- Title
- Properties of Deiters' neurons and inhibitory synaptic transmission in the mouse lateral vestibular nucleus
- Creator
- Stitt, I. M.; Wellings, T. P.; Drury, H. R.; Jobling, P.; Callister, R. J.; Brichta, A. M.; Lim, R.
- Relation
- Journal of Neurophysiology Vol. 128, Issue 1, p. 131-147
- Publisher Link
- http://dx.doi.org/10.1152/jn.00016.2022
- Publisher
- American Physiological Society
- Resource Type
- journal article
- Date
- 2022
- Description
- Deiters’ neurons, located exclusively in the lateral vestibular nucleus (LVN), are involved in vestibulospinal reflexes, innervate extensor motoneurons that drive antigravity muscles, and receive inhibitory inputs from the cerebellum. We investigated intrinsic membrane properties, short-term plasticity, and inhibitory synaptic inputs of mouse Deiters’ and non-Deiters’ neurons within the LVN. Deiters’ neurons are distinguished from non-Deiters’ neurons by their very low input resistance (105.8 vs. 521.8 MΩ, respectively), long axons that project as far as the ipsilateral lumbar spinal cord, and expression of the cytostructural protein nonphosphorylated neurofilament protein (NPNFP). Whole cell patch-clamp recordings in brain stem slices show that most Deiters’ and non-Deiters’ neurons were tonically active (>92%). Short-term plasticity was studied by examining discharge rate modulation following release from hyperpolarization [postinhibitory rebound firing (PRF)] and depolarization [firing rate adaptation (FRA)]. PRF and FRA gain were similar in Deiters’ and non-Deiters’ neurons (PRF 24.9 vs. 20.2 Hz and FRA gain 231.5 vs. 287.8 spikes/s/nA, respectively). Inhibitory synaptic input to both populations showed that GABAergic rather than glycinergic inhibition dominated. However, GABAA miniature inhibitory postsynaptic current (mIPSC) frequency was much higher in Deiters’ neurons compared with non-Deiters’ neurons (∼15.9 vs. 1.4 Hz, respectively). Our data suggest that Deiters’ neurons can be reliably identified by their intrinsic membrane and synaptic properties. They are tonically active and glutamatergic, have low sensitivity or “gain,” exhibit little adaptation, and receive strong GABAergic input. Deiters’ neurons also have minimal short-term plasticity, and together these features suggest they are well suited to a role in encoding tonic signals for the vestibulospinal reflex. New & Noteworthy: Deiters’ neurons within the lateral vestibular nucleus project the length of the spinal cord and activate antigravity extensor muscles. Deiters’ neurons were characterized anatomically and physiologically in mice. Deiters’ neurons are tonically active, have homogeneous intrinsic membrane properties, including low input resistance, and receive significant GABAAergic synaptic inputs. Deiters’ neurons show little modulation in response to current injection. These features are consistent with Deiters’ neurons responding to perturbations to maintain posture and balance.
- Subject
- Deiters' neurons; electrophysiology; immunolabeling; lateral vestibular nucleus
- Identifier
- http://hdl.handle.net/1959.13/1490138
- Identifier
- uon:52855
- Identifier
- ISSN:0022-3077
- Language
- eng
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