Blood vessels instruct brain development
Function and homeostasis of the brain relies on communication between its complex network of cells. Consequently, development of the different groups of cells in the brain needs to be coordinated in time and space. The group of Amparo Acker-Palmer (Buchmann Institute of Molecular Life Sciences and the Institute of Cell Biology and Neuroscience, Goethe University) reported in the last issue of Science a novel function of blood vessels in orchestrating the proper development of neuronal cellular networks in the brain.
It is known that vascularization of the brain is necessary to provide neurons and glial cells with oxygen and nutrients important for the metabolic support of neuronal networks. “For several years, we knew that the vascular and nervous systems used very similar vocabulary to develop and function, and therefore, we postulated that such a common vocabulary could be used to ensure that both systems co-developed in synchronicity and communicated with each other for proper brain function,” explained Acker-Palmer.
To study the communication of the blood vessels and neuronal cells, the Acker-Palmer group focused on different aspects of neurovascular development. First, they used the vascularization of the mouse retina as a well-established method to investigate molecules important for vascular growth. Using this method, they discovered that a molecule, Reelin, which was previously shown to influence neuronal migration, could independently influence the growth of vessels using a very similar signaling mechanism by activating the ApoER2 receptor and the Dab1 protein expressed in endothelial cells.
The cerebral cortex plays a key role in all basic functions such as memory, attention, perception, language and consciousness. Neuronal cells in the cerebral cortex are organized in layers, and this organization is established during embryonic development. “We decided to eliminate exclusively the Reelin signaling cascade from the endothelial cells and see how this influenced the arrangement of neurons and glial cells in the cerebral cortex,” said Acker-Palmer. Using this system, the scientists revealed the astonishing finding that endothelial cells instruct neurons as to their correct positioning in the cerebral cortex. Mechanistically, they could show that endothelial cells secrete laminins that are deposited in the extracellular matrix surrounding the vessels to anchor the glial cell fibers that are necessary for proper neuronal migration and for the proper development of the cerebral cortex.
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