Investigation of Developmental Changes of Convergence Ratios of MNTB-LSO Synapses in Circling Mice / 대한해부학회지

The developmental changes of convergence ratios of medial nucleus of trapezoid body (MNTB) axons to single lateral superior olive (LSO) neuron were investigated using voltage clamp technique in homologous (cir/cir) circling mice, animal model for the congenital deafness with autosomal recessive inheritance. As the developmental reduction of convergence ratio reported in rats indicates the presence of synaptic refinement, we aimed to find out whether the similar reduction of convergence ratio also occurs in circling mice. Heterologous (+/cir) mice were used as control and mice younger than postnatal (P) day 4 or older than P9 were used. The convergence ratios of MNTB axons to single LSO neuron were 29.16+/-2.7 (n=12, P9) in homologous (cir/cir) mice, while they were 37.89+/-3.8 (n=9, P9) in heterozygous (+/cir) mice. The significant changes were observed only in heterozygous (+/cir) mice, which indicated that synaptic refinement of MNTBLSO synapses occurs in heterozygous (+/cir) mice, not in homozygous (cir/cir) mice. Considering homologous (cir/cir) mice being animal model for the congenital deafness, our data might contribute to the understanding of developmental changes of brain stem auditory circuits of congenitally deaf patients.

Tetanus-induced LTD of Developing MNTB-LSO Synapses in Rat is Dependent on Postsynaptic Ca2+

Because synaptic refinement of medial nucleus of trapezoid body (MNTB) - lateral superior olive (LSO) synapses is most active during the first postnatal week and the long term depression (LTD) has been suggested as one of its mechanisms, LTD of MNTB-LSO synapses was investigated in neonatal rat brain stem slices with the whole cell voltage clamp technique. In Mg2+ free condition, tetanus (10 stimuli at 10 Hz for 2 min) in the current clamp mode induced a robust LTD of isolated D, L-APV-sensitive postsynaptic currents (PSCs) for more than 30 min (n=6, 2.4+/-0.4% of the control), while isolated CNQX-sensitive PSCs were not suppressed (n=6, 95.3+/-1.6%). Tetanus also elicited similar LTD in the isolated GABAergic/glycinergic PSCs (n=5, 3.6+/-0.5%) and mixed PSCs (GABAergic/glycinergic/glutamatergic) (n=4, 2.2+/-0.7%). However, such a strong LTD was not observed in the mixed PSCs when 10 mM EGTA was added in the internal solution (n=10), indicating that postsynaptic Ca2+ rise is needed for the strong LTD. This robust LTD might contribute to the active synaptic refinement occurring during the first postnatal week.