oezorhan, Uemit, Figuerola, Sara, Vries, Helga E. de, Sorokin, Lydia, Planas, Anna M., Engelhardt, Britta, and Schwaninger, Markus

Abstract

Diseases of the central nervous system (CNS) are often associated with vascular disturbances or inflammation and frequently both. Consequently, endothelial cells and macrophages are key cellular players that mediate pathology in many CNS diseases. Macrophages in the brain consist of the CNS-associated macrophages (CAMs) [also referred to as border-associated macrophages (BAMs)] and microglia, both of which are close neighbours or even form direct contacts with endothelial cells in microvessels. Recent progress has revealed that different macrophage populations in the CNS and a subset of brain endothelial cells are derived from the same erythromyeloid progenitor cells. Macrophages and endothelial cells share several common features in their life cycle-from invasion into the CNS early during embryonic development and proliferation in the CNS, to their demise. In adults, microglia and CAMs have been implicated in regulating the patency and diameter of vessels, blood flow, the tightness of the blood-brain barrier, the removal of vascular calcification, and the life-time of brain endothelial cells. Conversely, CNS endothelial cells may affect the polarization and activation state of myeloid populations. The molecular mechanisms governing the pas de deux of brain macrophages and endothelial cells are beginning to be deciphered and will be reviewed here.

Published

2024