026 Vasoactive Intestinal Polypeptide Directly Excites Neurons of the Subparaventricular Zone

Abstract

Abstract Introduction The suprachiasmatic nucleus (SCN) is responsible for generating the circadian rhythmicity in mammals. The ventral region or core of the SCN contains neurons that express the neuropeptide vasoactive intestinal polypeptide (VIP). VIP signaling is central for coherency and synchrony of SCN activity. VIP-expressing neurons in the SCN densely project to the ventral subregions of the subparaventricular zone (vSPZ). We studied the effects of VIP on vSPZ neurons in brain slices of mice with a combined calcium imaging and whole-cell patch-clamp recording techniques. We used calcium imaging to assess the effects of VIP on vSPZ neurons as a population and we acquired patch-clamp recordings to explore the effects of VIP on the electrical properties and the synaptic inputs to vSPZ neurons. Methods We expressed GCamp6 in vSPZ neurons by stereotaxically injecting AAV10-DIO-Ef1a-GCamp6 into the vSPZ of vGAT-IRES-Cre mice. Brain slices were prepared two weeks later and images were captured using a standard GFP filter set. We performed whole-cell recordings of the vSPZ neurons of wild-type mice. We assessed the effects of VIP on the membrane potential and the on excitatory synaptic input in vSPZ neurons. Results Using GCamp6-based in vitro calcium imaging we found that VIP excites 17% of vSPZ neurons and this effect was maintained in the presence of tetrodotoxin (TTX) and synaptic blockers for AMPA/NMDA and GABAA transmissions suggesting a direct effect of VIP on vSPZ neurons. We confirmed this result with patch-clamp recordings. We found that 29% of vSPZ neurons were excited by VIP. VIP produced a membrane depolarization of vSPZ neurons in the presence of antagonists for AMPA/NMDA and GABAA receptors. In addition, we found that in a small percentage of vSPZ neurons VIP increased the frequency of the glutamatergic excitatory postsynaptic currents, suggesting an additional excitatory mechanism. Conclusion Our results demonstrate that exogenous VIP directly excites the vSPZ neurons producing an increase in intracellular calcium and membrane depolarization. In addition, VIP increases glutamatergic afferent inputs to vSPZ neurons indicating an additional synergistic excitation. We conclude that when VIP is released from the SCN VIP fibers it can activate vSPZ neurons. Support (if any) NS091126 and HL149630.