January 17, 2007

Built-in molecular brakes curb the sniffles

Researchers at Johns Hopkins have discovered how our anti-infection machinery turns itself down and limits the sniffles, congestion and fevers that are a side effect of the campaign against invading viruses. The discovery seems to solve part of the mystery of why the misery of the common cold lasts only so long.

The key to curbing any excess activity by the immune system apparently rests with Carabin, a newly discovered protein made by the specialized white blood cells that march in when a virus attacks.

Results of a study published online this week at Nature show that Carabin "acts like an internal brake to dial down the speed and intensity of an immune response so that it doesn't go too fast or too far, or careen out of control and attack healthy cells," says Jun O. Liu, Ph.D., professor of pharmacology, neuroscience and oncology at Hopkins.

Searching for proteins that control immunity, Liu and his team homed in on those that latch on to parts of cells that are active during an infection. "Carabin popped out," says Liu.

To see what Carabin could do, the research team added it to white blood cells already primed and ready for anti-infection action. The more Carabin in the cells, the less active the cells became.

When people are infected with a cold virus, for example, the virus enters cells and hijacks its works so that the cells become viral factories. The immune system's white blood cells go after these infected cells not only by fielding chemicals that kill them directly, but also by turning on genes that help out. When Liu and his group added Carabin to cells and then studied such genes, they discovered that Carabin disabled the "on" switches, keeping the genes off.

"By now we were pretty convinced that Carabin can turn down the immune system, so the next question was, 'what controls Carabin?'" Liu noted.

Tracking Carabin to its origins, the researchers said they were surprised to learn that viral infection not only turns on the immune system machinery, but also triggers the making of Carabin, which in turn shuts off the immune response.

"It's like having a built-in timer to keep the immune system in check," says Liu.

If Carabin turns out, after further study, to be a keystone natural inhibitor of immune responses, Liu added, it may prove useful in stopping such unwanted immune reactions as the rejection of transplanted organs.

Source: Johns Hopkins Medical Institutions

Citation: Built-in molecular brakes curb the sniffles (2007, January 17) retrieved 23 April 2024 from https://medicalxpress.com/news/2007-01-built-in-molecular-curb-sniffles.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

New gene therapy could significantly reduce seizures in severe childhood epilepsy
 shares

Feedback to editors
The consumption of certain food additive emulsifiers could be associated with the risk of developing type 2 diabetes

5 hours ago
Perinatal transmission of HIV can lead to cognitive deficits

5 hours ago
Study finds suicidal behaviors increased by over 50% in Catalonia, Spain after the COVID-19 pandemic

6 hours ago
Why do we move slower the older we get? New study delivers answers

7 hours ago
Stress activates brain regions linked to alcohol use disorder differently for women than men, finds study

7 hours ago
Chemical tool illuminates pathways used by dopamine, opioids and other neuronal signals

7 hours ago
Gentle defibrillation for the heart: A milder method developed by researchers for cardiac arrhythmias

8 hours ago
Q&A: Research shows neural connection between learning a second language and learning to code

9 hours ago
Gut microbiota acts like an auxiliary liver, study finds

9 hours ago
Higher light levels may improve cognitive performance

9 hours ago
Load comments (0)