2007
DOI: 10.1152/jn.00509.2006
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Opposing Modifications in Intrinsic Currents and Synaptic Inputs in Post-Traumatic Mossy Cells: Evidence for Single-Cell Homeostasis in a Hyperexcitable Network

Abstract: Recent experimental and modeling results demonstrated that surviving mossy cells in the dentate gyrus play key roles in the generation of network hyperexcitability. Here we examined if mossy cells exhibit long-term plasticity in the posttraumatic, hyperexcitable dentate gyrus. Mossy cells 1 wk after fluid percussion head injury did not show alterations in their current-firing frequency (I-F) and current-membrane voltage (I-V) relationships. In spite of the unchanged I-F and I-V curves, mossy cells showed exten… Show more

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Cited by 59 publications
(73 citation statements)
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References 84 publications
(111 reference statements)
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“…The threshold for the first action potential was determined by calculating the first time derivative (dV/dt) of the voltage trace and setting 30 mV/ms as the threshold level for action potential initiation. The membrane voltage at the time when dV/dt value crossed 30 mV/ms was measured as the action potential threshold (Cooper et al, 2003;Howard et al, 2007). Spike frequency adaptation ratio was calculated as the ratio of the interspike interval between the first two and last two spikes in response to a ϩ200 pA current injection for 1 s. In SGCs, the input resistance was determined from the slope of linear fits to the steady-state voltage responses during current injections in the range of Ϫ200 -0 pA (in 40 pA steps).…”
Section: Methodsmentioning
confidence: 99%
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“…The threshold for the first action potential was determined by calculating the first time derivative (dV/dt) of the voltage trace and setting 30 mV/ms as the threshold level for action potential initiation. The membrane voltage at the time when dV/dt value crossed 30 mV/ms was measured as the action potential threshold (Cooper et al, 2003;Howard et al, 2007). Spike frequency adaptation ratio was calculated as the ratio of the interspike interval between the first two and last two spikes in response to a ϩ200 pA current injection for 1 s. In SGCs, the input resistance was determined from the slope of linear fits to the steady-state voltage responses during current injections in the range of Ϫ200 -0 pA (in 40 pA steps).…”
Section: Methodsmentioning
confidence: 99%
“…Notably, as illustrated by the membrane voltage traces in Figure 3, C and D, FPI SGCs showed greater hyperpolarization in response to a Ϫ120 pA current injection compared with sham-injured SGCs. Accordingly, the input resistance of FPI SGCs was greater than in sham-injured SGCs ( of granule cells and mossy cells undergo profound posttraumatic modifications (Santhakumar et al, 2001;Howard et al, 2007;Mtchedlishvili et al, 2010). Curiously, despite postinjury hilar interneuronal loss and a corresponding decrease in action potential-independent mIPSCs, the frequency of spontaneous IPSCs in granule cells and mossy cells is elevated following FPI (Santhakumar et al, 2001;Howard et al, 2007).…”
Section: Early Post-traumatic Hyperexcitability Of Semilunar Granule mentioning
confidence: 98%
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