Vasopressin-induced currents in rat neonatal spinal lateral horn neurons are G-protein mediated and involve two conductances.

@article{Kolaj1998VasopressininducedCI,
  title={Vasopressin-induced currents in rat neonatal spinal lateral horn neurons are G-protein mediated and involve two conductances.},
  author={Miloslav Kolaj and Leo P. Renaud},
  journal={Journal of neurophysiology},
  year={1998},
  volume={80 4},
  pages={
          1900-10
        }
}
Arginine vasopressin (AVP) receptors are expressed early in the developing spinal cord. To characterize AVP-induced conductances in lower thoracic sympathetic preganglionic (SPN) and other lateral horn neurons, we used patch-clamp recording techniques in neonatal (11-21 days) rat spinal cord slices. Most (90%) of 273 neurons, including all 68 SPNs, responded to AVP with membrane depolarization and/or a V1 receptor-mediated, dose-dependent (0.01-1.0 microM) and tetrodotoxin (TTX)-resistant… 
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Observations provide support for a broad presynaptic and postsynaptic distribution of AVP V(1) type receptors and indicate that their activation can enhance the excitability of a majority of neurons in neonatal ventral spinal cord.
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Observations reveal a direct, G-protein-mediated depolarizing action of ANG II on neonatal rat ventral horn neurons and imply involvement of two distinct conductances that are differentially distributed among different cell types.
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The results imply that VP acts at V(1a) receptors to excite GABAergic neurons that are presynaptic to a population of magnocellular PVN neurons the identity of which features a unique rebound depolarization.
Presynaptic angiotensin II AT1 receptors enhance inhibitory and excitatory synaptic neurotransmission to motoneurons and other ventral horn neurons in neonatal rat spinal cord.
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Observations support the existence of a wide pre- and postsynaptic distribution of ANG II AT1 receptors in neonatal ventral spinal cord that are capable of influencing both inhibitory and excitatory neurotransmission.
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It is shown that the bath application of AVP or OXT can evoke an increase in population bursting of motoneurons recorded from the lumbar ventral roots, and data point to a novel role for AVP and OXT in the activation of spinal motor networks.
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