Nrp2 is sufficient to instruct circuit formation of mitral-cells to mediate odour-induced attractive social responses.
Kasumi InokuchiFumiaki ImamuraHaruki TakeuchiRyang KimHiroyuki OkunoHirofumi NishizumiHaruhiko BitoTakefumi KikusuiHitoshi SakanoPublished in: Nature communications (2017)
Odour information induces various innate responses that are critical to the survival of the individual and for the species. An axon guidance molecule, Neuropilin 2 (Nrp2), is known to mediate targeting of olfactory sensory neurons (primary neurons), to the posteroventral main olfactory bulb (PV MOB) in mice. Here we report that Nrp2-positive (Nrp2+) mitral cells (MCs, second-order neurons) play crucial roles in transmitting attractive social signals from the PV MOB to the anterior part of medial amygdala (MeA). Semaphorin 3F, a repulsive ligand to Nrp2, regulates both migration of Nrp2+ MCs to the PV MOB and their axonal projection to the anterior MeA. In the MC-specific Nrp2 knockout mice, circuit formation of Nrp2+ MCs and odour-induced attractive social responses are impaired. In utero, electroporation demonstrates that activation of the Nrp2 gene in MCs is sufficient to instruct their circuit formation from the PV MOB to the anterior MeA.
Keyphrases
- healthcare
- induced apoptosis
- spinal cord
- mitral valve
- mental health
- high glucose
- left ventricular
- spinal cord injury
- diabetic rats
- heart failure
- endothelial cells
- left atrial
- gene expression
- drug induced
- genome wide
- cancer therapy
- functional connectivity
- social media
- atrial fibrillation
- free survival
- image quality
- optic nerve