
A peek inside some leading research labs shows how scientists-turned-detectives are painstakingly decoding what causes autoimmune diseases and how to stop the immune system from attacking you instead of protecting you.
It’s a huge challenge. By the National Institutes of Health’s newest count there are about 140 autoimmune diseases affecting tens of millions of people.
Unraveling them requires patience, persistence — and sophisticated technology to even see the suspects. Researchers use laser-powered machinery and brightly colored fluorescent dyes to tell rogue cells from normal ones.
Take Type 1 diabetes, caused when cells in the pancreas that produce insulin are gradually killed off by rogue T cells. In a biomedical engineering lab at Johns Hopkins University, researchers examine mouse pancreas cells on a computer screen. Red marks the killer cells. In yellow are “peacemaker” cells that are supposed to tamp down autoimmune reactions – but they’re outnumbered.
Another type of immune cell, B cells, drive autoimmune diseases by producing antibodies that mistake healthy tissue for foreign invaders. At NIH, Dr. Iago Pinal-Fernandez studies myositis, a poorly understood group of muscle-weakening diseases. His research shows rogue antibodies don’t just damage muscles by latching onto their surface. They can sneak inside muscle cells and disrupt their normal functions in ways that help explain varying symptoms.
“When I started, nothing was known about the type of autoimmune disease we study. Now finally we’re able to tell patients, ’You have this disease and this is the mechanism of disease,” he said.
In another NIH lab, Dr. Mariana Kaplan’s team is hunting the root causes of lupus and other autoimmune diseases — what makes the immune system run amok in the first place — and why they so often strike women.
Today's drugs tamp down symptoms but don't correct the problem. Now in early-phase clinical trials are treatments that instead aim to fix dysfunctional immune pathways.
At Hopkins, scientists are working on next-generation versions, not yet ready to try in people. In one lab, they're developing nanoparticle-based treatment to dial down pancreas-killing cells in Type 1 diabetes and ramp up “peacemaker” cells.
And in another Hopkins lab, researchers are developing what they hope will become more precise treatments for rheumatoid arthritis, lupus and other antibody-driven illnesses – drugs that search out and destroy “bad” B cells.
—-
The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute’s Department of Science Education and the Robert Wood Johnson Foundation. The AP is solely responsible for all content.
This is a documentary photo story curated by AP photo editors.
LATEST POSTS
- 1
The most effective method to Shake Hands Expertly: A Bit by bit Guide - 2
The moon and sun figure big in the new year's lineup of cosmic wonders - 3
13 must-see moon events in 2026: Eclipses, supermoons, conjunctions and more - 4
Bayer reports positive results for blood thinner after 2023 setback - 5
Women take pride in Holy Week roles after a Spanish Catholic brotherhood's procession excluded them
Turkey key underlying issue as Israel, Greece, Cyprus hold summit
Motivational Travel Objections for History Buffs
Which Carrier Do You Suggest? Vote
Israel halts defense sales to France, citing 'hostile attitude,' sources tell 'Post'
Vote In favor of Your Favored Distributed computing Administration
5 Worldwide Road Food varieties You Should Attempt
4 buzzy new TV shows to watch — plus the return of 'The Comeback,' 'Jury Duty' and more
Wizz CEO: We’re going to invest $1 b. in Israeli market
India's top court hears challenges to ruling on women's entry into temple













