Immune cell discovery reveals new pathway for hepatitis B treatment
· News-MedicalFifteen years ago, doctors in Europe noticed a remarkable thing happening in people with chronic hepatitis B infections. When patients went off their medications, the virus started to come back - and then some of the patients were cured. Something was goading their immune systems to go after the virus as the infection rebounded.
Hepatitis B often becomes chronic when infection occurs early in life, before the immune system can mount an effective response. By contrast, newly infected adults are far more likely to clear the virus.
Baron's team set out to understand what triggers this immune response - and why it succeeds in some chronic hepatitis B patients but not others.
"When treatment stops in a structured way, about a third of patients can mount the right immune response and clear the virus - something we almost never see during treatment," said Stewart Cooper, MD, a member of the UCSF Liver Center and co-senior author of the paper. "But that observation didn't lead to change for most patients."
To understand how this fresh immune response is triggered - and why it succeeds in some patients but not others - the researchers turned to the lab. They engineered mice to make the hepatitis B virus or its proteins, and to lack immune cells from birth. Then, they gave the mice a transplant of fresh immune cells, testing whether these immune cells could identify the hepatitis B virus as a threat.
In adult mice, immune transplants containing CD4+ T cells quickly detected the hepatitis B proteins and set off an immune alarm. But it didn't work in young mice: the CD4+ cells didn't react.
A laboratory result explains a clinical reality
Next, the group analyzed blood samples from patients who had been treated for chronic hepatitis B. The patients had been carefully weaned off their antivirals, but only some of them were able to kick the infection.
In patients who ultimately cleared the virus, CD4+ cells in the liver became more active as the virus replicated. This did not happen to the CD4+ cells in patients who failed to clear the virus. These findings challenge the long-standing focus on CD8+ "killer" T cells as the drivers of hepatitis B clearance.
"Seeing the same immune patterns in both the mouse model and in patients gives us confidence we're capturing something real about how this disease works," Fragiadakis said.
If CD4+ cells are required for clearance, therapies could be designed to activate them as patients come off antivirals, prompting the immune system to finish the job.
Source:
University of California - San Francisco
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