Taking a Snapshot of the Human Immune System
Thanks to NIH funding, an antibody snapshot could help diagnose immune disorders.
There are numerous tests to gauge the health of your heart. But no such widely accepted test exists for the many parts of the immune system. How can we tell if the immune system is strong or weak? Or quantify how badly it’s malfunctioning when we suffer from asthma, allergies, or arthritis?
A team led by scientists at Stanford University has taken the first steps toward creating such a test—by taking “snapshots” of the immune system.
Before we talk about what they did, let me review how the immune system protects us against disease. The innate immune system is like a standing army that defends us against invading microbes. But the innate system has no memory. It doesn’t recognize the invaders more quickly if they return. This is the job of the adaptive immune system—B and T cells. These cells not only remember invaders; they’re able to adapt their weapons—antibodies and T-cell receptors—to make them more effective. Think of them as the Special Forces.
When a vaccine enters the body, it introduces a specific but benign preview of the potential invader—say, flu virus—to allow our Special Forces to begin honing their weapons in advance of any attack. If the full-fledged invader later arrives, your body deploys those pre-made antibodies and, most times, defeats it before it makes you sick.
But as we age, we’re increasingly at risk for flu. Why? A census of our antibodies might offer clues. And this is where the Stanford-led team comes in.
With support from NIH, these researchers recruited 17 volunteers, aged eight to 100 years, gave each a seasonal influenza vaccine and took blood samples—once before the vaccine, and twice after.
Using high throughput sequencing technology, the team characterized every single antibody, from each volunteer, at each of the three time points—that’s 5 million antibodies! They noted the types of antibodies present (there are five possible types) and the specific number of each type. They then compared individual antibodies of the same type with each other. Such information allows you to figure out whether two antibodies share the same lineage—like a family tree.
When the researchers crunched the numbers, they found that the 70–100 year old volunteers had a significantly less diverse collection of antibodies than the younger volunteers. That is, as people aged, their immune system had a more limited repertoire of antibodies to offer.
Does this circumstance affect how the elderly react to the flu vaccine? Does it hinder their ability to fight infection? It’s certainly possible. Perhaps this smaller, or less diverse, collection of antibodies could explain why the vaccine is somewhat less effective in elderly individuals. We’ll need more research to figure it out. Having snapshots of our immune system will help us find answers.
This kind of antibody snapshot, only made possible in the last couple of years because of advances in genomics, could also be used to diagnose immune disorders—especially if diseases have an antibody “fingerprint.” It might also provide a robust tool for measuring whether individuals were benefiting from specific treatments, and even provide a personal risk assessment for flu and other conditions: another element of personalized medicine.
But while all this exciting research is going on, it’s still wise for you to get an annual flu shot!
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