Microglial MyD88-dependent signaling influences extracellular matrix development and interneuron maturation in the hippocampus.
Julia E Dziabis, Irene O Jonathan, Benjamin L Horvath, Grace Zhang, Michael S Patton, Caroline J Smith, Dang M Nguyen, Mahika Jammula, Benjamin A Devlin, S K Monroe, Erica J Freeman, A Brayan Campos-Salazar, Madeline J Clark, Staci D Bilbo
Abstract
Open AccessParvalbumin interneurons (PVIs) are disrupted across diverse neurodevelopmental disorders, highlighting their vulnerability to developmental perturbations. Inflammation can perturb PVI development and function, and inflammatory mechanisms are often propagated within the brain by microglia. Yet the microglial mechanisms linking inflammatory signals to interneuron development are unclear. To test the role of microglial innate immune signaling in PVI development, we used mice lacking toll-like receptor adaptor MyD88 specifically in microglia. MyD88-deficient microglia showed reduced inflammatory responses but increased early-life phagocytosis of inhibitory synaptic material. In adulthood, males without microglial MyD88 exhibited increased hippocampal PVI density, increased extracellular matrix (ECM) deposition, increased inhibitory signaling, and impaired discrimination behaviors. We determined the cytokine interleukin (IL)-33, which normally drives adult microglial remodeling of the ECM, is developmentally regulated in the hippocampus. MyD88-deficient microglia fail to respond to IL-33, leading to reduced remodeling of the ECM component aggrecan. These results reveal microglial immune signaling via MyD88 regulates hippocampal inhibitory circuit development in a sex-specific manner.