Axonal iron transport in the brain modulates anxiety-related behaviors

Iron is essential for a broad range of biochemical processes in the brain, but the mechanisms of iron metabolism in the brain remain elusive. Here we show that iron functionally translocates among brain regions along specific axonal projections. We identified two pathways for iron transport in the brain: a pathway from ventral hippocampus (vHip) to medial prefrontal cortex (mPFC) to substantia nigra; and a pathway from thalamus (Tha) to amygdala (AMG) to mPFC. While vHip–mPFC transport modulates anxiety-related behaviors, impairment of Tha–AMG–mPFC transport did not. Moreover, vHip–mPFC iron transport is necessary for the behavioral effects of diazepam, a well-known anxiolytic drug. By contrast, genetic or pharmacological promotion of vHip–mPFC transport produced anxiolytic-like effects and restored anxiety-like behaviors induced by repeated restraint stress. Taken together, these findings provide key insights into iron metabolism in the brain and identify the mechanisms underlying iron transport in the brain as a potential target for development of novel anxiety treatments. Iron is transported from the ventral hippocampus to the medial prefrontal cortex unidirectionally in the brain via axonal projections. This transport is involved in mediating anxiety and the anxiolytic effects of diazepam.