A novel role for CAMKIIß in the regulation of cortical neuron migration: implications for neurodevelopmental disorders.

Perturbation of CaMKIIß expression has been associated with multiple neuropsychiatric diseases, highlighting CaMKIIß as a gene of interest. Yet, in contrast to CaMKIIα, the specific functions of CaMKIIß in the brain remain poorly explored. Here, we reveal a novel function for this CaMKII isoform in vivo during neuronal development. By using in utero electroporation, we show that CaMKIIß is an important regulator of radial migration of projection neurons during cerebral cortex development. Knockdown of CaMKIIß causes accelerated migration of nascent pyramidal neurons, whereas overexpression of CaMKIIß inhibits migration, demonstrating that precise regulation of CaMKIIß expression is required for correct neuronal migration. More precisely, CaMKIIß controls the multipolar-bipolar transition in the intermediate zone and locomotion in the cortical plate through its actin-binding and -bundling activities. In addition, our data indicate that a fine-tuned balance between CaMKIIß and cofilin activities is necessary to ensure proper migration of cortical neurons. Thus, our findings define a novel isoform-specific function for CaMKIIß, demonstrating that CaMKIIß has a major biological function in the developing brain.