(Press-News.org) A team led by a University of Arizona researcher has discovered a previously unknown mechanism that prevents the immune system from going into overdrive, shedding light not only on how our body controls its response to pathogens but on conditions such as autoimmune diseases, allergies and chronic inflammation as well.
The group found a protein previously believed to only play a role in blood clotting acts as a negative feedback signal, telling defense cells to calm down, thereby preventing an immune reaction from spiraling out of control. The results, which could lead to new therapeutics for a variety of disorders caused by a faulty immune response, are published in the scientific journal Immunity.
When pathogens such as viruses or bacteria invade our body, the immune system reacts by producing a flurry of chemical signals, known as chemokines that act as a bugle call recruiting specialized defender cells to the scene, such as macrophages, which devour the intruders. This first line of defense is known as inflammation.
"Inflammation is a necessary defense mechanism – you can't live without it," said Sourav Ghosh, assistant professor in the department of cellular and molecular medicine at the UA College of Medicine and lead author of the study. "On the flip side, if you can't regulate the inflammation, it can damage the body."
To be effective against pathogens, yet prevent collateral damage from the body's own defenses, the immune system has to maintain just the right level of inflammation, explained Ghosh, who is also a member of the University of Arizona Cancer Center and theUA's BIO5 Institute.
"It needs to be not too high and not too low," he said. "The question had always been, how does the immune system maintain that balance? Our discovery explains this."
All organisms, even plants, have some kind of immune system at their disposal that acts as an army fighting against the onslaught of microbes, viruses, parasites and other pathogens in the environment. Vertebrates have evolved the most sophisticated arsenal of "soldiers" and "weapons," relying on two powerful lines of defense: a non-specific, or innate, immune response and the specific, or adaptive, immune response.
In the non-specific response, the immune system throws a first wave of countermeasures at the intruders, consisting of – among other things – aggressive chemicals, destructive enzymes and kamikaze-like neutrophils, specialized white blood cells that destroy the attackers by devouring them, killing themselves in the process.
"First you don't know who the enemy is, so you fire everywhere with your eyes closed," Ghosh explained. "But once you know the enemy, you need to shut off this first response firing and bring in the special ops so to speak."
The special ops come in the form of the specific immunity, capable of targeting pathogens very precisely, taking out the enemy in a sniper-like fashion, while sparing friendly microbes and cells belonging to the body. Most importantly, this portion of the immune system contains cells that remember every attacker trying to conquer an organism throughout its lifetime, allowing the immune system to summon the most effective, specialized task force to counter a pathogen it recognizes from a previous battle.
"The innate immune response is necessary to activate the adaptive response," Ghosh said. "But once activated, there has to be a mechanism that prevents the adaptive response from going into overdrive. From previous studies, we knew there had to be some kind of signal that does this, but we didn't know the nature of that signal. Now we do."
Two kinds of immune cells turned out to be the key players in mediating the immune response: the dendritic cells, so called because of the tree-like branches they grow during their development ("dendron" means "tree" in Greek), which belong to the first wave of defense; and the T-cells, so named because they mature in the thymus gland of the second, which are part of the second wave, the specific immune response.
"The dendritic cells activate the T-cells," Ghosh explained. "Only when they're activated, not when they're resting, do the T-cells produce this protein that we knew only from the blood clotting process, called Protein S."
The T-cells display Protein S on their surface, where it makes contact with a receptor the dendritic cells carry on their surface. This triggers a signal telling the dendritic cell to stop switching on T-cells, causing the immune response to slow down.
"We thought about which cells could be the source of that signal," said Carla Rothlin of the School of Medicine at Yale University, who led the study together with Ghosh. "You don't want to put the brakes on from the very beginning, or otherwise the immune response would never amount to anything. But you want to slow it down once it starts going too fast."
"We figured that once the specific response is underway, you don't really need the unspecific response anymore, so the T-cells appeared to be the best candidates for the source of this signal."
To test their hypothesis, the researchers studied the immune response in mice in which the gene coding for Protein S had been deactivated selectively in their T-cells, rendering them unable to communicate with the dendritic cells.
As expected, these mice were unable to regulate their immune response, resulting in higher levels of inflammation compared to their normal counterparts.
To assess the relevance of their findings to humans, Ghosh and his co-workers then studied blood from patients with inflammatory bowel diseases such as ulcerative colitis and Crohn's disease. Consistent with their previous results, patients suffering from increased inflammation had lower levels of Protein S in their blood stream compared to healthy volunteers.
The findings could help scientists and clinicians develop better treatments for inflammatory diseases, for example by designing drugs that substitute for insufficient Protein S. According to Ghosh, patients with inflammatory bowel disease are 20 times more likely to develop colon cancer, further underlining the significance of this study.
Study co-author Dr. Jonathan Leighton reported anecdotal evidence from the clinical practice that is in line with the dual roles Protein S is believed to play.
"Patients with inflammatory bowel disease can develop blood clots if they have active disease," said Leighton, a UA alumnus who holds the Chair of the Division of Gastroenterology at Mayo Clinic in Scottsdale, Ariz. "From a clinical standpoint, we think that three factors predispose to inflammation in inflammatory bowel disease – genetic, environmental and the immune system. This research is exciting because it focuses on the immune system. No one has found a consistent inflammatory pathway that explains all the clinical manifestations, and it may be that different pathways are affected in different patients. We don't understand how it all relates quite yet, but this study is a step toward a better understanding that will ultimately help us treat patients more effectively."
INFORMATION:
The study was funded by the National Institutes of Health (NIH) grants R01 AI077058, R01 AI089824, CA95060 and T32 AI007019); the Crohn's and Colitis Foundation; the American Heart Association; the American Asthma Foundation; the Lupus Research Institute; a CONICET Postdoctoral Fellowship and a Gershon-Trudeau Postdoctoral Fellowship.
Putting the brakes on inflammation
Researchers have uncovered a signal that prevents the immune system from spinning out of control. The findings could help develop more effective therapies for autoimmune disorders, allergies, chronic inflammation and cancer
2013-07-23
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[Press-News.org] Putting the brakes on inflammationResearchers have uncovered a signal that prevents the immune system from spinning out of control. The findings could help develop more effective therapies for autoimmune disorders, allergies, chronic inflammation and cancer