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Friday, August 16, 2013

Axons and Dendrites creation

How neurons ‘decide’ to create axons or dendrites

Finding could help improve therapies for spinal injuries and neurodegenerative diseases
August 16, 2013
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UA researchers discovered that a neuron will form multiple axons as seen here when they blocked the short version of a signaling molecule from functioning (credit: Sara Parker/University of Arizona)
University of Arizona scientists havediscovered an unknown mechanism that establishes polarity in developing nerve cells: the length of a signaling molecule.
Understanding how nerve cells make connections is an important step in developing cures for nerve damage resulting from spinal cord injuries or neurodegenerative diseases such as Alzheimer’s.
They found that embryonic nerve cells manufacture a signaling enzyme called Atypical Protein Kinase C (aPKC) in two varieties: a full-length one and a shorter one.
Both varieties compete to bind the same molecular partner, a protein called Par3. If the short form of aPKC pairs up with Par3, it tells the cell to grow a dendrite, and if the long one pairs up with Par3, it will make an axon instead.
When the researchers blocked the production of the short form, the nerve cell grew multiple axons and no dendrites. When they created an artificial abundance of the short form, dendrites formed at the expense of axons.
“How the various brain regions are wired is the basis of emotion, memory and all cognitive functions,” said assistant professor of cellular and molecular medicine Sourav Ghosh, who is a member of the UA’s BIO5 Institute. “If we understand this mechanism, we could think about methods to spur new axons after the original ones were severed in a traumatic spinal cord injury, for example.”
Funded by the National Institutes of Health and a scholarship awarded to Parker by the Achievement Rewards for College Scientists Foundation, Inc., this research resulted from a collaboration of three UA departments — cellular and molecular medicine, pharmacology and physiology.

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