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[Annals of Biomedical Engineering] Phenotype Transformation of Aortic Valve Interstitial Cells Due t


Abstract:

Despite valvular heart diseases constituting a significant medical problem, the acquisition of information describing their pathophysiology remains difficult. Due to valvular size, role and location within the body, there is a need for in vitro systems that can recapitulate disease onset and progression. This study combines the development of an in vitro model and its application in the mechanical stimulation of valvular cell transformation. Specifically, porcine aortic valvular interstitial cells (PAVIC) were cultured on polydimethylsiloxane microfluidic devices with or without exposure to shear stresses. Mechanobiological responses of valvular interstitial cells were evaluated at shear stresses ranging from 0 to 4.26 dyn/cm2. When flow rates were higher than 0.78 dyn/cm2, cells elongated and aligned with the flow direction. In addition, we found that shear stress enhanced the formation of focal adhesions and up-regulated PAVIC transformation, assessed by increased expression of α-smooth muscle actin and transforming growth factor β. This study reveals a link between the action of shear forces, cell phenotype transformation and focal adhesion formation. This constitutes the first step towards the development of co-cultures (interstitial-endothelial cells) on organ-on-a-chip devices, which will enable studies of the signaling pathways regulating force-induced valvular degeneration in microtissues and potential discovery of valvular degeneration therapies.

Xinmei WangJoohyung LeeMir AliJungkyu KimCarla M. R. LacerdaEmail author Article First Online: 15 June 2017 Received: 02 May 2017Accepted: 08 June 2017 DOI: 10.1007/s10439-017-1871-z Cite this article as: Wang, X., Lee, J., Ali, M. et al. Ann Biomed Eng (2017). doi:10.1007/s10439-017-1871-z

Link: https://link.springer.com/article/10.1007%2Fs10439-017-1871-z

#06222017 #organonachip

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