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Researchers Reveal Mechanisms of How Our Body Remembers and Fights Infections

by Dr. Trupti Shirole on January 10, 2016 at 6:58 PM
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 Researchers Reveal Mechanisms of How Our Body Remembers and Fights Infections

At the first hint of a viral or bacterial invasion, the immune system launches an orchestrated front-line defense. If infection manages to take hold, the immune system creates specialized cells to combat the specific invading pathogen. These cells, known as effector cells, encounter and begin to destroy the specific pathogen.

Once the infection has been eliminated, some of those cells linger in the body to become memory cells in the immune system. If the host becomes re-infected with the same bug, the immune system will recognize and quickly respond with a targeted attack.

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Scientists at the Virginia Tech Carilion Research Institute have found a potential way to influence long-term memory formation in the immune system. The researchers published their results in Nature Communications.

"We've found that the inherent flexibility of the immune system is even more complex than previously understood," said Kenneth Oestreich, senior author of the paper and an assistant professor at the Virginia Tech Carilion Research Institute.
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Paul McDonald, a research scientist at the Virginia Tech Carilion Research Institute and first author on the paper, said, "That's the basis of vaccine-mediated immunity. But how these memory cells arise after an infection has always been a bit of a mystery. Our study suggests that these important cells may arise directly from the effector population."

In this study, the researchers learned that proteins responding to the cells' environment are able to influence the memory gene program. The environment can actually push the effector cells towards memory.

McDonald said, "It was once believed that effector and memory cells arose as two distinct populations, with some cells initially fated to be effector type and some to be memory. We've now seen that there is much more fluidity between the cell types than originally thought."

The presence of certain proteins can influence the cell's fate. Interleukin-2, for instance, is a highly inflammatory protein produced at the start of an infection.

Interleukin-2 levels remain high until the infection is under control. As the interleukin-2 levels drop, effector cells can turn on a protein called Bcl-6. This protein initiates the production of T follicular helper cells. These cells work in the immune system to generate antibodies specifically against the invading pathogen.

Oestreich said, "We had previously discovered that in a low interleukin-2 environment, the TFH gene program turns on, apparently pushing effector cells to become T follicular helper cells. In this study, we realized that both the T follicular helper cells and memory profiles were turning on."

Memory cells recognize pathogens that have previously infected the body and quickly respond with the correct antibodies.

"We found that the effector cells not only have both the T follicular helper cells and central memory profiles, but they also expressed receptors for two different proteins - interleukin-6 and interleukin-7," Oestreich said.

Scientists already knew interleukin-6 influenced T follicular helper cell development, and they also knew interleukin-7 was important for memory maintenance, ensuring memory cells persist for years after an initial infection. Oestreich's team discovered that the presence of either of these proteins could push a cell toward one fate or another.

"Just as the presence of interleukin-2 or interleukin-6 increases Bcl-6 and encourages the T follicular helper cell gene program, the presence of interleukin-7 can decrease Bcl-6 and influence effector cells to become memory cells," McDonald said.

Memory cells conduct antigen surveillance and are immediately able to recognize the pathogen.

McDonald said, "Central memory cells allow for such a quick response to antigens that infection typically doesn't have a chance to form. You might not even know you've been infected. Formation of these cells is critical for a vaccine to work well."

Vaccines introduce antigens to the immune system to trigger antibody and memory cell production, usually without the host developing symptoms of an illness. If an active antigen invades the body, the memory cells can reactivate and assist in antibody production, eliminating the infection before it causes symptoms.

Oestreich said, "We still have a lot of work to do. But this is a promising first step in understanding the mechanisms by which memory cells form, which ultimately will play a role in improving vaccine efficacy."

Source: Eurekalert
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