Variant proteins stimulate more IgM+ GC B-cells revealing a mechanism of cross-reactive recognition by antibody memory

摘要

Many devastating infectious diseases are caused by viruses that change over time. When a vaccine exists, it usually protects against a particular strain of virus, but often fails to defend against new versions of the microbe. This is why the flu vaccine has to be ‘updated’ every year, for example. Vaccines rely on the memory of our immune system. When a virus enters the body, a group of immune cells known as B cells gets activated. Certain B cells can recognise the invader and produce specific proteins, the antibodies, which can target and kill the invader. During the infection some of these B cells become ‘memory B cells’, having gone through a maturation process that hones their ability to specifically recognize this particular microbe. If the same virus enters the organism again, the memory B cells rapidly identify it and produce a quicker and more efficient immune response than during the first attack. This is how vaccines work. However memory B cells may not be able to recognize a previous intruder if it has changed too much. The memory B cell population is diverse. Some cells are fully mature and can quickly recognize the original virus. But others have not finished their maturation process these cells are less focussed, and cannot target the original microbe with the same exact precision shown by mature memory cells. For almost forty years it was thought that this reduced focus might make the immature cells better at identifying new versions of the original attacker, but up until now, it was not clear what these memory cells could do. Here Burton, Tennant et al. injected a group of mice with proteins from the Dengue virus, which prompted an immune reaction. After several weeks, the animals received either the same proteins again, or proteins that were different. Compared to the fully mature cells, the immature memory B cells were much better at recognizing the variants of the proteins, and these cells then multiplied and mounted an immune response. Without the original protein injection, the response without the immature memory B cells was not as efficient. The body therefore has a pool of memory B cells that can recognise a wider range of virus protein variants than the ones that caused the first immune reaction. Understanding the role of immature memory B cells in immunity could help design vaccines that protect against several strains or fast-evolving viruses. This could have the potential to reduce the severity of diseases that affect hundreds of millions of people every year.