Search: Look for:   Last 1 Month   Last 6 Months   All time

Unusual alliances 'allow you to wiggle your fingers'

Washington, Thu, 09 Feb 2012 ANI

Washington, Feb 9 (ANI): Some unusual mergers are important for facilitating communication between the brain and muscle, a new study has revealed.

 

Understanding those relationships should enable better treatment of neuromuscular diseases, such as myasthenia gravis, which prevent muscles from taking orders from your brain, said Dr. Lin Mei, Director of the Institute of Molecular Medicine and Genetics at Georgia Health Sciences University.

 

During development, neurons in the spinal cord reach out to muscle fibres to form a direct line of communication called the neuromuscular junction.

 

Once complete, motor neurons send chemical messengers, called acetylcholine, via that junction so you can text, walk or breathe.

 

As a first step in laying down the junction, motor neurons release the protein agrin, which reaches out to LRP4, a protein on the muscle cell surface.

 

This activates MuSK, an enzyme that supports the clustering of receptors on the muscle cell surface that will enable communication between the brain and muscle.

 

The precise alignment between the neuron and muscle cell that occurs during development ensures there is no confusion about what the brain is telling the muscle to do.

 

A missing piece was how agrin and LRP4 get together.

 

The new study shows that in the space between the neuron and its muscle cell, agrin and LRP4 first form two diverse work teams: each team has one agrin and one LRP4. The two teams then merge to form a four-molecule complex essential to MuSK activation and to the clustering of receptors that will receive the chemical messenger acetylcholine on the muscle cell.

 

It was expected that the two agrins would get together first then prompt the LRP4s to merge.

 

"This is very novel," said Mei, and an important finding in efforts to intervene in diseases that attack the neuromuscular junction.

 

Myasthenia gravis, which paralyzes previously healthy individuals, targets these protein workers.

 

The condition, which can run in families, likely results from a process called mimicry in which the immune system starts making antibodies to the workers, which it confuses with a previous viral or bacterial infection.

 

The majority of patients have antibodies to acetylcholine receptors and a smaller percentage have antibodies to MuSK. Most recently, GHSU researchers also helped identify LRP4 as an antibody target.

 

The scientists already are looking at the impact of the antibodies on the LRP4 complex. Understanding its unique structure is essential to designing drugs that could one day block such attacks.

 

"Prior to this we had no idea how they interacted," Mei added.

 

In addition to providing new information on muscle diseases, this study might also have a far-reaching ripple effect in the field of neuroscience.

 

To reveal the novel mechanism, researchers used a technique known as X-ray crystallography, which produces 3-D "pictures" of protein at the atomic level using powerful X-ray beams.

 

The study has been published in the journal Genes 'n' Development. (ANI)

 


LATEST IMAGES
Manohar Lal being presented with a memento
Manoj Tiwari BJP Relief meets the family members of late Ankit Sharma
Haryana CM Manohar Lal congratulate former Deputy PM Lal Krishna Advani on his 92nd birthday
King of Bhutan, the Bhutan Queen and Crown Prince meeting the PM Modi
PM Narendra Modi welcomes the King of Bhutan
Post comments:
Your Name (*) :
Your Email :
Your Phone :
Your Comment (*):
  Reload Image
 
 

Comments:


 

OTHER TOP STORIES


Excellent Hair Fall Treatment
Careers | Privacy Policy | Feedback | About Us | Contact Us | | Latest News
Copyright © 2015 NEWS TRACK India All rights reserved.