Cells of the innate immune system are capable of memory , and of mounting rapid protection to an otherwise lethal dose of live vaccinia virus, a study has demonstrated.
Cells of the innate immune system are capable of "memory", and of mounting rapid protection to an otherwise lethal dose of live vaccinia virus, a study has demonstrated. The study challenges previous thought that only B cells and T cells can store memory to ward off future infection.
The finding, by researchers from Beth Israel Deaconess Medical Center, Harvard Medical School, and Hebrew University and Duke University, has potentially significant consequences for the design of future vaccines, particularly for HIV.
Immunological "memory" is what the immune system builds to respond more effectively to pathogens (such as bacteria and viruses) that the host organism has encountered previously.
Traditionally, immunological "memory" has been thought to reside within the cells of the adaptive arm of the immune system (B cells and T cells) that recognize highly specific portions of pathogens through unique receptors.
This study, lead by Dr. Geoffrey Gillard, shows that an innate population of cells, called natural killer (NK) cells form "memory" to vaccinia virus infection despite the fact that they lack the receptors of traditional "memory" cells.
Transfer of "memory" NK cells into immunodeficient mice was enough to protect these mice against a normally lethal exposure to vaccinia virus.
Advertisement
Understanding how innate "memory" functions will be critical for incorporating this property into more effective vaccines, particularly as part of a vaccine against HIV.
Advertisement
The study has been published in the Open Access journal PLoS Pathogens on August 4.
Source-ANI