ORDB: Neuron - Olfactory bulb main interneuron periglomerular GABA cell

Neuron

Data

Name

Olfactory bulb main interneuron periglomerular GABA cell

Picture

Canonical Form Type

Canonical form 2 Show Other

Picture from

Cajal (1911) Histology of the Nervous System of Man and Vertebrates (p537, English translation, 1995)

Organism

Vertebrates Show Other

Neuron category

interneuron Show Other

Neuron type

cell rotation

Coordinates(2D)

159,394

Description

Electrophysiological properties

130

NeuroLex

Layer

Hodology

Molecular Marker

Neuronal Receptors (19)

SN	Property present	CF-Compartment	Receptor	Connect Note	Publication facts
1	Yes	Soma	Gaba	Primary culture	In primary culture, GABA and glycine exert inhibitory actions on olfactory bulb neurons, mitral/tufted cells, granule and periglomerular cells
2	Yes	Soma	Kainate		In an immunocytochemical study in zebrafish 60-70% of cells showed KA receptor mediated labelling
3	Yes	Soma	NMDA		In an immunocytochemical study in zebrafish all cells resulted in NMDA receptor mediated labelling
4	Yes	Soma	mGluR1
5	Yes	Soma	mGluR2
6	Yes	Soma	mGluR3
7	Yes	Proximal equivalent dendrite	Serotonin
8	Yes	Proximal equivalent dendrite	mGluR1
9	Yes	Proximal equivalent dendrite	mGluR2
10	Yes	Proximal equivalent dendrite	mGluR3
11	Yes	Soma	Gaba	Possibly from other interneurons in the glomerular layer.	It was shown that stimulation of PG cells results in self-inhibition: release of GABA from an individual PG cell activates GABA(A) receptors on the same neuron
12	Yes	Soma	Glycine	primary culture	Glycine and GABA exert inhibitory actions on olfactory bulb neurons, mitral/tufted cells, granule and periglomerular cells).
13	Yes	Soma	Nicotinic	culture cells	Application of acetylcholine (ACh) evoked concentration-dependent whole-cell currents
14	Yes	Distal equivalent dendrite	Cholinergic Receptors		In triads made up of (i) a cholinergic axon, (ii) one or several periglomerular or granule cell dendrites, and (iii) usually one relay cell dendrite, asymmetric cholinergic synapses were selectively focused on dendrites (gemmules and spines) of periglomerular or granule cells.
15	Yes	Soma	Cholinergic Receptors	primary culture	Periglomerular cells respond to microapplication of GABA, acetylcholine, norepinephrine and glycine with the activation of distinct ionic currents.
16	Yes	Distal equivalent dendrite	AMPA
17	Yes	Distal equivalent dendrite	NMDA
18	Yes	Distal equivalent dendrite	GabaA
19	Yes	Distal equivalent dendrite	GabaB

Neuronal Currents (11)

SN	Property present	CF-Compartment	Current	Publication facts
1	Yes	Soma	I Na,t	Depolarisations beyond -40 mV activated a fast transient TTX-sensitive inward current. Once activated, INa declined exponentially to zero following a single exponential. The underlying conductance showed a sigmoidal activation between -40 and +30 mV, with half activation at -17.4 mV and a maximal value of 9.7 nS per neurone. The steady-state inactivation was complete at -30 mV and completely removed at -90 mV, with a midpoint at -56 mV. The activation process could be adequately described by third order kinetics, with time constants ranging from 260 microseconds at -20 mV to 70 microseconds at +50 mV.
2	Yes	Soma	I Calcium	Electrophysiological classification of juxtaglomerular neurons: bursting and standard firing. In contrast to the standard firing neurons, bursting neurons produced a calcium-channel-dependent low-threshold spike (LTS) when depolarized either by current injection or by spontaneous or evoked postsynaptic potentials. Bursting neurons also could oscillate spontaneously. Most bursting cells were either periglomerular cells or external tufted cells. Based on their mode of firing and placement in the bulb circuit, these bursting cells are well situated to drive synchronous oscillations in the olfactory bulb. LVA (low voltage-activated) Ca++ channel may be involved in LTS.
3	Yes	Soma	I h	histological experiments found Ih expressed in many olfactory bulb cell types including periglomerular cells.
4	Yes	Middle equivalent dendrite	I h	histological experiments found Ih expressed in many olfactory bulb cell types including periglomerular cells.
5	Yes	Soma	I A	mRNA of A-channel subunit Kv4.3 is expressed predominantly in periglomerular cells. (In contrast, that of Kv4.2, also of A-channel, is expressed predominantly in granule cells)
6	Yes	Soma	I h	Ih current: slowly developing hyperpolarisation-activated current with a threshold generally positive to resting potential and with a strongly voltage-dependent activation time constant. The current was Na+- and K+-sensitive, suppressed by external Cs+, and insensitive to Ba++. The Ih should be tonically active at rest, and may contribute to the oscillatory behaviour of the bulbar network
7	Yes	Soma	I p,q	The distribution of the P-type calcium channel in the mammalian central nervous system has been demonstrated immunohistochemically by using a polyclonal specific antibody. Electron microscopic localization revealed labeled patches of plasma membrane on the soma, main dendrites, spiny branchlets, and spines; portions of the smooth endoplasmic reticulum were also labeled. Strong labeling was present in the periglomerular cells of the olfactory bulb, ...etc
8		Soma	I Na,t	PG cells closely resembled previously described periglomerular cells in their morphology. During current clamp recording these neurons were characterized by their lack of action potentials upon depolarization. Consistent with these results no Na+ currents could be elicited in voltage clamp experiments. Two types of outward K+ currents were distinguished: one which inactivated and one which did not.
9	Yes	Soma	I K	Re: PG cells: Two types of outward K+ currents were distinguished: one which inactivated and one which did not.
10	Yes	Distal equivalent dendrite	I h	histological experiments found Ih expressed in many olfactory bulb cell types including periglomerular cells.
11	Yes	Proximal equivalent dendrite	I h	histological experiments found Ih expressed in many olfactory bulb cell types including periglomerular cells.

Neuronal Transmitters (8)

SN	Property present	CF-Compartment	transmitter	Publication facts
1	Yes	Distal equivalent dendrite	Gaba	GAD-positive staining gemmules (i.e., spines) of periglomerular cells also formed reciprocal dendrodentritic synaptic contacts with mitral/tufted cell dentrites.
2	Yes	Soma	Gaba	GAD-positive staining
3	Yes	Distal equivalent dendrite	NO	Using double-staining techniques, the distribution of NADPH-diaphorase (ND)- and nitric oxide synthase (NOS)-positive cells was compared in the periglomerular region of typical and atypical rat olfactory glomeruli. The number of ND/NOS-stained periglomerular cells was much higher (P < 0.001) in typical than in atypical glomeruli.
4	Yes	Distal equivalent dendrite	Dopamine	Dopaminergic subdivision of the periglomerular interneurons throughout classes of vertebrates.
5	Yes	Axon terminal	Dopamine
6	Yes	Axon terminal	Gaba
7	Yes	Axon terminal	NO
8	Yes	Middle equivalent dendrite	Gaba

Other categories referring to Olfactory bulb main interneuron periglomerular GABA cell

Interneurons Connectivity.Interneuron (1)

2 Objects Relationship (edge).Object Two (target) (1)

ABA Genes.Neuron (1)

Neuronal Structure.Neurons (1)

Revisions:	7
Last Time:	12/18/2015 2:50:31 PM
Reviewer:	Luis Marenco
Owner:	Buqing Mao