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Like fingerprints, immune systems vary from person to person. And although we all inherit a unique set of genes that help us respond to infections, recent studies have found that our history and environment-like where and with whom we live-are responsible for 60 percent to 80 percent of the differences between individual immune systems, while genetics account for the rest. In a review published September 29 in Trends in Immunology, three immunologists discuss the emerging science of what shapes our immune systems and how it might be applied.
“Just like it took a while to crack the genetic code, we’re finally starting to crack the immune code, and we’re shifting away from the simplistic idea that there is only one type of immune system,” says lead author Adrian Liston, head of the VIB Translational Immunology Laboratory in Belgium. “Diversity isn’t just programmed into our genes-- it emerges from how our genes respond to the environment.”
Long-term infections are responsible for most of the differences between individual immune systems. For example, when a person has herpes or shingles, the virus has more opportunities to interact with the immune system. These interactions slowly change the cellular makeup of their immune system and make it more sensitive to that specific virus but also easier for other infections to slip past its defenses. People without these infections don’t experience these cellular changes, and even with the occasional cold or fever, their immune systems stay relatively stable over time.
The exception is when a person is elderly. Researchers haven’t determined exactly why age plays a major role in making our individual immune systems more unique, but they have shown that aging changes how our immune system responds to threats. As we get older, an organ called the thymus gradually stops producing T cells, which are made to help to fight off infection. Without new T cells, older people are more likely to get sick and less likely to respond to vaccines.
Beyond T cells, gaining also seems to broadly change the way our immune systems react.
“A lot of diseases that we associated with aging have an inflammatory component, which suggests there is likely immune involvement,” says Michelle Linterman, a researcher at the Babraham Institute and co-author of the review. “Understanding how the immune system changes with age is going to be hugely important for treating age-related diseases in the future.”
Differences can be overcome, however; studies of people living together have shown that air quality, food, stress levels, sleep patterns, and lifestyle choices had a strong combined effect on our immune responses. For example, couples who cohabitate have more similar immune systems compared to the general public.
Liston and his collaborators, Linterman and Edward Carr of the Babraham Institute, would next like to explore how changing our environment could purposefully shape our immune system and potentially affect our health. “In order to tinker with the immune code, we first need to really understand the influences that shape the immune system,” says Liston. “That’s why it’s actually great that environment is more important than genetics, because we can play with environment.”
This work was supported through the European Research Council and by the Bioscience and Biotechnology Research Council.
Source: VIB Translational Immunology Laboratory