小鼠横断脑干切片揭示的哺乳动物呼吸网络的产后变化
Postnatal changes in the mammalian respiratory network as revealed by the transverse brainstem slice of mice.
作者信息
Ramirez J M, Quellmalz U J, Richter D W
机构信息
Department of Physiology, University of Göttingen, Germany.
出版信息
J Physiol. 1996 Mar 15;491 ( Pt 3)(Pt 3):799-812. doi: 10.1113/jphysiol.1996.sp021258.
Abstract
- Spontaneous rhythmic activity in hypoglossal (XII) rootlets is generated at all postnatal stages from postnatal day (P) 0 to P22 in the transverse brainstem slice of mice containing the pre-Bötzinger complex (PBC). The PBC is known to be a region essential for respiratory rhythm generation. It contains neurones generating periodic bursts that occur in synchrony with rhythmic XII activity. This synchrony indicates that the rhythmic PBC activity generated by the transverse slice is the central respiratory rhythm. 2. The strength of coupling between XII bursts and PBC bursts decreased during early postnatal development. In younger mice (P0-4) each burst in XII rootlets corresponded to one burst in the PBC. In older mice (P5-18) one burst in XII rootlets occurred only every third to fourth burst in PBC neurones. 3. Cycle length and burst duration of rhythmic XII activity did not change significantly during the first three postnatal weeks. However, the pattern of XII bursts changed from decrementing (P0-7) to bell shaped (P8-18) while the rate of rise of XII bursts decreased significantly. 4. The rate of rise of rhythmic depolarizations in neurones of the PBC discharging in phase with XII bursts ('inspiratory neurones') decreased with postnatal development. During interburst intervals, membrane potentials of neurones of older mice (P6-18) were characterized by waves of synaptic input that were not observed in neonatal animals (P0-5). 5. Blockade of glycine receptors by strychnine increased the frequency of rhythmic XII activity in neonatal and older mice (P0-22). Although in expiratory PBC neurones glycinergic transmission was blocked at 10 microM strychnine, in inspiratory PBC neurones and XII rootlets even higher concentrations of up to 50 microM strychnine failed to abolish rhythmic activity.
摘要
- 在包含前包钦格复合体(PBC)的小鼠横断脑干切片中,从出生后第(P)0天到P22天的所有出生后阶段,舌下神经(XII)小根中都会产生自发节律性活动。已知PBC是呼吸节律产生所必需的区域。它包含产生与节律性XII活动同步发生的周期性爆发的神经元。这种同步性表明,横断切片产生的节律性PBC活动就是中枢呼吸节律。2. 在出生后早期发育过程中,XII爆发与PBC爆发之间的耦合强度降低。在较年幼的小鼠(P0 - 4)中,XII小根中的每次爆发都对应于PBC中的一次爆发。在较年长的小鼠(P5 - 18)中,XII小根中的一次爆发仅在PBC神经元的每第三次或第四次爆发时出现。3. 在出生后的前三周,节律性XII活动的周期长度和爆发持续时间没有显著变化。然而,XII爆发的模式从递减型(P0 - 7)变为钟形(P8 - 18),同时XII爆发的上升速率显著降低。4. 与XII爆发同步放电的PBC神经元(“吸气神经元”)中节律性去极化的上升速率随着出生后发育而降低。在爆发间期,较年长小鼠(P6 - 18)神经元的膜电位以突触输入波为特征,而新生动物(P0 - 5)中未观察到这种情况。5. 士的宁对甘氨酸受体的阻断增加了新生和较年长小鼠(P0 - 22)中节律性XII活动的频率。尽管在呼气性PBC神经元中,10微摩尔的士的宁阻断了甘氨酸能传递,但在吸气性PBC神经元和XII小根中,高达50微摩尔的更高浓度的士的宁也未能消除节律性活动。
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