ORDB: Neuron - Piriform cortex anterior interneuron deep layer GABA cell

Neuron

Data

Name

Piriform cortex anterior interneuron deep layer GABA cell

Picture

Canonical Form Type

Canonical form 2 Show Other

Picture from

Haberly, LB, in Synaptic Organization of the Brain, 4th ed. (Shepherd, GM, ed.) New York: Oxford University Press 1998.

Organism

Vertebrates Show Other

Neuron category

interneuron Show Other

Neuron type

cell rotation

Coordinates(2D)

261,-60

Description

Electrophysiological properties

NeuroLex

Layer

Hodology

Molecular Marker

Neuronal Receptors (10)

SN	Property present	CF-Compartment	Receptor	Connect Note	Publication facts
1	Yes	Distal equivalent dendrite	AMPA		Morphological evidence of local contact by pyramidal neurons
2	Yes	Axon terminal	Cholinergic Receptors	Ach action: pre- or postsynaptic?	Cholinergic agonist carbachol caused a significant suppression of inhibitory postsynaptic potentials (IPSPs) in the pyramidal neurons that were induced by stimulation of layer Ib, with a weaker effect on IPSPs induced by stimulation of layer Ia
3	Yes	Soma	Cholinergic Receptors	Acetylcholine action: pre- or post-synaptic?	Cholinergic agonist carbachol caused a significant suppression of inhibitory postsynaptic potentials (IPSPs) in the pyramidal neurons that were induced by stimulation of layer Ib, with a weaker effect on IPSPs induced by stimulation of layer Ia
4	Yes	Distal equivalent dendrite	5-HT2		PKC may have a negative feedback role in modulating excitation by 5-HT in piriform cortical interneurons
5	Yes	Distal equivalent dendrite	Alpha1		A subpopulation of interneurons in layer III of the rat piriform cortex are excited by 5-hydroxytryptamine (5-HT) via 5-HT2A receptors and by norepinephrine via alpha 1-adrenoceptors.
6	Yes	Distal equivalent dendrite	Monoamine Receptors		IPSPs elicited by monoamines in pyramidal cells result from a convergence of inputs from populations of layer II/III interneurons that are activated by one, two or all three of the following monoamines 5-HT, NE, and DA.
7	Yes	Soma	Gaba	GABAergic input?	GABAergic interneurons in deeper layers of piriform cortex receive symmetric synapses as well as asymmetric synapses
8	Yes	Proximal equivalent dendrite	Gaba	GABAergic input?	GABAergic interneurons in deeper layers of piriform cortex receive symmetric synapses as well as asymmetric synapses
9	Yes	Axon terminal	GabaB	GABAB presynaptic mechanism?	Although both the soma and distal dendrites have both the fast and slow GABAA-mediated IPSCs, there is a greater proportion of slow component in the dendrites. Slow GABAA mediated IPSC component is regulated by presynaptic GABAB inhibition (at the interneuron terminals?) whereas the fast is not
10	Yes	Distal equivalent dendrite	NMDA

Neuronal Currents (4)

SN	Property present	CF-Compartment	Current	Publication facts
1	Yes	Soma	I T low threshold
2	Yes	Soma	I Na,t	TTX-sensitive sodium current (possibly of the transient type?) may also be present
3	Yes	Soma	I M	I M may contribute to a sag and rebound of voltage response to hyperpolarizing current steps
4	Yes	Soma	I A	Some diferences in the neurons in the deeper layers (v.s. those in the superficial layers) can be accounted for by differences in the IA channel in the cells

Neuronal Transmitters (1)

SN	Property present	CF-Compartment	transmitter	Connect Note	Publication facts
1	Yes	Axon terminal	Gaba	onto pyramidal neuron	Dendritic GABAA-mediated IPSPs act largely independent of somatic IPSPs and may regulate facilitation of MNDA-mediated respnses

Other categories referring to Piriform cortex anterior interneuron deep layer GABA cell

Interneurons Connectivity.Interneuron (1)

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

Neuronal Structure.Neurons (1)

Revisions:	16
Last Time:	4/22/2019 12:06:35 PM
Reviewer:	System Administrator
Owner:	Buqing Mao