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Decoding the Variety of Human Antibodies

The body’s immune system helps prevent or limit infection. One way the body fights foreign invaders, like bacteria and viruses, is by making antibodies against them. An antibody is a Y-shaped protein that’s produced by white blood cells. It’s made of two identical “arms,” each of which has a heavy chain and a light chain. Together, these create specificity for an antigen (the substance that’s causing an immune response).

At a Glance

  • Researchers genetically sequenced antibodies in people’s blood and estimated that the body may be able to make up to one quintillion unique antibodies.
  • The findings suggest ways to determine a person’s infection history, aid with diagnoses, and design personalized vaccines.

Two different white blood cells (B cells and T cells) are involved in the body’s adaptive immune response. This is the specific attack that the body launches against an invader after an initial general immune response, which includes inflammation. B cells make the antibodies that neutralize or kill specific invaders. They also present antigens to T cells. T cells carry out multiple functions, including killing infected cells and activating or recruiting other immune cells to help clear the infection.

In order to adapt to invaders the body has never encountered before, the immune system can generate countless new antibodies. Scientists previously estimated that the human body can make at least a trillion unique antibodies. To explore the actual combination of antibodies people have developed, a team led by Drs. Bryan Briney and Dennis R. Burton at Scripps Research examined antibody-producing B cells isolated from blood samples of 10 people between the ages of 18 and 30. The research was supported in part by NIH’s National Institute of Allergy and Infectious Diseases (NIAID). Results were published online on January 21, 2019, in Nature.

Using large-scale genetic sequencing technologies and analytical software they developed, the researchers examined nearly 3 billion antibody heavy-chain sequences. Based on their findings, they estimated that the human antibody repertoire is much greater than previously thought—with the potential for the body to make a quintillion, or one million trillion, unique antibodies.

The team grouped the antibodies into “clonotypes” based on the similarities of the genes that make up the heavy chain. They found that any two people shared an average of 0.95% clonotypes, and that 0.022% of the clonotypes were shared between all of the individuals. While this might seem low, it’s much higher than suggested by chance. These findings suggest that while there’s great diversity amongst people’s collection of antibodies, there are some types that most people likely share.

“Antibody repertoire information could soon be used to diagnose autoimmune diseases and chronic infections, for example, or to design vaccines,” Briney says. “Getting clinically relevant insights from this kind of information would be a big step forward, and we’re hoping soon to do that.”

Additional studies are needed to more accurately determine the full scope of the human antibody repertoire. This sequencing was limited to a small portion of the B cell population in a small number of people.

—by Tianna Hicklin, Ph.D.

 


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