Thursday, December 30, 2010

THE BRAIN: LIGHT-CONTROLLED NEO-NEURO



Researchers at the Institut Pasteur in association with the CNRS have just shown, in an experimental model, that newly formed neurons in the adult brain can be stimulated by light.

A novel technique associating optical and genetic tools allows neurobiologists to render neo-neurons photo-excitable. For the first time they have prompted, observed, and specifically recorded the activity of these new nerve cells in the olfactory system. Using this technique the scientists have revealed the nature of signals emitted from new neurons across neuronal circuits in the brain. This work represents an essential step towards better understanding the role of new nerve cells and in developing therapeutic applications, most notably in the realm of neurodegenerative diseases.

Pierre-Marie Lledo and his team in the Perception and Memory unit at the Institut Pasteur (CNRS, URA 2182) have just shown, for the first time in an animal model, the possibility of using light to stimulate and specifically study new neurons which form in the adult brain. Until now the existing methods of stimulation did not permit this. Electrical stimulation affects all cells without discrimination and chemical stimulation concerns only neurons mature enough to have surface receptors for active molecules.

By introducing and inducing expression of photo-sensitive proteins in new neurons, the scientists have been able to control their activity with the use of luminescent flashes. Using this technique, researchers at the Institut Pasteur and the CNRS have been able to observe, stimulate, and specifically record the activity of new nerve cells. They have brought proof that new neurons formed in the olfactory bulb of the adult brain are integrated into preexisting nervous circuits. They have also shown that, against all expectations, the number of contacts between young cells and their target cells greatly increased over several months.

This work constitutes an essential step in characterizing the functions fulfilled by new neurons. It opens new avenues to investigation for understanding the connectivity between “newly formed” neurons and their host circuits. This is a crucial step on the way to foreseeing the use of stem cells within the framework of new therapeutic protocols for repairing brain damage, notably in the realm of neurodegenerative diseases.

(Photo: © Institut Pasteur)

CNRS

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