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RISS 인기검색어
- 검색키워드
- 저자 : Tetsuhiro Tsujimoto (검색결과 2 건)
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Presynaptic Mechanism Underlying Regulation of Transmitter Release by G Protein Coupled Receptors
Tomoyuki Takahashi,Yoshinao Kajikawa,Masahiro Kimura,Naoto Saitoh,Tetsuhiro Tsujimoto 대한생리학회-대한약리학회 2004 The Korean Journal of Physiology & Pharmacology Vol.8 No.2
A variety of G protein coupled receptors (GPCRs) are expressed in the presynaptic terminals of central and peripheral synapses and play regulatory roles in transmitter release. The patch-clamp whole-cell recording technique, applied to the calyx of Held presynaptic terminal in brainstem slices of rodents, has made it possible to directly examine intracellular mechanisms underlying the GPCR-mediated presynaptic inhibition. At the calyx of Held, bath-application of agonists for GPCRs such as GABA<SUB>B</SUB> receptors, group III metabotropic glutamate receptors (mGluRs), adenosine A<SUB>1</SUB> receptors, or adrenaline α2 receptors, attenuate evoked transmitter release via inhibiting voltage-activated Ca<SUP>2</SUP> currents without affecting voltage-activated K<SUP></SUP> currents or inwardly rectifying K<SUP></SUP> currents. Furthermore, inhibition of voltage-activated Ca<SUP>2</SUP> currents fully explains the magnitude of GPCR-mediated presynaptic inhibition, indicating no essential involvement of exocytotic mechanisms in the downstream of Ca<SUP>2</SUP> influx. Direct loadings of G protein βγ subunit (Gβγ) into the calyceal terminal mimic and occlude the inhibitory effect of a GPCR agonist on presynaptic Ca<SUP>2</SUP> currents (Ip<SUB>Ca</SUB>), suggesting that Gβγmediates presynaptic inhibition by GPCRs. Among presynaptic GPCRs glutamate and adenosine autoreceptors play regulatory roles in transmitter release during early postnatal period when the release probability (p) is high, but these functions are lost concomitantly with a decrease in p during postnatal development.
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Presynaptic Mechanism Underlying Regulation of Transmitter Release by G Protein Coupled Receptors
Takahashi, Tomoyuki,Kajikawa, Yoshinao,Kimura, Masahiro,Saitoh, Naoto,Tsujimoto, Tetsuhiro The Korean Society of Pharmacology 2004 The Korean Journal of Physiology & Pharmacology Vol.8 No.2
A variety of G protein coupled receptors (GPCRs) are expressed in the presynaptic terminals of central and peripheral synapses and play regulatory roles in transmitter release. The patch-clamp whole-cell recording technique, applied to the calyx of Held presynaptic terminal in brainstem slices of rodents, has made it possible to directly examine intracellular mechanisms underlying the GPCR-mediated presynaptic inhibition. At the calyx of Held, bath-application of agonists for GPCRs such as $GABA_B$ receptors, group III metabotropic glutamate receptors (mGluRs), adenosine $A_1$ receptors, or adrenaline ${\alpha}2$ receptors, attenuate evoked transmitter release via inhibiting voltage-activated $Ca^{2+}$ currents without affecting voltage-activated $K^+$ currents or inwardly rectifying $K^+$ currents. Furthermore, inhibition of voltage-activated $Ca^{2+}$ currents fully explains the magnitude of GPCR-mediated presynaptic inhibition, indicating no essential involvement of exocytotic mechanisms in the downstream of $Ca^{2+}$ influx. Direct loadings of G protein ${\beta}{\gamma}$ subunit $(G{\beta}{\gamma})$ into the calyceal terminal mimic and occlude the inhibitory effect of a GPCR agonist on presynaptic $Ca^{2+}$ currents $(Ip_{Ca})$, suggesting that $G{\beta}{\gamma}$ mediates presynaptic inhibition by GPCRs. Among presynaptic GPCRs glutamate and adenosine autoreceptors play regulatory roles in transmitter release during early postnatal period when the release probability (p) is high, but these functions are lost concomitantly with a decrease in p during postnatal development.
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