Engineering Organized Epithelium using Nanogrooved Topography in a Gelatin Hydrogel

Soleas, John

27 November 2012

Tracheal epithelium is organized along two axes: apicobasal, seen through apical ciliogenesis, and planar seen through organized ciliary beating, which moves mucus out of the airway. Diseased patients with affected ciliary motility have serious chronic respiratory infections. The standard method to construct epithelium is through air liquid interface culture which creates apicobasal polarization, not planar organization. Nanogrooved surface topography created in diffusible substrates for use in air liquid interface culture will induce planar organization of the cytoskeleton. We have created a nanogrooved gelatin device which allows basal nutrient diffusion. Multiple epithelial cells have been found to align in the direction of the nanogrooves in both sparse and confluent conditions. This device is also congruent with ALI culture as seen through formation of tight junctions and ciliogenesis. Thus, we have created nanogrooved surface topography in a diffusible substrate that induces planar alignment of epithelial cells and cytoskeleton.

epithelial tissue engineering

topography

airway epithelium

epithelium

0379

0541

Engineering Organized Epithelium using Nanogrooved Topography in a Gelatin Hydrogel

Soleas, John

27 November 2012

Tracheal epithelium is organized along two axes: apicobasal, seen through apical ciliogenesis, and planar seen through organized ciliary beating, which moves mucus out of the airway. Diseased patients with affected ciliary motility have serious chronic respiratory infections. The standard method to construct epithelium is through air liquid interface culture which creates apicobasal polarization, not planar organization. Nanogrooved surface topography created in diffusible substrates for use in air liquid interface culture will induce planar organization of the cytoskeleton. We have created a nanogrooved gelatin device which allows basal nutrient diffusion. Multiple epithelial cells have been found to align in the direction of the nanogrooves in both sparse and confluent conditions. This device is also congruent with ALI culture as seen through formation of tight junctions and ciliogenesis. Thus, we have created nanogrooved surface topography in a diffusible substrate that induces planar alignment of epithelial cells and cytoskeleton.

epithelial tissue engineering

topography

airway epithelium

epithelium

0379

0541

Epithelium: The lightweight, customizable epithelial tissue simulator

Drag, Melvyn I.

29 May 2015

No description available.

Biology

Computer Science

Mathematics

parallel computing

epithelial tissue

Dynamics of cell contacts during cell intercalation in epithelial tissue elongation of Drosophila embryos

Kong, Deqing

20 September 2017

No description available.

570

Drosophila

Germ-band extension

epithelial tissue elongation

cell intercalation

T1 transition

E-Cadherin

xiantuan (xit)

N-glycosylation

mechanotransduction

Biologie (PPN619462639)

Effects of curvature on epithelial tissue - Coordinated rotational movement and other spatiotemporal arrangements

Happel, L., Wenzel, D., Voigt, A.

16 May 2024

Coordinated movements of epithelial tissue are linked with active matter processes. We here consider the influence of curvature on the spatiotemporal arrangements and the shapes of the cells. The cells are represented by a multiphase field model which is defined on the surface of a sphere. Besides the classical solid and liquid phases, which depend on the curvature of the sphere, on mechanical properties of the cells and the strength of activity, we identify a phase of global rotation. This rotation provides a coordinated cellular movement which can be linked to tissue morphogenesis. This investigation on a sphere is a first step to investigate the delicate interplay between topological constraints, geometric properties and collective motion. Besides the rotational state we also analyse positional defects, identify global nematic order and study the associated orientational defects.

info:eu-repo/classification/ddc/530

ddc:530