Serum-free culture of rat post-natal and fetal brainstem neurons.

Serum-free medium is essential for cell culture studies in which complete control of the environment is required. Primary culture of post-natal brainstem neurons in defined medium has not been described in the literature, and successful culture of primary brainstem neurons is typically restricted to embryonic ages E14-E18. This study describes a method for culture of fetal and post-natal brainstem neurons using a serum-free culture medium. The culture system is based on Neurobasal medium supplemented with antioxidant-rich B27. Media and supplements are commercially available products from Life Technologies. Neuron survival was optimized by replacing glutamine with GlutaMaxI, by matching osmolality with neuronal age, and by using Hibernate medium to increase neuron survival during tissue dissociation. Fetal E14, E16, E20, and post-natal P3 and P6 cultures were examined after 4, 7, and 9 days in culture. Neuron and glial cells present in the cultures were identified using immunocytochemistry with antibodies raised against microtubule-associated protein 2 (MAP2) and glial fibrillary acidic protein (GFAP), respectively. Fetal E14 cultures had more bipolar neurons than multipolar neurons compared with developmentally older P6 cultures. Early fetal cultures had a higher percentage of neurons than late fetal and early post-natal cultures. Neuron survival was similar between 4 and 9 days in culture for all age groups tested. This is the first reliable, defined culture medium that supports brainstem neurons from late fetal and early post-natal stages of the rat for up to 6 days post-partum.