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Scientists can Finally Explain how Autoimmune Disease Spreads

Scientists can Finally Explain how Autoimmune Disease Spreads
11/10/2017
sciencenordic.com

sciencenordic.com 

When the immune system attacks the body it can go unnoticed, but the attack gradually strengthens until it has developed into full-blown rheumatoid arthritis, lupus, or another type of autoimmune disease.

Scientists have now discovered how the immune system intensifies its attack.

The discovery could help with the diagnosis and treatment of autoimmune diseases before they cause too much damage.

“It’s a big step in the right direction towards developing medicine targeted at halting the negative spiral set in motion by the immune system,” says co-author, Assistant Professor Søren Egedal Degn, from the Department of Biomedicine at Aarhus University, Denmark.

The new study is published in the scientific journal Cell.

“The results emphasize the significance of cooperation between the innate and the acquired immune system, together with the significance of the B-cells,” says Professor Gunnar Houen from the Statens Serum Institut, Denmark, who describes the study as an interesting piece of work.

The immune system is designed to eliminate viruses, bacteria, and other foreign bodies by releasing antibodies that recognize and attach to so-called antigens on the surface of the invaders.

From here, the antibodies attract other parts of the immune system, which neutralize the threat.

But this can sometimes go wrong.

When the immune system attacks the body, its B-cells generate antibodies, which can recognize the antigens in the body’s own tissue, proteins, or DNA, and attack them.

Things escalate slowly, allowing scientists to see signs of diseases such as lupus up to ten years in advance.

Scientists have long wondered how this happens.

“We’ve known for a long time that the immune system can make a mistake and start to attack the body. But until now we didn’t understand how the reaction became strengthened over time and spread out to other tissues and organs. This is what we have described,” says Degn.

Immune system ups the attack

Degn’s research shows that the immune system’s B-cells are continuously recruiting other B-cells to take part in the fight against perceived threats.

This occurs inside the lymph nodes and spleen, where the B-cells develop antibodies—the so-called germinal center. Their normal function is to ensure that the B-cells produce antibodies best able to recognize the foreign body by continuously fine-tuning their ability to bind antigens.

But these B-cells can also pull bystander B-cells into the germinal center, which produce other types of antibodies. This causes the immune system to go from attacking one location in the body to attacking multiple locations.

“It’s a negative spiral, where B-cells continue to recognize something new in the body and increase their reaction to it continuously. You go from drawing on one type of B-cell, which only attacks one place in the body, to drawing in many B-cells that attack many different places. It spreads like a ripple on water and the autoimmune disease develops,” says Degn.

According to Degn, the new discovery could lead to new treatments that target the B-cells and the destructive behavior of the germinal center.

A new diagnostic tool

It could allow scientists to discover the mechanism that ultimately controls autoimmune diseases.

“Our results increase the momentum towards developing medicine targeted at the germinal centers. We may also be able to examine the germinal center as a diagnostic tool to identify whether various autoimmune diseases are brewing,” says Degn.

 

 

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