Ulloa L, Díez-Guerra F J, Avila J, Díaz-Nido J
Centro de Biología Molecular (CSIC-UAM), Facultad de Ciencias, Universidad Autónoma, Madrid, Spain.
Neuroscience. 1994 Jul;61(2):211-23. doi: 10.1016/0306-4522(94)90225-9.
The development and plasticity of axons and dendrites in mammalian neurons may depend on the presence and phosphorylation state of cytoskeletal proteins, including certain microtubule-associated proteins. One of these proteins, microtubule-associated protein 1B, is modified by different protein kinases, which give rise to two major types of phosphorylated isoforms. The distribution of these isoforms in cultured hippocampal neurons has been studied using antibodies to specific phosphorylation-sensitive epitopes. Mode I-phosphorylated MAP1B is largely restricted to developing axonal processes, particularly at their distal regions including their growth cones where no mode I-dephosphorylated MAP1B is present. Axonal maturation is accompanied by dephosphorylation of MAP1B at mode I sites. Thus, mode I-phosphorylated MAP1B may be a marker for axonal growth. In contrast, mode II-phosphorylated MAP1B is abundant in the axonal and somatodendritic compartments, and no increased dephosphorylation occurs during maturation. These results are compatible with a role for the mode I phosphorylation of MAP1B (which might be catalysed by proline-directed protein kinases) in supporting a rapid axonal-specific growth mechanism and a more general role for the mode II phosphorylation of MAP1B (which seems to be catalysed by casein kinase II) in controlling axonal and dendritic growth and remodeling.
哺乳动物神经元轴突和树突的发育及可塑性可能取决于细胞骨架蛋白的存在和磷酸化状态,其中包括某些微管相关蛋白。这些蛋白之一,微管相关蛋白1B,会被不同的蛋白激酶修饰,从而产生两种主要类型的磷酸化异构体。利用针对特定磷酸化敏感表位的抗体,对这些异构体在培养的海马神经元中的分布进行了研究。I型磷酸化的MAP1B主要局限于正在发育的轴突过程,特别是在其远端区域,包括生长锥,在这些区域不存在I型去磷酸化的MAP1B。轴突成熟伴随着MAP1B在I型位点的去磷酸化。因此,I型磷酸化的MAP1B可能是轴突生长的标志物。相比之下,II型磷酸化的MAP1B在轴突和胞体树突区室中含量丰富,在成熟过程中去磷酸化没有增加。这些结果与MAP1B的I型磷酸化(可能由脯氨酸定向蛋白激酶催化)在支持快速轴突特异性生长机制中的作用以及MAP1B的II型磷酸化(似乎由酪蛋白激酶II催化)在控制轴突和树突生长及重塑中的更普遍作用相一致。
