Simplified Murine 3D Neuronal Cultures for Investigating Neuronal Activity and Neurodegeneration.
Steven J CollinsCathryn L HaighPublished in: Cell biochemistry and biophysics (2016)
The ability to model brain tissue in three-dimensions offers new potential for elucidating functional cellular interactions and corruption of such functions during pathogenesis. Many protocols now exist for growing neurones in three-dimensions and these vary in complexity and cost. Herein, we describe a straight-forward method for generating three-dimensional, terminally differentiated central nervous system cultures from adult murine neural stem cells. The protocol requires no specialist equipment, is not labour intensive or expensive and produces mature cultures within 10 days that can survive beyond a month. Populations of functional glutamatergic neurones could be identified within cultures. Additionally, the three dimensional neuronal cultures can be used to investigate tissue changes during the development of neurodegenerative disease where demonstration of hallmark features, such as plaque generation, has not previously been possible using two-dimensional cultures of neuronal cells. Using a prion model of acquired neurodegenerative disease, biochemical changes indicative of prion pathology were induced within 2-3 weeks in the three dimensional cultures. Our findings show that tissue differentiated in this simplified three dimensional culture model is physiologically competent to model central nervous system cellular behaviour as well as manifest the functional failures and pathological changes associated with neurodegenerative disease.