Our research in this area focuses on the intricate ways bacteria evade the immune system. We've discovered that the bacterium responsible for Lyme disease, Borrelia burgdorferi, employs a form of molecular mimicry to trick our bodies. It produces a protein called P66 that acts as a "don't eat me" signal, effectively cloaking the bacteria from our immune cells.
This bacterial protein, P66, mimics CD47, a protein found on our own cells that signals to the immune system not to attack. P66 binds to a receptor on immune cells called SIRPα, which inhibits the ability of these cells to engulf and destroy the bacteria. This immune evasion mechanism allows the bacteria to persist in the body, contributing to the development of chronic disease.
Our work has also revealed that the CD47-SIRPα pathway is a crucial immune checkpoint in a wide range of infections, not just Lyme disease. By blocking this interaction, we have shown that it's possible to enhance the immune system's ability to clear pathogens in diseases like HIV and tuberculosis. This research opens up new avenues for developing therapies that can boost the body's natural defenses against infection.

P66 and CD47-SIRPa Publications