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Scripps Research study presents surprising view of brain formation

The discovery of a new mechanism may have implications for a host of diseases

2011-02-10
(Press-News.org) LA JOLLA, CA – Embargoed by the journal Neuron until February 9, 2011, noon, Eastern time – A study from The Scripps Research Institute has unveiled a surprising mechanism that controls brain formation. The findings have implications for understanding a host of diseases, including some forms of mental retardation, epilepsy, schizophrenia, and autism.

The research, led by Scripps Research Professor Ulrich Mueller, was published in the journal Neuron on February 10, 2011.

In the new study, Mueller and colleagues focused on a protein called reelin. They found reelin is a key player in the migration of new nerve cells to the neocortex, the part of the brain responsible for higher-order functions, such as language and movement.

Unexpectedly, the scientists also found reelin affects this migration process independent of glial cells, which often act to guide such nerve cell movement.

A Critical Migration

As the human brain develops, newly formed nerve cells travel from their place of origin to different brain regions. Once they reach their appropriate destination, nerve cells connect to one another to form the intricate circuits and networks responsible for various brain functions. Anything that disrupts the course of this nerve cell migration results in an improperly formed brain—and the consequences are typically devastating.

More than 50 years ago, researchers discovered a type of mutant mouse with a neocortex and cerebellum that were inaccurately organized, affecting the animal's ability to walk normally. Later, researchers discovered that this mouse, called "reeler" because of its reeling gait, was affected by a mutation in a particular gene, dubbed reelin, which encodes a protein produced by nerve cells.

The human counterpart of the gene is mutated in children with lissencephaly—literally "smooth brain"—a condition that results in a brain that lacks its characteristic folds. Reelin mutations have also been identified in children with an abnormally small brain, or microcephaly.

Although these observations indicate reelin must play a key role in proper brain formation, until now no one knew exactly what that role was.

Probing Reelin Function

Since the identification of the reelin gene in 1995, researchers discovered that the corresponding protein is released by certain nerve cells and binds to receptors on other nerve cells. This binding then triggers a cascade of chemical reactions, or a signaling pathway, in the nerve cell. Such signaling pathways eventually produce a change in the target cell; they are one of the ways in which cells respond to stimuli in their environment.

"We knew that reelin binds to several receptors on nerve cells and initiates different signaling pathways, but one question we wanted to ask was 'Do these pathways regulate migration?'" said Mueller. "And if they do, how?"

To start answering these questions, the group combined several technologies that have become available in recent years. The scientists labeled nerve cells in the brains of mouse embryos with fluorescent dyes and then, using special microscopes, watched these cells move in real time in the neocortex of the brain.

In this way, Mueller's team compared the movement of nerve cells in normal mice, with an intact reelin pathway, and mutant mice, in which the reelin signaling pathways had been blocked. The scientists were surprised by what they saw.

Following Cell Tracks

Researchers had long known that newly formed nerve cells crawl along a particular type of cell in the brain, called a glial cell, which acts as a cellular guide for the nerve cells. But in recent years, studies revealed that some nerve cells can find their destination independently of glial direction. These nerve cells grow an arm that reaches out to find the correct path and then the cell's body follows along.

Researchers in the field had assumed that the formation of the neocortex involved the first strategy: glial-directed migration. But through their imaging studies, Mueller and colleagues found that the opposite was true. They discovered that when the reelin pathway is inactivated in nerve cells, these cells no longer migrate to the appropriate spots in the neocortex, as they do in normal mice. However, these nerve cells don't move by following glial guides, but rather by relying on their own devices.

"Reelin does not affect glial-directed migration, but a reelin mutation still messes up brain architecture," said Mueller.

This finding implies that glial-independent migration is much more important to neocortex formation than scientists had envisioned and that reelin somehow controls this process.

Finding Disease Genes

Although the mechanism by which reelin affects migration is not fully understood, Mueller's group has identified some of the molecules reelin "talks" to in order to produce its effect.

Another well-known class of molecules that play a role in brain formation consists of the cadherins—these proteins provide a molecular "glue" for cells to stick to one another as they move. Mueller and colleagues showed that reelin controls the function of cadherins in nerve cells.

Future studies should identify additional players. And, as these new molecules are discovered, Mueller plans to collaborate with geneticists to look for mutations in the corresponding genes in people.

"We might find additional genes involved in schizophrenia and autism," he said. "We already know that some cadherins are involved in autism spectrum disorder."

INFORMATION:

First authors of the paper, "Reelin regulates cadherin function via Dab1/Rap1 to control neuronal migration and lamination in the neocortex," are Santos J. Franco and Isabel Martinez-Garay of Scripps Research. In addition to Mueller, other authors include Cristina Gil-Sanz and Sarah R. Harkins-Perry, also of Scripps Research.

This work was supported by the National Institutes of Health, Generalitat Valenciana, Ministorio de Educacion, the Skaggs Institute for Chemical Biology, and the Dorris Neurscience Center.

About The Scripps Research Institute

The Scripps Research Institute is one of the world's largest independent, non-profit biomedical research organizations, at the forefront of basic biomedical science that seeks to comprehend the most fundamental processes of life. Scripps Research is internationally recognized for its discoveries in immunology, molecular and cellular biology, chemistry, neurosciences, autoimmune, cardiovascular, and infectious diseases, and synthetic vaccine development. An institution that evolved from the Scripps Metabolic Clinic founded by philanthropist Ellen Browning Scripps in 1924, Scripps Research currently employs approximately 3,000 scientists, postdoctoral fellows, scientific and other technicians, doctoral degree graduate students, and administrative and technical support personnel. Headquartered in La Jolla, California, the institute also includes Scripps Florida, whose researchers focus on basic biomedical science, drug discovery, and technology development. Scripps Florida is located in Jupiter, Florida. For more information, see www.scripps.edu .

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[Press-News.org] Scripps Research study presents surprising view of brain formation
The discovery of a new mechanism may have implications for a host of diseases