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Input Receptors |
Intrinsic Currents |
Output Transmitters |
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Distal equivalent dendrite
|
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Stellate Cell terminals (T)
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GabaA
|
| Recordings in slices showed that GABA inhibition was mediated by GABA(B) receptors in the dendrites and GABA(A) receptors in the soma and dendrites (Vigot R and Batini C, 19971 ). |
|
Parallel Fiber terminals (T)
|
Glutamate
|
| Ionophoretic glutamate applied to dendrites depolarizes Purkinje cells. Glu is released from parallel fibers of granule cells |
|
|
GabaB
|
| found evidence for the presence of GABAB receptors on cell dendrites. Recordings in slices showed that GABA inhibition was mediated by GABA(B) receptors in the dendrites and GABA(A) receptors in the soma and dendrites. Therefore, the GABA released by stellate cells modulates Purkinje cells activity through two inhibitory mechanisms (Vigot R and Batini C, 19971 ). The cellular localization of GABAB binding was investigated using lesion techniques. It was suggested that the majority of cerebellar molecular layer GABAB binding sites are located on Purkinje cell dendrites. During development binding in the molecular layer peaks between postnatal day 14 and postnatal day 28 and then decreases to adult levels (Turgeon SM and Albin RL, 19932 ). |
|
|
I Na,t
|
|
|
I K,Ca
|
| Increased conductance may follow Ca impulses (Llinas and Walton 1998). |
|
I L high threshold
|
| reviewed in McCormick 1998). |
|
I A
|
| (Midtgaard J et al, 1993 [turtle]11 ). |
|
I K
|
| Increased conductance may follow Ca impulses (Llinas and Walton 1998). |
|
I p,q
|
| Intradendritic recordings show Ca-dependent plateau potentials and Ca impulses (Llinás R and Sugimori M, 1980 [rat]8 ). |
|
I Potassium
|
| Macropatch clamp and intracellular recordings in guinea pigs suggested that the pattern of Ca2+ spike firing in the dendrites of Purkinje cells is dynamically modulated by a highly aminopyridine-sensitive K+ current, and probably also by a Ca2+-activated potassium current (Etzion Y and Grossman Y, 199812 ). |
|
I Calcium
|
| The presence of Calcium channels was directly demonstrated by imaging studies (Lev-Ram V et al, 199213 ). |
|
|
|
Middle equivalent dendrite
|
|
Climbing Fiber terminals (T) and Parallel Fiber terminals (T)
|
Glutamate
|
| Ionophoretic glutamate applied to dendrites depolarizes Purkinje cells. Glu is released from parallel fibers of granule cells |
|
Stellate Cell terminals (T)
|
GabaA
|
| Recordings in slices showed that GABA inhibition was mediated by GABA(B) receptors in the dendrites and GABA(A) receptors in the soma and dendrites (Vigot R and Batini C, 19971 ). |
|
|
GabaB
|
| found evidence for the presence of GABAB receptors on cell dendrites. Recordings in slices showed that GABA inhibition was mediated by GABA(B) receptors in the dendrites and GABA(A) receptors in the soma and dendrites. Therefore, the GABA released by stellate cells modulates Purkinje cells activity through two inhibitory mechanisms (Vigot R and Batini C, 19971 ). The cellular localization of GABAB binding was investigated using lesion techniques. It was suggested that the majority of cerebellar molecular layer GABAB binding sites are located on Purkinje cell dendrites. During development binding in the molecular layer peaks between postnatal day 14 and postnatal day 28 and then decreases to adult levels (Turgeon SM and Albin RL, 19932 ). |
|
|
I Na,t
|
|
|
I L high threshold
|
| reviewed in McCormick 1998). |
|
I K
|
| Increased conductance may follow Ca impulses (Llinas and Walton 1998). |
|
I K,Ca
|
| Increased conductance may follow Ca impulses (Llinas and Walton 1998). |
|
I p,q
|
| Intradendritic recordings show Ca-dependent plateau potentials and Ca impulses (Llinás R and Sugimori M, 1980 [rat]8 ). |
|
I Potassium
|
| Macropatch clamp and intracellular recordings in guinea pigs suggested that the pattern of Ca2+ spike firing in the dendrites of Purkinje cells is dynamically modulated by a highly aminopyridine-sensitive K+ current, and probably also by a Ca2+-activated potassium current (Etzion Y and Grossman Y, 199812 ). |
|
I Calcium
|
| The presence of Calcium channels was directly demonstrated by imaging studies (Lev-Ram V et al, 199213 ). |
|
|
|
Proximal equivalent dendrite
|
|
Climbing Fiber terminals (T)
|
Glutamate
|
| Ionophoretic glutamate applied to dendrites depolarizes Purkinje cells. Glu is released from parallel fibers of granule cells |
|
Stellate Cell terminals (T)
|
GabaA
|
| Recordings in slices showed that GABA inhibition was mediated by GABA(B) receptors in the dendrites and GABA(A) receptors in the soma and dendrites (Vigot R and Batini C, 19971 ). |
|
|
GabaB
|
| found evidence for the presence of GABAB receptors on cell dendrites. Recordings in slices showed that GABA inhibition was mediated by GABA(B) receptors in the dendrites and GABA(A) receptors in the soma and dendrites. Therefore, the GABA released by stellate cells modulates Purkinje cells activity through two inhibitory mechanisms (Vigot R and Batini C, 19971 ). The cellular localization of GABAB binding was investigated using lesion techniques. It was suggested that the majority of cerebellar molecular layer GABAB binding sites are located on Purkinje cell dendrites. During development binding in the molecular layer peaks between postnatal day 14 and postnatal day 28 and then decreases to adult levels (Turgeon SM and Albin RL, 19932 ). |
|
|
I Na,t
|
| Simultaneous whole-cell recordings, made from the soma and dendrites rat brain slices, showed that AP evoked by either current pulses or synaptic stimulation of parallel or climbing fibers, always occurred first at the soma and decreased in amplitude with increasing distance into the dendrites. Simultaneous somatic and axonal recordings showed that these action potentials were initiated in the axon. Outside-out patches excised from the soma and dendrites up to about 100um revealed a channel density decreasing with distance from the soma. (Stuart G and Häusser M, 19943 ). However, in guinea pigs, a combination of high-speed imaging and simultaneous intracellular recordings showed that direct depolarization of the soma or dendrites never caused dendritic [Na+]i increases, suggesting that the climbing fiber-activated [Na+]i changes in the dendrites are due to Na+ entry through ligand-gated channels (Callaway JC and Ross WN, 1997 [guinea pig]4 ). NaV1.2 is substantially present throughout the dendrites, NaV1.1 is present in the soma and proximal dendrites, NaV1.6 is robustly present in cell bodies and dendrites, and NaV1.7 is absent from the cell (Ahn HS et al, 20115 ). (Schaller KL and Caldwell JH, 20036 ). (Dib-Hajj SD et al, 20107 ). |
|
I K,Ca
|
| Increased conductance may follow Ca impulses (Llinás R and Sugimori M, 1980 [rat]8 ). Llinas and Walton 1990). |
|
I p,q
|
| Intradendritic recordings show Ca-dependent plateau potentials and Ca impulses (Llinás R and Sugimori M, 1980 [rat]8 ). |
|
I K
|
| Increased conductance may follow Ca impulses (Llinas and Walton 1998). |
|
I L high threshold
|
| (Llinás R and Sugimori M, 1980 [rat]8 ). reviewed in Llinas and Walton, 1990). |
|
I Potassium
|
| Macropatch clamp and intracellular recordings in guinea pigs suggested that the pattern of Ca2+ spike firing in the dendrites of Purkinje cells is dynamically modulated by a highly aminopyridine-sensitive K+ current, and probably also by a Ca2+-activated potassium current (Etzion Y and Grossman Y, 199812 ). |
|
I Calcium
|
| The presence of Calcium channels was directly demonstrated by imaging studies (Lev-Ram V et al, 199213 ). |
|
|
|
Soma
|
|
Basket Cell terminals (T)
|
Gaba
|
| Basket cell activation elicits IPSPs in Purkinje cells for review see Llinas and Walton 1998). |
|
|
GabaA
|
| Recordings in slices showed that GABA inhibition was mediated by GABA(B) receptors in the dendrites and GABA(A) receptors in the soma and dendrites (Vigot R and Batini C, 19971 ). |
|
|
I Na,p
|
| Sensitive to TTX. This plateau potential underlies impulse bursting (Llinás R and Sugimori M, 1980 [guinea pig]10 ). |
|
I A
|
| Probably. |
|
I Na,t
|
| Sensitive to TTX. This generates the impulses that propagate into the axon (Llinás R and Sugimori M, 1980 [guinea pig]10 ). Simultaneous whole-cell recordings, made from the soma and dendrites rat brain slices, showed that AP evoked by either current pulses or synaptic stimulation of parallel or climbing fibers, always occurred first at the soma and decreased in amplitude with increasing distance into the dendrites. Simultaneous somatic and axonal recordings showed that these action potentials were initiated in the axon (Stuart G and Häusser M, 19943 ). The kinetics properties of this current were studied using whole-cell recording from dissociated neurons. Unlike other cells, recovery from inactivation was accompanied by a sizeable ionic current. It was suggested that the current flowing during this recovery may depolarize the cells immediately after an AP, promoting the typical high-frequency firing of these neurons (complex spike) (Raman IM and Bean BP, 20019 ). NaV1.1 is present in the soma and proximal dendrites, NaV1.6 is robustly present in cell bodies and dendrites, and NaV1.7 is absent from the cell (Ahn HS et al, 20115 ). (Schaller KL and Caldwell JH, 20036 ). (Dib-Hajj SD et al, 20107 ). |
|
I K,Ca
|
| (Llinás R and Sugimori M, 1980 [guinea pig]10 ). reviewed in Llinas and Walton, 1990). |
|
I K
|
| a fast voltage activated potassium current that generates the afterhyperpolarization following a fast spike." (data from (Llinás R and Sugimori M, 1980 [guinea pig]10 ). quote from the review in Llinas and Walton 1990). |
|
I T low threshold
|
| Suggested. |
|
I Calcium
|
| The presence of Calcium channels was directly demonstrated by imaging studies (Lev-Ram V et al, 199213 ). |
|
|
|
Axon hillock
|
|
Basket Cell terminals (T)
|
Gaba
|
| Basket cell activation elicits IPSPs in Purkinje cells for review see Llinas and Walton 1998). |
|
|
I K
|
|
|
I Na,t
|
| Simultaneous whole-cell recordings, made from the soma and dendrites rat brain slices, showed that AP evoked by either current pulses or synaptic stimulation of parallel or climbing fibers, always occurred first at the soma and decreased in amplitude with increasing distance into the dendrites. Simultaneous somatic and axonal recordings showed that these action potentials were initiated in the axon (Stuart G and Häusser M, 19943 ). The kinetics properties of this current were studied using whole-cell recording from dissociated neurons. Unlike other cells, recovery from inactivation was accompanied by a sizeable ionic current. It was suggested that the current flowing during this recovery may depolarize the cells immediately after an AP, promoting the typical high-frequency firing of these neurons (complex spike) (Raman IM and Bean BP, 20019 ). |
|
|
|
Axon fiber
|
|
|
|
|
Axon terminal
|
|
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