Fatty acids found in fish could help treat asthma patients

Though asthma affects almost 340 million people worldwide, there is still no cure. The respiratory disease frequently develops in childhood and can cause asthma “attacks” where the lungs become inflamed and the airways constricted, causing breathing difficulty and wheezing. These attacks are caused by a number of factors, including pollution, allergens, and smoking.

The condition is often treated by inhaling a bronchodilator drug called a beta agonist, such as Ventolin. During an asthma attack, inhalers bring beta agonist into the airways. This causes the muscles in the airway to relax, allowing the patient to breathe more easily. But this type of medicine doesn’t work very well for everyone – and there are limited other options for medicines that can be used to treat acute asthma attacks.

But while researching the health benefits of eating “oily” fish such as salmon and mackerel, we found something surprising: omega-3 fatty acids (typically found in such fish in high levels), and more directly medicines that mimic some of the actions of omega-3 fatty acids, could potentially be used to help treat asthma.

Omega-3 fatty acids have many health benefits and generate them in a number of ways, including by limiting inflammation. This is because they interact with and stimulate a protein called “free fatty acid receptor 4.” This protein is present on the surface of certain cells that control the amount of sugar in the blood. As elevated blood sugar is often associated with diabetes, medicines that activate free fatty acid receptor 4 have been considered as a possible new treatment for type 2 diabetes.

One of the joys of being a research scientist is that chance observations can lead to new insights in completely different areas to those you were initially studying. Free fatty acid receptor 4 is typically located in the gut and on white fat cells. But when our team examined where else in the body it might be located, we were surprised to find large numbers of the receptor in the lungs of both mice and humans. We reasoned that if it was there, it must have a job to do.

Asthma treatment

Given the large numbers of free fatty acid 4 receptors in the lungs, we wondered if proto-medicines (synthetic chemicals that activate free fatty acid 4 receptor) would work just as well as beta agonists at opening up the airways and might also reduce inflammation in the lungs.

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We first tested these chemicals on both living mice and in lung tissue samples. Initially, we found that activators of free fatty acid receptor 4 did indeed open up airways that had become constricted in the lungs of mice. However, in mice whose DNA we altered to lack free fatty acid receptor 4, these proto-medicines didn’t work.

We then wanted to know whether these compounds also worked effectively if we induced an asthma-like state in the mice. We did this by making them breathe the air-pollutant ozone, or making them inhale cigarette smoke. Both of these are known to induce asthma attacks in humans. Again, we saw that in the mice that had free fatty acid receptor 4, the proto-medicines opened up the airways. They had no effect in mice that did not have the receptor.

Child using inhaler.