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eLife ◽  
2022 ◽  
Vol 11 ◽  
Author(s):  
Darian Williams ◽  
Marwa Mahmoud ◽  
Renfa Liu ◽  
Aitor Andueza ◽  
Sandeep Kumar ◽  
...  

Atherosclerosis preferentially occurs in arterial regions exposed to disturbed blood flow (d-flow), while regions exposed to stable flow (s-flow) are protected. The proatherogenic and atheroprotective effects of d-flow and s-flow are mediated in part by the global changes in endothelial cell gene expression, which regulates endothelial dysfunction, inflammation, and atherosclerosis. Previously, we identified Kallikrein-Related Peptidase 10 (Klk10, a secreted serine protease) as a flow-sensitive gene in mouse arterial endothelial cells, but its role in endothelial biology and atherosclerosis was unknown. Here, we show that KLK10 is upregulated under s-flow conditions and downregulated under d-flow conditions using in vivo& mouse models and in vitro studies with cultured endothelial cells (ECs). Single-cell RNA sequencing (scRNAseq) and scATAC sequencing (scATACseq) study using the partial carotid ligation mouse model showed flow-regulated Klk10 expression at the epigenomic and transcription levels. Functionally, KLK10 protected against d-flow-induced permeability dysfunction and inflammation in human artery ECs (HAECs), as determined by NFkB activation, expression of vascular cell adhesion molecule 1 (VCAM1) and intracellular adhesion molecule 1 (ICAM1), and monocyte adhesion. Further, treatment of mice in vivo with rKLK10 decreased arterial endothelial inflammation in d-flow regions. Additionally, rKLK10 injection or ultrasound-mediated transfection of Klk10-expressing plasmids inhibited atherosclerosis in Apoe-/- mice. Moreover, KLK10 expression was significantly reduced in human coronary arteries with advanced atherosclerotic plaques compared to those with less severe plaques. KLK10 is a flow-sensitive endothelial protein that serves as an anti-inflammatory, barrier-protective, and anti-atherogenic factor.


Micromachines ◽  
2021 ◽  
Vol 12 (12) ◽  
pp. 1528
Author(s):  
Minkyung Cho ◽  
Je-Kyun Park

Inflammation and the immune response in atherosclerosis are complex processes involving local hemodynamics, the interaction of dysfunctional cells, and various pathological environments. Here, a modular multichannel system that mimics the human artery to demonstrate stenosis and inflammation and to study physical and chemical effects on biomimetic artery models is presented. Smooth muscle cells and endothelial cells were cocultured in the wrinkled surface in vivo-like circular channels to recapitulate the artery. An artery-mimicking multichannel module comprised four channels for the fabrication of coculture models and assigned various conditions for analysis to each model simultaneously. The manipulation became reproducible and stable through modularization, and each module could be replaced according to analytical purposes. A chamber module for culture was replaced with a microfluidic concentration gradient generator (CGG) module to achieve the cellular state of inflamed lesions by providing tumor necrosis factor (TNF)-α, in addition to the stenosis structure by tuning the channel geometry. Different TNF-α doses were administered in each channel by the CGG module to create functional inflammation models under various conditions. Through the tunable channel geometry and the microfluidic interfacing, this system has the potential to be used for further comprehensive research on vascular diseases such as atherosclerosis and thrombosis.


2021 ◽  
pp. 096032712110416
Author(s):  
Senyan Wu ◽  
Wei Lu ◽  
Guobing Cheng ◽  
Jiawen Wu ◽  
Sheng Liao ◽  
...  

Background Death-associated protein kinase (DAPK1) is one of the positive regulators of apoptosis, and it is widely involved in apoptosis induced by multiple pathways. We examined that the function of DAPK1 in Clinical treatment of arterial aneurysm and its underlying mechanisms. Arterial aneurysm is a common cerebrovascular disease with high disability and fatality rate. Objectives Male C57BL/6 mice or DAPK1−/− mice were injected with 50 mg/kg pentobarbital sodium and then were injected with angiotensin II (AngII) infusion for vivo model. hASMCs (Human artery smooth muscle cell) were treated with murine recombinant IL-6 (20  ng ml−1; Cell Signaling) for vitro model. Results DAPK1 gene, mRNA expression, and protein expression were induced in mice of arterial aneurysm. DAPK1 mRNA expression was increased and Area Under Curve was 0.9075 in patients with arterial aneurysm. Knockout of DAPK1 decreased inflammation and vascular injury in mice model of arterial aneurysm. Beclin1/NLRP3 (NACHT, LRR, and PYD domains-containing protein 3) signal pathway is a critical downstream effector of DAPK1 by TAP production. The regulation of Beclin1 participated in the effects of DAPK1 on inflammation of arterial aneurysm by ATP-dependent NLRP3 inflammasome. The regulation of NLRP3 participated in the effects of DAPK1 on inflammation of arterial aneurysm. Conclusion Collectively, our data indicated that DAPK1 may be a potential biomarker for arterial aneurysm in clinical treatment and activated inflammation levels in arterial aneurysm through NLRP3 inflammasome by Beclin1. DAPK1 might be a key pathogenic event underlying excess inflammation of arterial aneurysm.


2021 ◽  
Author(s):  
Darian Williams ◽  
Marwa Mahmoud ◽  
Renfa Liu ◽  
Aitor Andueza ◽  
Sandeep Kumar ◽  
...  

Introduction: Atherosclerosis preferentially occurs in arterial regions exposed to disturbed blood flow (dflow), while regions exposed to stable flow (s-flow) are protected. The proatherogenic and atheroprotective effects of d-flow and s-flow are mediated in part by the global changes in endothelial cell gene expression, which regulates endothelial dysfunction, inflammation, and atherosclerosis. Previously, we identified Kallikrein-Related Peptidase 10 (KLK10, a secreted serine protease) as a flow-sensitive gene in arterial endothelial cells, but its role in endothelial biology and atherosclerosis was unknown. Methods and Results: Here, we show that KLK10 is upregulated under s-flow conditions and downregulated under d-flow conditions using in vivo mouse models and in vitro studies with cultured endothelial cells (ECs). Single-cell RNA sequencing (scRNAseq) and scATAC sequencing (scATACseq) study using the partial carotid ligation mouse model showed flow-regulated KLK10 expression at the epigenomic and transcription levels. Functionally, KLK10 protected against d-flow-induced inflammation and permeability dysfunction in human artery ECs (HAECs). Further, treatment of mice in vivo with rKLK10 decreased arterial endothelial inflammation in d-flow regions. Additionally, rKLK10 injection or ultrasound-mediated transfection of KLK10- expressing plasmids inhibited atherosclerosis in ApoE-/- mice. Studies using pharmacological inhibitors and siRNAs revealed that the anti-inflammatory effects of KLK10 were mediated by a Protease Activated Receptors (PAR1/2)-dependent manner. However, unexpectedly, KLK10 did not cleave the PARs. Through a proteomics study, we identified HTRA1 (High-temperature requirement A serine peptidase 1), which bound and cleaved KLK10. Further, siRNA knockdown of HTRA1 prevented KLK10's anti-inflammatory and barrier protective function in HAECs, suggesting that HTRA1 regulates KLK10 function. Moreover, KLK10 expression was significantly reduced in human coronary arteries with advanced atherosclerotic plaques compared to those with less severe plaques. Conclusion: KLK10 is a flow-sensitive endothelial protein and, in collaboration with HTRA1, serves as an anti-inflammatory, barrier-protective, and anti-atherogenic factor.


2021 ◽  
Vol 22 (10) ◽  
pp. 5188
Author(s):  
Samuel Bonnet ◽  
Geoffrey Prévot ◽  
Stéphane Mornet ◽  
Marie-Josée Jacobin-Valat ◽  
Yannick Mousli ◽  
...  

Atherosclerosis is at the onset of the cardiovascular diseases that are among the leading causes of death worldwide. Currently, high-risk plaques, also called vulnerable atheromatous plaques, remain often undiagnosed until the occurrence of severe complications, such as stroke or myocardial infarction. Molecular imaging agents that target high-risk atheromatous lesions could greatly improve the diagnosis of atherosclerosis by identifying sites of high disease activity. Moreover, a “theranostic approach” that combines molecular imaging agents (for diagnosis) and therapeutic molecules would be of great value for the local management of atheromatous plaques. The aim of this study was to develop and characterize an innovative theranostic tool for atherosclerosis. We engineered oil-in-water nano-emulsions (NEs) loaded with superparamagnetic iron oxide (SPIO) nanoparticles for magnetic resonance imaging (MRI) purposes. Dynamic MRI showed that NE-SPIO nanoparticles decorated with a polyethylene glycol (PEG) layer reduced their liver uptake and extended their half-life. Next, the NE-SPIO-PEG formulation was functionalized with a fully human scFv-Fc antibody (P3) recognizing galectin 3, an atherosclerosis biomarker. The P3-functionalized formulation targeted atheromatous plaques, as demonstrated in an immunohistochemistry analyses of mouse aorta and human artery sections and in an Apoe−/− mouse model of atherosclerosis. Moreover, the formulation was loaded with SPIO nanoparticles and/or alpha-tocopherol to be used as a theranostic tool for atherosclerosis imaging (SPIO) and for delivery of drugs that reduce oxidation (here, alpha-tocopherol) in atheromatous plaques. This study paves the way to non-invasive targeted imaging of atherosclerosis and synergistic therapeutic applications.


Biomedicines ◽  
2021 ◽  
Vol 9 (4) ◽  
pp. 439
Author(s):  
Katrine T. Callesen ◽  
Alma Yuste-Montalvo ◽  
Lars K. Poulsen ◽  
Bettina M. Jensen ◽  
Vanesa Esteban

Human anaphylactic reactions largely involve an increase in vascular permeability, which is mainly controlled by endothelial cells (ECs). Due to the acute and serious nature of human anaphylaxis, in vivo studies of blood vessels must be replaced or supplemented with in vitro models. Therefore, we used a macromolecular tracer assay (MMTA) to investigate the EC permeability of three phenotypes of human ECs: artery (HAECs), vein (HSVECs) and microvessels from lung (HMLECs). ECs were stimulated with two fast-acting anaphylactic mediators (histamine and platelet-activating factor (PAF)) and one longer-lasting mediator (thrombin). At steady-state conditions, HSVEC monolayers were the most permeable and HMLEC the least (15.8% and 8.3% after 60 min, respectively). No response was found in ECs from artery or vein to any stimuli. ECs from microvessels reacted to stimulation with thrombin and also demonstrated a tendency of increased permeability for PAF. There was no reaction for histamine. This was not caused by missing receptor expression, as all three EC phenotypes expressed receptors for both PAF and histamine. The scarce response to fast-acting mediators illustrates that the MMTA is not suitable for investigating EC permeability to anaphylactic mediators.


Author(s):  
Xiaochun Lei ◽  
Yi Ding ◽  
Ye Tian ◽  
Peng Ding

IntroductionHsa_circ_0054633 has been found to be elevated in the blood of coronary artery disease (CAD) patients. However, the molecular mechanism and the role of hsa_circ_0054633 in the pathogenesis of CAD have not been reported in detail.Material and methodsThe expression of hsa_circ_0054633, microRNA (miR)-107 and thioredoxin-interacting protein (TXNIP) mRNA was measured using quantitative real-time polymerase chain reaction. Human artery vascular smooth muscle cell (HA-VSMC) proliferation, cell cycle, and migration were detected by cell counting kit-8 assay, flow cytometry and transwell assay, respectively. The generation of reactive oxygen species (ROS) was analyzed by dichlorofluorescein diacetate (DCFH-DA) assay. Western blot was utilized to determine the levels of proliferating cell nuclear antigen (PCNA), cyclin D1, matrix metallopeptidase 9 (MMP-9), Mn-superoxide dismutase (SOD2) and TXNIP protein. The interaction between miR-107 and hsa_circ_0054633 or TXNIP was confirmed by dual-luciferase reporter, RNA immunoprecipitation assay or pull-down assay.ResultsHsa_circ_0054633 was elevated in the plasma of CAD patients, and might be a potential blood biomarker for CAD prediction. Hsa_circ_0054633 silencing reversed PDGF-BB-induced promotion on HA-VSMC proliferation, cell cycle, migration and ROS production. MiR-107 directly interacted with hsa_circ_0054633 and TXNIP, and hsa_circ_0054633 regulated TXNIP expression by sponging miR-107. Besides, rescue assay indicated that the action of hsa_circ_0054633 silencing on PDGF-BB-treated HA-VSMCs could be attenuated by miR-107 inhibition or TXNIP overexpression, respectively.ConclusionsHsa_circ_0054633 knockdown protected HA-VSMCs against PDGF-BB-induced dysfunction through regulating miR-107/TXNIP axis, suggesting a potential therapeutic target for coronary atherosclerosis.


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