2020
DOI: 10.3390/cells9061434
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Mechanical Adaptations of Epithelial Cells on Various Protruded Convex Geometries

Abstract: The shape of epithelial tissue supports physiological functions of organs such as intestinal villi and corneal epithelium. Despite the mounting evidence showing the importance of geometry in tissue microenvironments, the current understanding on how it affects biophysical behaviors of cells is still elusive. Here, we cultured cells on various protruded convex structure such as triangle, square, and circle shape fabricated using two-photon laser lithography and quantitatively analyzed individual cells. Morpholo… Show more

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Cited by 8 publications
(5 citation statements)
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“…Despite numerous studies on the influence of cellular and subcellular-scale topography on cell fate [2][3][4] , few studies have investigated the effect of curvature on collective cell behavior 5,6 , in particular because of the technical limitations encountered to engineer soft culture substrates with curved patterns in a controlled way 7 . It remains unclear in particular whether and how curvatures at scales much larger than cell size could be sensed biologically.…”
Section: Introductionmentioning
confidence: 99%
“…Despite numerous studies on the influence of cellular and subcellular-scale topography on cell fate [2][3][4] , few studies have investigated the effect of curvature on collective cell behavior 5,6 , in particular because of the technical limitations encountered to engineer soft culture substrates with curved patterns in a controlled way 7 . It remains unclear in particular whether and how curvatures at scales much larger than cell size could be sensed biologically.…”
Section: Introductionmentioning
confidence: 99%
“…In this study, Nanoscribe's IP-S was used to fabricate the microstructures. IP-S is a non-cytotoxic resin formulation that has been reported in several publications to be suitable for biological applications [33][34][35][36][37]. As a future step, it would be necessary to extend the findings of this study with a larger sample size to determine the effectiveness of the proposed surface modifications.…”
Section: Discussionmentioning
confidence: 94%
“…For example, compared to 2D substrates, 3D epithelial cells residing in the 3D curved environments more closely resemble the in vivo cell environments and more actively consume oxygen, since increased epithelial cell viability and proliferation have been observed in concave areas in growing epithelia, such as mammary [ 69 ] and renal epithelia. [ 70 ] Another explanation could be that compared to 2D substrates, 3D curvature topography increases surface area to host a higher density of cells for oxygen consumption. It is worth mentioning that in the present study we were able to establish intestinal oxygen gradients simply by reorienting scaffolds in culture without the need for specialized equipment or consumption of large quantities of expensive media.…”
Section: Discussionmentioning
confidence: 99%