Laboratoire des Interactions Moléculaires et Réactivité Chimique et Photochimique
UMR 5623

A new gelling molecule for growing neurons in 3D

A multidisciplinary team of researchers from the laboratories IMRCP, ToNIC and LAAS has developed a hydrogel that can grow, develop and differentiate neural stem cells. This biomaterial could provide new paths for the development of in vitro cellular models of brain tissue or of in vivo tissue reconstruction. This work is published in ACS Applied Materials & Interfaces on May 14, 2018.

Although we know how to culture cells on a two-dimensional surface, that is not representative of the actual cell environment in a live organism. In brain tissue, cells are organized and interact in three dimensions in a soft structure. The researchers’ main goal was to imitate this tissue as closely as possible. They developed a hydrogel that meets suitable criteria for permeability, rigidity and biocompatibility; on that, they cultured human neural stem cells1.

N-heptyl-galactonamide is a new molecule synthesized by these scientists, which is part of a family of gelling agents that usually produces unstable gels. It is biocompatible, has a very simple structure, and can be made quickly, so has many advantages. By working on the parameters for forming the gel, the researchers from the IDeAS team obtained a stable hydrogel with very low density and very low rigidity. Because of that, neural stem cells can penetrate and develop in three dimensions in the hydrogel. It also has a network composed of different types of fibers, some straight and rigid, others curved and flexible. This diversity allows neurons to develop a network of short- and long-distance connections like those in brain tissue.

This new biomaterial could therefore lead to the development of three-dimensional brain tissue models that function in a manner approaching in vivo conditions. In the long run, it could be used to evaluate the effect of a medicine or to enable cells to be transplanted with their matrix to repair brain damage.

1 Neural stem cells came from patient biopsies (CHU Toulouse – Pôle Neurosciences). These cells are capable of differentiating into neurons and glial cells, the main types of cells in brain tissue.

picture caption: cells nested in the fibers of the N-heptyl-galactonamide molecular gel. The cells are round and green. Straight, rigid fibers are pink. Curved, flexible fibers are green. © Anaïs Chalard (IMRCP) – Laurence Vaysse (ToNIC) – Brice Ronsin et Stéphanie Bosch (CBI-LITC-TRI)

To know more:
Simple synthetic molecular hydrogels from self-assembling alkylgalactonamides as scaffold for 3D neuronal cell growth, Anaïs Chalard, Laurence Vaysse, Pierre Joseph, Laurent Malaquin, Sandrine Souleille, Barbara Lonetti, Jean-Christophe Sol, Isabelle Loubinoux, Juliette Fitremann, ACS Applied Materials & Interfaces, 2018

2018 IMRCP