Neuropeptide Y neurons of the locus coeruleus inhibit noradrenergic system activity to reduce anxiety

Adaptive responses to challenging environments depend on optimal function of the locus coeruleus (LC), the brain’s main source of noradrenaline and primary mediator of the initial stress response. Built-in systems that exert regulatory control over the LC are largely unidentified. A good candidate system is neuropeptide Y (NPY), which is traditionally linked to anxiety-relief. Currently, the endogenous source of NPY to the LC, and how NPY-expressing neurons modulate the noradrenergic system to regulate anxiety remain unclear. We here identify, in mice, a novel NPY-expressing neuronal population (peri-LC _NPY) neighboring LC noradrenergic neurons that locally innervates the pericoerulean space. Moreover, we demonstrate that stress engages peri-LC _NPYneurons, increasing their excitability. Mimicking peri-LC _NPYneuronal activation using ex vivochemogenetics suppresses LC noradrenergic neuron activity, via an NPY Y1 receptor-mediated mechanism. Furthermore, in vivochemogenetic stimulation of peri-LC _NPYneurons results in Y1R-dependent anxiety-relief. Conversely, inhibiting peri-LC _NPYneurons increases anxiety-like behaviors. Together, we establish a causal role for peri-LC _NPY-mediated neuromodulation of the LC in the regulation of anxiety, providing novel insights in the endogenous mechanisms underlying adaptive responses to adversity.