ORDB: Neuron - Hippocampus CA3 pyramidal GLU cell

Neuron

Data

Name

Hippocampus CA3 pyramidal GLU cell

Picture

Canonical Form Type

Canonical form 3 Show Other

Picture from

GM Shepherd, Synaptic Organization of the Brain, New York: Oxford University Press 1979.

Organism

Vertebrates Show Other

Neuron category

principal Show Other

Neuron type

Pyramidal Show Other

cell rotation

Coordinates(2D)

84,87

Description

The principal neuron of region CA3 of the hippocampus. It forms a single cell body layer. It gives rise to an apical dendritic tree and several basal dendrites, which are covered with spines. The apical shaft has thorny excresences which receive the excitatory glutamatergic synapses of the mossy fibers from the dentate granule cells. The output of the cell is carried in an axon which recurs to pass through the apical dendritic tree before becoming the Shafer collateral which has excitatory glutamatergic synapses on the apical dendrites of CA1 pyramidal neurons. The axon also makes excitatory glutamatergic synapses on the dendrites of the CA3 pyramidal neurons as it passes through them.

Electrophysiological properties

NeuroLex

Hippocampus_CA3_pyramidal_cell

Layer

Hodology

Molecular Marker

Neuronal Receptors (22)

SN	Property present	CF-Compartment	Receptor	Connect Note	Publication facts
1	Yes	Middle basal dendrite	Glutamate	CA3 Pyramidal Neuron terminals (T)
2	Yes	Axon terminal	NMDA		Unlike postsynaptic NMDAR's, they are potentiatedby physiologically relevant concentrations of taurine
3	Yes	Distal basal dendrite	Glutamate	CA3 Pyramidal Neuron terminals (T)
4	Yes	Proximal basal dendrite	Glutamate	CA3 Pyramidal Neuron terminals (T)
5	Yes	Middle apical dendrite	Glutamate	CA3 Pyramidal Neuron terminals (T)
6	Yes	Proximal apical dendrite	Glutamate	Dentate Granule Cell mossy terminals (T)
7	Yes	Soma	Nicotinic
8	Yes	Distal apical dendrite	AMPA	Perforant pathway entorhinal pyramidal neuron terminals (T)	Recordings from membrane patches of dendrites and soma reveal fast and slow responses to fast application of glutamate, mediated by AMPA amd NMDA receptors, respectively
9	Yes	Distal apical dendrite	NMDA	Perforant pathway entorhinal pyramidal neuron terminals (T)	Differential induction of potentiation and depression at commissural and mossy fiber synapses has also been shown by #R#158#E#. Recordings from membrane patches of dendrites and soma reveal fast and slow responses to fast application of glutamate, mediated by AMPA amd NMDA receptors, respectively
10	Yes	Middle apical dendrite	AMPA	CA3 Pyramidal neuron terminals (T)	It has also been found that CNQX does not block the intracellular calcium concentration increase normally associated with stratum lucidum stimulation
11	Yes	Middle apical dendrite	NMDA	CA3 Pyramidal neuron terminals (T)	Differential induction of potentiation and depression at commissural and mossy fiber synapses has also been shown by
12	Yes	Middle apical dendrite	mGluR	Receptor Notes Dentate Granule Cell mossy terminals (T)	It has also been shown (using whole and perforated patch recording from acutely isolated CA3 pyramidal neurons) that application of Glu and quisqualatic acid (in the presence of D-AP5, an NMDAR-antagonist, and CNQX, an AMPAR antagonist) results in responses that consist of an inward current that may be preceded by an outward current. Both of these currents are affected by bath [K] and they had different pharmacological properties (Harata et al, 1996).
13	Yes	Middle apical dendrite	Gaba	CA3 Basket Cell terminals (T)	A study using simultaneous intracellular recording from interneurons and pyramidal neurons combined with biocytin cell fills and morphological reconstructions revealed that the interneurons made connections onto the soma and proximal dendrites of the pyramidal neuron and that stimulation of the interneurons evoked IPSPs in the pyramidal neurons. EM microscopy revealed differential numbers of terminals depending on the subcellular locus of the connections.
14	Yes	Middle apical dendrite	GabaA	CA3 Basket Cell terminals (T)	There is also evidence that Zn+ can modulate bicuculline-sensitive responses to GABA early in development in rat (studied less than 8 days old)
15	Yes	Middle apical dendrite	GabaB	CA3 Basket Cell terminals (T)	Hilar stimulation has been used to elicit (pharmacologically isolated) IPSPs in CA3 pyramidal neurons (recorded by means of intracellular or whole cell methods depending on the age of the animal). Paired pulse stimulation in this preparation resulted in paired pulse depression, which could be reduced by bath application of CGP35348 (a GABA(B)R antagonist) in adult rats. Neonatal rats (5-7 days old) showed paired pulse depression only within a much shorter range of interstimulus intervals and it was not affected by CGP35348 unless transmitter release was facilitated by raising the bath [Ca2+] and lowering the bath [Mg+]
16	Yes	Soma	AMPA	-----	[ed. note: we are not aware of glutamatergic synapses onto the soma] Recordings from membrane patches of dendrites and soma reveal fast and slow responses to fast application of glutamate, mediated by AMPA amd NMDA receptors, respectively
17	Yes	Soma	NMDA	-----	[ed. note: These data disagree on the presence of NMDA receptors in the soma. For a full description of the properties of NMDA receptors in CA3 pyramidal neurons, please see the apical dendritic compartments.] Recordings from membrane patches of dendrites and soma reveal fast and slow responses to fast application of glutamate, mediated by AMPA amd NMDA receptors, respectively
18	Yes	Soma	mGluR	-----	It has also been shown (using whole cell and perforated patch recording from acutely isolated CA3 pyramidal neurons) that application of Glu and quisqualatic acid (in the presence of D-AP5, an NMDAR-antagonist, and CNQX, an AMPAR antagonist) results in responses that consist of an inward current that may be preceded by an outward current. Both of these currents are affected by bath [K] and they had different pharmacological properties (Harata et al. 1996 #8680866).
19	Yes	Soma	Gaba	CA3 Basket Cell terminals (T)	A study using simultaneous intracellular recording from interneurons and pyramidal neurons combined with biocytin cell fills and morphological reconstructions revealed that the interneurons made connections onto the soma and proximal dendrites of the pyramidal neuron and that stimulation of the interneurons evoked IPSPs in the pyramidal neurons. EM microscopy revealed differential numbers of terminals depending on the subcellular locus of the connections.
20	Yes	Soma	GabaA	CA3 Basket Cell terminals (T)	There is also evidence that Zn+ can modulate bicuculline-sensitive responses to GABA early in development in rat (studied less than 8 days old)
21	Yes	Soma	GabaB	CA3 Basket Cell terminals (T)	Hilar stimulation has been used to elicit (pharmacologically isolated) IPSPs in CA3 pyramidal neurons (recorded by means of intracellular or whole cell methods depending on the age of the animal). Paired pulse stimulation in this preparation resulted in paired pulse depression, which could be reduced by bath application of CGP35348 (a GABA(B)R antagonist) in adult rats. Neonatal rats (5-7 days old) showed paired pulse depression only within a much shorter range of interstimulus intervals and it was not affected by CGP35348 unless transmitter release was facilitated by raising the bath [Ca2+] and lowering the bath [Mg+]
22	Yes	Axon terminal	NO		Experimental findings support a cascade for induction of homosynaptic, NO-dependent LTD involving activation of guanylyl cyclase, production of guanosine 3',5' cyclic monophosphate and subsequent PKG activation. This process has an additional requirement for release of Ca2+ from ryanodine-sensitive stores

Neuronal Currents (22)

SN	Property present	CF-Compartment	Current	Publication facts
1	Yes	Distal apical dendrite	I p,q
2	Yes	Middle apical dendrite	I p,q
3	Yes	Proximal apical dendrite	I p,q
4	Yes	Axon hillock	I Na,t
5	Yes	Axon hillock	I K
6	Yes	Axon fiber	I Na,t
7	Yes	Axon terminal	I N
8		Proximal apical dendrite	I Na,t	Extracellular recordings in vivo suggested that the dendritic density of these channels rapidly decreases with distance from soma
9	Yes	Soma	I K,Ca	In situ hybridization of three cloned SK channel subunits (SK1-3), the prime candidates likely to underlie Ca(2+)-dependent AHPs showed high levels of expression in regions presenting prominent AHP currents including CA1-3 regions of the hippocampus (SK1 and SK2), reticularis thalami (SK1 and SK2), supraoptic nucleus (SK3), and inferior olivary nucleus (SK2 and SK3)
10	Yes	Proximal apical dendrite	I K	A combined in situ hybridization and immunocytochemical study demonstrated that Kv1.2 (which probably corresponds to I(K) channels) is concentrated in the dendrites of CA3 neurons
11	Yes	Soma	I h	Depolarizing "sag" during larger hyperpolarizing voltage transients is indicative of Ih current in determinating the passive membrane properties of CA1 pyramidal neurons
12	Yes	Distal apical dendrite	I K	A combined in situ hybridization and immunocytochemical study demonstrated that Kv1.2 (which may correspond to I(K) channels) is concentrated in the dendrites of CA3 neurons
13	Yes	Middle apical dendrite	I K	A combined in situ hybridization and immunocytochemical study demonstrated that Kv1.2 (which probably corresponds to I(K) channels) is concentrated in the dendrites of CA3 neurons
14	Yes	Middle apical dendrite	I L high threshold	and it has been shown that nimodipine (an L-channel antagonist) prevents certain mossy fiber LTP-types from taking place
15	Yes	Middle apical dendrite	I T low threshold	Whole cell recording from acutely isolated rat CA3 pyramidal neurons revealed a transient (59 msec decay time constant) that was inhibited by Ni2+ and amiloride
16	Yes	Soma	I Na,t	Recordings using the intracellular perfusion method showed no differences between the I-V characteristics of CA1 and CA3 neurones for this current. In contrast to this, the steady-state inactivation of both types of neurones was significantly different
17	Yes	Soma	I L high threshold	It has been suggested that voltage-gated calcium channels play a role in LTP (Johnston et al. 1992), and it has been shown that nimodipine (an L-channel antagonist) prevents certain mossy fiber LTP-types from taking place
18	Yes	Soma	I N	Bath application of omega-conotoxin MVIIC blocked (with rapid kinetics) approximately 20% of the high-voltage activated Ca2+ current, suggesting the presence of N-channels measured in whole-cell recordings
19	Yes	Soma	I T low threshold	Whole cell recording from acutely isolated rat CA3 pyramidal neurons revealed a transient (59 msec decay time constant) that was inhibited by Ni2+ and amiloride
20	Yes	Soma	I p,q	Bath application of omega-conotoxin MVIIC (an antagonist of N and P channels) blocked (with slow kinetics) approximately 30% of the high-voltage activated Ca2+ current measured in whole-cell recordings
21	Yes	Soma	I A	In a study of acutely isolated rat cells under whole cell recording across developmental states (Day 6 - Day 29), I(A) was separated from I(K) by subtraction methods. It was found that I(A) was rapidly activated and inactivated and was 80% blocked by 4-AP (4-aminopyridine), but was insensitive to TEA (tetraethylammonium) and dendrotoxin (Klee et al, 1995). The current has also been shown to be modulated by K concentration (Eder et al, 1996), though this effect appears to be restricted to very early in development (Klee et al, 1997).
22	Yes	Soma	I K	A combined in situ hybridization and immunocytochemical study demonstrated that Kv1.2 (which may correspond to I(K) channels) is concentrated in the dendrites of CA3 neurons

Neuronal Transmitters (1)

SN	Property present	CF-Compartment	transmitter	Connect Note	Publication facts
1	Yes	Axon terminal	Glutamate	CA1 Pyramidal Neuron: Dam

Other categories referring to Hippocampus CA3 pyramidal GLU cell

Pathological mechanism.Neuron (1)

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

ABA Genes.Neuron (1)

Neuronal Structure.Neurons (1)

Revisions:	13
Last Time:	12/18/2015 11:12:17 AM
Reviewer:	System Administrator
Owner:	System Administrator