May 30, 2012

Fish study raises hope for spinal injury repair

by Monash University

Fish study raises hope for spinal injury repair
Scientists discovered the role of a protein in the remarkable self-healing ability of the fish

(Medical Xpress) -- Scientists have unlocked the secrets of the zebra fish’s ability to heal its spinal cord after injury, in research that could deliver therapy for paraplegics and quadriplegics in the future.

A team from Monash University’s Australian Regenerative Medicine Institute (ARMI), led by Dr Yona Goldshmit and Professor Peter Currie, discovered the role of a protein in the remarkable self-healing ability of the fish.

The findings, detailed in The Journal of Neuroscience, could eventually lead to ways to stimulate regeneration in humans.

When the spinal cord is severed in humans and other mammals, the immune system kicks in, activating specialised cells called glia to prevent bleeding into it, Professor Currie said.

“Glia are the workmen of nervous system. The glia proliferate, forming bigger cells that span the wound site in order to prevent bleeding into it. They come in and try to sort out problems. A glial scar forms,” Professor Currie said.

However, the scar prevents axons, threadlike structures of nerve cells that carry impulses to the brain, of neighbouring nerve cells from penetrating the wound. The result is paralysis.

“The axons upstream and downstream of the lesion sites are never able to penetrate the glial scar to reform. This is a major barrier in mammalian spinal cord regeneration,” Professor Currie said.

In contrast, the zebra fish glia form a bridge that spans the injury site but allow the penetration of axons into it.

The fish can fully regenerate its spinal cord within two months of injury. “You can’t tell there’s been any wound at all,” Professor Currie said.

Scientists discovered the protein, called fibroblast growth factor (fgf), controlled the shape of the glia, and accounted for the difference in the response to spinal cord between humans and zebra fish.

The scientists showed the protein could be manipulated in the to speed up tissue repair even more.

“The hope is that fgf could eventually be used to promote better results in spinal cord repair in people,” Professor Currie said.

Journal information: Journal of Neuroscience
Provided by Monash University
Citation: Fish study raises hope for spinal injury repair (2012, May 30) retrieved 25 April 2024 from https://medicalxpress.com/news/2012-05-fish-spinal-injury.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.

Explore further

Fish offer clues to spinal cord renewal
 shares

Feedback to editors
Link between depression and cardiovascular disease explained: They partly develop from same gene module

3 hours ago
Study highlights increased risk of second cancers among breast cancer survivors

8 hours ago
Opioids during pregnancy not linked to substantially increased risk of psychiatric disorders in children

9 hours ago
Research identifies pitfalls and opportunities for generative AI in patient messaging systems

9 hours ago
A closed-loop drug-delivery system could improve chemotherapy

11 hours ago
It's easier now to treat opioid addiction with medication—but use has changed little, study finds

11 hours ago
Solving the riddle of the sphingolipids in coronary artery disease

11 hours ago
New AI technology estimates brain age using low-cost EEG device

11 hours ago
Alteration of brain network condition could predict painful vaso-occlusive crisis in patients with sickle cell disease

12 hours ago
Trials reveal that internet-based conversations help sustain brain function in older adults

12 hours ago
Load comments (0)