Study shows how organs acquire very complex yet stable shapes

Researchers from the Department of Cellular Biology at the University of Seville and Seville Institute of Biomedicine (IBiS) have shown that epithelial cells, which are those that cover the surfaces of many organs, adopt a new, previously undescribed geometric shape, the scutoid, so that tissue can curve. This finding, which has just been published in the review Nature Communications, allows organ to acquire very complex yet very stable shapes. The experts state that these new and beautiful shapes, scutoids, are the solution that nature has found to fold and curve the epithelia.

"The epithelial cells are the "construction blocks" with which an organism is formed. They are like 'pieces of Tente or Lego from which animals are made'. The epithelia form structures with multiple functions like forming a barrier against infections or absorbing nutrients. In this way, during the development of an embryo, it changes from a simple structure formed from only a handful of cells to an animal with very complex organs. This process doesn't only occur because of the growth of the organism, but also because the epithelial cells start 'moving and joining together' to organize themselves correctly and give the organs their final shape", explains the University of Seville Biology faculty teacher Luisma Escudero.

Until now, these "blocks" were represented as being prism-shaped or being like truncated pyramids. However, upon examining epithelial curves in laboratory samples, the researchers found evidence that these real cells adopt other more complex shapes. "This is due to the fact that when tissue curves it tends to minimize energy, to be more stable, and for that reason our biophysical data indicates that what these cells do is adopt an scutoid shape", adds the researcher.

An scutoid is a solid geometric shape, like a cube or a pyramid, which had not been described until now. The epithelial cells adopt this form when the tissue curves, giving it a more stable structure. It could be said that they look like 'twisted prisms'.

From basic research to applied science

This discovery is included within basic science, at the interface between biology, mathematics and physics. However, this type of research is necessary for biomedicine. Specifically, this study opens the door to understanding how organs are formed during their development and what might be missing in some diseases in which this process is altered.

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