In vivo characterization of functional states of cortical microglia during peripheral inflammation

Abstract

Peripheral inflammation is known to trigger a mirror inflammatory response in the brain, involving brain’s innate immune cells – microglia. However, the functional phenotypes, which these cells adopt in the course of peripheral inflammation, remain obscure. In vivo two-photon imaging of microglial Ca2+ signaling as well as process motility reveals two distinct functional states of cortical microglia during a lipopolysaccharide-induced peripheral inflammation: an early “sensor state” characterized by dramatically increased intracellular Ca2+ signaling but ramified morphology and a later “effector state” characterized by slow normalization of intracellular Ca2+ signaling but hypertrophic morphology, substantial IL-1β production in a subset of cells as well as increased velocity of directed process extension and loss of coordination between individual processes. Thus, lipopolysaccharide-induced microglial Ca2+ signaling might represent the central element connecting receptive and executive functions of microglia.