A neural extracellular matrix-based method for in vitro hippocampal neuron culture and dopaminergic differentiation of neural stem cells
Ikusi/ Ireki
Data
2013Egilea
García Parra, Patricia
Maroto, Marcos
Cavaliere, Fabio
Naldaiz Gastesi, Neia
Álava, José I.
García, Antonio G.
López de Munain Arregui, Adolfo José
BMC Neuroscience 14(48) : (2013)
Laburpena
Background: The ability to recreate an optimal cellular microenvironment is critical to understand neuronal
behavior and functionality in vitro. An organized neural extracellular matrix (nECM) promotes neural cell adhesion,
proliferation and differentiation. Here, we expanded previous observations on the ability of nECM to support in vitro
neuronal differentiation, with the following goals: (i) to recreate complex neuronal networks of embryonic rat
hippocampal cells, and (ii) to achieve improved levels of dopaminergic differentiation of subventricular zone (SVZ)
neural progenitor cells.
Methods: Hippocampal cells from E18 rat embryos were seeded on PLL- and nECM-coated substrates. Neurosphere
cultures were prepared from the SVZ of P4-P7 rat pups, and differentiation of neurospheres assayed on PLL- and
nECM-coated substrates.
Results: When seeded on nECM-coated substrates, both hippocampal cells and SVZ progenitor cells showed neural expression patterns that were similar to their poly-L-lysine-seeded counterparts. However, nECM-based cultures of both hippocampal neurons and SVZ progenitor cells could be maintained for longer times as compared to poly-L-lysine-based cultures. As a result, nECM-based cultures gave rise to a more branched neurite arborization of hippocampal neurons.
Interestingly, the prolonged differentiation time of SVZ progenitor cells in nECM allowed us to obtain a purer population
of dopaminergic neurons.
Conclusions: We conclude that nECM-based coating is an efficient substrate to culture neural cells at different stages of
differentiation. In addition, neural ECM-coated substrates increased neuronal survival and neuronal differentiation
efficiency as compared to cationic polymers such as poly-L-lysine.