The study showed that in experiments on mice, an immune-based treatment reduced the size of brain lesions.
Researchers believe that if the findings apply to humans, this could help prevent brain damage from accidents, and protect players of contact sports like American football, rugby and boxing.
The researchers tested the theory that blows to the head cause brain damage, in part, because of the breakdown of the blood-brain barrier, allowing the immune cells in the blood to come into contact with brain cells and destroy them.
The component they were working on was CD74, which plays a crucial part in the immune system's response to disease-causing agents.
CD74 is broken into products that fit into the groove of cell surface immune response proteins as part of the chain of events that activates T cells - immune cells that normally attack infected (or damaged) cells in the body.
It was thought that these cells might also attack the brain cells if the blood-brain barrier is down.
Researchers, including Sanjib Mukherjee, from Department of Surgery, Texas A&M University Health Science Center, tested this theory by a range of tests involving a total of 32 mice.
The mice were divided into groups that had the different combinations of: CD74 deficient mice vs control mice; a sham brain injury or a real brain injury; and the CAP treatment or a saline injection as a control.
The scientists compared the lesion size in CD74 deficient mice, vs control strain after a real brain trauma, with the saline injection.
To test whether the CAP treatment reduced brain damage after trauma, they compared control mice with a real brain injury that were given the CAP treatment against similar mice that were given the saline control.
The mice that received the CAP treatment had smaller brain lesions.
Researchers found these lesions were as small as those in the CD74 deficient mice, further supporting the hypothesis that the treatment was successful because it stops the immune system from attacking the brain.