Modulation of forebrain function by nucleus incertus and relaxin‐3/ RXFP RXFP 3 signaling

摘要

Summary The nucleus incertus ( NI ) in the pontine tegmentum sends ascending projections to the midbrain, hypothalamus, amygdala, basal forebrain, hippocampus, and prefrontal cortex, and has a postulated role in modulating several forebrain functions. A substantial population of GABA ergic NI neurons expresses the neuropeptide, relaxin‐3, which acts via the G i/o ‐protein‐coupled receptor, RXFP 3, present throughout the forebrain target regions. Broad and specific manipulations of these systems by activation or inhibition of the NI or modulating RXFP 3 signaling have revealed key insights into the likely influence of the NI /relaxin‐3/ RXFP 3 system on modalities including arousal, feeding, stress responses, anxiety and addiction, and attention and memory. This range of actions corresponds to a likely impact of NI /(relaxin‐3) projections on multiple integrated circuits, but makes it difficult to draw conclusions about a generalized function for this network. This review will focus on the key physiological process of oscillatory theta rhythm and the neural circuits that promote it during behavioral activation, highlighting the ability of NI and relaxin‐3/ RXFP 3 signaling systems to modulate these circuits. A better understanding of these mechanisms may provide a way to therapeutically adjust malfunction of forebrain activity present in several pathological conditions.