Receptor kinetics analyses of long-term potentiation of synaptic transmission in spinal cord motoneurons in vitro / 生理学报
Sheng Li Xue Bao
; (6): 129-134, 2014.
Article
de Zh
| WPRIM
| ID: wpr-297509
Bibliothèque responsable:
WPRO
ABSTRACT
The aim of the present study is to observe the receptor kinetics property of long-term potentiation (LTP) of excitatory postsynaptic potential (EPSP) in spinal cord motoneurons (MNs) by descending activation. The intracellular recording techniques were conducted in spinal cord MNs of neonatal rats aged 8-14 days. The changes of EPSP induced by ipsilateral ventrolateral funiculus (iVLF) stimulation (iVLF-EPSPs) were observed, and receptor kinetics of iVLF-EPSPs were analyzed. The results showed that, the amplitude, area under curve and maximum left slope of EPSP were positively correlated with stimulus intensity (P < 0.05 or P < 0.01), while the apparent receptor kinetic parameters apparent dissociation rate constant (K(2)), apparent equilibrium dissociation constant (K(T)) of EPSP were negatively correlated with stimulus intensity (P < 0.01 or P < 0.05). The iVLF-EPSPs were persistently increased after tetanic stimulation (100 Hz, 50 pulses/train, duration 0.4-1.0 ms, 6 trains, main interval 10 s, 10-100 V) in 5 of 11 tested MNs. The amplitude of iVLF-EPSPs was potentiated to more than 120% of baseline and lasted at least 30 min, which could be referred to as iVLF-LTP. Meanwhile, the area under curve and maximum left slope of EPSPs were also increased to more than 120% of baseline. During iVLF-LTP, apparent receptor kinetics analyses of iVLF-EPSPs indicated that K(2) and KT were decreased significantly to less than 80% of the baseline within 10 min and gradually and partially recovered in 3 MNs. These results of receptor kinetics analyses of iVLF-EPSPs suggest a possible enhancement in affinity of postsynaptic receptors in the early stage of iVLF-LTP in some MNs.
Texte intégral:
1
Indice:
WPRIM
Sujet Principal:
Physiologie
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Moelle spinale
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Cinétique
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Potentialisation à long terme
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Transmission synaptique
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Potentiels post-synaptiques excitateurs
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Biologie cellulaire
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Motoneurones
Limites du sujet:
Animals
langue:
Zh
Texte intégral:
Sheng Li Xue Bao
Année:
2014
Type:
Article