Expression of microtubule-associated proteins during the early stages of neurite extension by brain neurons cultured in a defined medium.

Immunoblotting analysis was used to identify the microtubule-associated proteins (MAPs) present in cultures of mouse brain neurons. Polyclonal antibodies were raised against the two main adult brain MAPs, i.e., MAP2 (300 kDa) and tau (60-70 kDa). Whatever the stage of the culture, which was performed in a defined medium (3 or 6 days), the anti-MAP2 serum detected several high-molecular-weight components (including MAP2) and an entity with 62-65 kDa. Anti-tau revealed essentially a major peak of 48 kDa (young tau) but also slightly cross-reacted with the 62-65 kDa entity. During the culture period (0-6 days) the cells developed progressively a dense neuritic network; the concentration of the different MAPs increased in parallel but at different rates depending on the different species. The increase in concentration of the high-molecular-weight components occurred before that of 48-kDa tau. This suggests that high-molecular-weight MAPs and 48-kDa tau might be involved respectively in the initiation and elongation of neurites. In contrast, and since the main developmental changes in tau composition seen in vivo did not occur during the time course of the culture, this transition might be related to later events of neuronal differentiation.