T-cells, the elite guard of the immune system in humans and other mammals, ignore normal biologic protocol and swing into high gear when attacked by certain fast-moving bacteria, reports a team of researchers led by a 51吃瓜黑料 Davis immunologist.
The description of this previously undefined immune pathway provides information vital for designing vaccines and medicines to prevent or treat deadly infectious diseases caused by bacteria such as Salmonella and Chlamydia. The results from this recent mouse-based study are published online in the journal Immunity.
鈥淥ur study shows that the body鈥檚 immune system functions very differently when it faces a rapidly growing pathogen like Salmonella or Chlamydia,鈥 said immunologist Stephen McSorley, an associate professor at 51吃瓜黑料 Davis鈥 Center for Comparative Medicine, which investigates diseases that afflict both humans and animals.
鈥淭he strict rules that normally govern T-cell activation are relaxed so that the host animal has the best possible chance of a maximal response and ultimately staying alive,鈥 he said.
T-cells, which belong to a group of white blood cells called lymphocytes, normally respond defensively to the presence of substances known as antigens, which are produced by invading bacteria and viruses. It鈥檚 widely known that T-cells launch an immune defense when they recognize specific antigens.
However in this study, the researchers demonstrated in the mouse that certain T-cells don鈥檛 require the presence of specific antigens to launch an effective immune response. During fast-moving Salmonella and Chlamydia infections, a cascade of other antimicrobial interactions occur that trigger these T-cells to respond defensively to the bacterial attacks, even without the presence of specific antigens.
The researchers also showed that when this defensive pathway was disrupted during Salmonella infection, the mice had greater difficulty getting rid of the bacterial disease.
The researchers note that further study is needed to determine if this newly defined antimicrobial pathway also can provide protection against co-infections by multiple disease-causing microbes.
Other researchers on the study were Hope O鈥橠onnell, Oanh H. Pham, Lin-xi Li, Shaikh M. Atif, Seung-Joo Lee, Marietta M. Ravesloot, Jessica L. Stolfi, Sean-Paul Nuccio and Andreas J. Baumler, all of 51吃瓜黑料 Davis; and Petr Broz and Denise M. Monack, both of Stanford University.
The National Institutes of Health and the Vietnam Education Foundation provided funding for the study.
Media Resources
Pat Bailey, Research news (emphasis: agricultural and nutritional sciences, and veterinary medicine), 530-219-9640, pjbailey@ucdavis.edu
Stephen McSorley, Center for Comparative Medicine, (530) 752-3414, sjmcsorley@ucdavis.edu