Dendritic cells are rapidly activated when DNA is exposed to the cytosol, which can occur in viral infections. Recent in vitro work has revealed that DNA is also transiently accessible to the cytosol in migrating DCs due to rupture of the nuclear envelope, and is detected by the cytosolic DNA sensor cGAS. The immune consequences of nuclear envelope rupture in vivo are unknown and were investigated as the first objective of this project.
Viral infection of DCs impairs their immune functions. Unpublished data has revealed that in humans, the CD141+ DC subset is constitutively resistant to a broad range of enveloped viruses. Resistance was associated with the expression of the GTPase, RAB15. In the second objective of this project, the function of RAB15 in DC biology was investigated in vivo to study the division of antiviral labor among DC subsets.
Dissecting the mechanisms that regulate the immune system is critical for the development of novel therapeutic strategies including vaccines, anti-tumor therapies and other means of immunomodulation.