Literature DB >> 24096612

A novel system for studying mechanical strain waveform-dependent responses in vascular smooth muscle cells.

Jason Lee1, Mitchell Wong, Quentin Smith, Aaron B Baker.   

Abstract

While many studies have examined the effects mechanical forces on vSMCs, there is a limited understanding of how the different arterial strain waveforms that occur in disease and different vascular beds alter vSMC mechanotransduction and phenotype. Here, we present a novel system for applying complex, time-varying strain waveforms to cultured cells and use this system to understand how these waveforms can alter vSMC phenotype and signaling. We have developed a highly adaptable cell culture system that allows the application of mechanical strain to cells in culture and can reproduce the complex dynamic mechanical environment experienced by arterial cells in the body. Using this system, we examined whether the type of applied strain waveform altered phenotypic modulation of vSMCs by mechanical forces. Cells exposed to the brachial waveform had increased phosphorylation of AKT, EGR-1, c-Fos expression and cytoskeletal remodeling in comparison to cells treated with the aortic waveform. In addition, vSMCs exposed to physiological waveforms had adopted a more differentiated phenotype in comparison to those treated with static or sinusoidal cyclic strain, with increased expression of vSMC markers desmin, calponin and SM-22 as well as increased expression of regulatory miRNAs including miR-143, -145 and -221. Taken together, our studies demonstrate the development of a novel system for applying complex, time-varying mechanical forces to cells in culture. In addition, we have shown that physiological strain waveforms have powerful effects on vSMC phenotype.

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Year:  2013        PMID: 24096612      PMCID: PMC3909705          DOI: 10.1039/c3lc50894c

Source DB:  PubMed          Journal:  Lab Chip        ISSN: 1473-0189            Impact factor:   6.799


  45 in total

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4.  Localized elevation of shear stress is related to coronary plaque rupture: a 3-dimensional intravascular ultrasound study with in-vivo color mapping of shear stress distribution.

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8.  Regulation of heparanase expression in coronary artery disease in diabetic, hyperlipidemic swine.

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10.  Endothelial cells provide feedback control for vascular remodeling through a mechanosensitive autocrine TGF-beta signaling pathway.

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  8 in total

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3.  Biomechanical regulation of breast cancer metastasis and progression.

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4.  BEaTS-α an open access 3D printed device for in vitro electromechanical stimulation of human induced pluripotent stem cells.

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Journal:  Sci Rep       Date:  2020-07-09       Impact factor: 4.379

5.  High stretch induces endothelial dysfunction accompanied by oxidative stress and actin remodeling in human saphenous vein endothelial cells.

Authors:  T Girão-Silva; M H Fonseca-Alaniz; J C Ribeiro-Silva; J Lee; N P Patil; L A Dallan; A B Baker; M C Harmsen; J E Krieger; A A Miyakawa
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6.  Syndecan-1 regulates vascular smooth muscle cell phenotype.

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7.  A high throughput screening system for studying the effects of applied mechanical forces on reprogramming factor expression.

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8.  Mechanobiological conditioning of mesenchymal stem cells for enhanced vascular regeneration.

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  8 in total

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