Van Aelst Lab, CSHL

Fantastic Journey: How Newborn Neurons To Find Their Proper Place In The Adult Brain

ArticlePress release
Current Medical News
Contributed byMaulik P. Purohit MD MPHNov 03, 2017

One of the most hopeful discoveries of modern neuroscience is firm proof that the human brain is not static following birth. Rather, it is continually renewing itself, via a process called postnatal neurogenesis -- literally, the birth of new neurons. It begins not long after birth and continues into old age. There is some evidence that when people respond to depression treatment, be it a pill or talk therapy, it has something to do with the wiring up of new neurons.

For reasons still not understood, only two parts of the human brain receive replenishments of neurons postnatally. One is a section of a tiny seahorse-shaped structure called the hippocampus, central in memory and learning. The other is the olfactory bulb, located in a small patch of tissue inside the nose, which receives signals from the environment and helps make them intelligible so they can serve as a basis for action -- for instance, to recoil from curdled milk or veer from a stinking skunk.

This week in the Journal of Cell Biology, Professor Linda Van Aelst and colleagues at Cold Spring Harbor Laboratory (CSHL) describe for the first time (in mice) how baby neurons -- precursors called neuroblasts, generated from a permanent pocket of stem cells in a brain area called the V-SVZ -- make an incredible journey from their place of birth through a special tunnel called the RMS to their target destination in the olfactory bulb. They travel as far as 8 mm, "a huge distance, when you consider how tiny the mouse brain is," Van Aelst says.

The journey is made possible by two forces, one pulling from the front, the other pushing from behind. A single protein called DOCK7 helps to orchestrate these two steps. Ahead of the newborn neuron's soma, or cell body, is a threadlike projection called a process. It stretches forward through the tunnel, guided by various signals. At the same time, the cell body, lagging behind, is powered forward by the activation of tiny molecular motors that push it from the rear. Multiple cells migrate together, one virtually on top of another, somewhat in the manner of a group of tiny worms inching forward by morphing the shape of their bodies.

The Takeaway: Neuroscientists have clarified the mechanism used by newly born neurons in mice to migrate to very specific areas in the olfactory bulb. The bulb must be replenished periodically through life to work properly. Knowing how the replenishment works is part of a much broader effort that aims to enhance natural neurogenesis to repair damaged tissue or treat brain disorders.


Materials provided by Cold Spring Harbor LaboratoryNote: Content may be edited for style and length.

Disclaimer: DoveMed is not responsible for the accuracy of the adapted version of news releases posted to DoveMed by contributing universities and institutions.

References:

Shinichi Nakamuta, Yu-Ting Yang, Chia-Lin Wang, Nicholas B. Gallo, Jia-Ray Yu, Yilin Tai, Linda Van Aelst. (2017). Dual role for DOCK7 in tangential migration of interneuron precursors in the postnatal forebrainThe Journal of Cell Biology. DOI: 10.1083/jcb.201704157

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Maulik P. Purohit MD MPH

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