大鼠颈动脉化学感受器细胞中氧化学敏感性的重置及出生后成熟
Resetting and postnatal maturation of oxygen chemosensitivity in rat carotid chemoreceptor cells.
作者信息
Wasicko M J, Sterni L M, Bamford O S, Montrose M H, Carroll J L
机构信息
Department of Pediatrics, Eudowood Division of Pediatric Respiratory Sciences, The Johns Hopkins Children's Center, Johns Hopkins School of Medicine, Baltimore MD 21287, USA.
出版信息
J Physiol. 1999 Jan 15;514 ( Pt 2)(Pt 2):493-503. doi: 10.1111/j.1469-7793.1999.493ae.x.
Abstract
- Carotid chemoreceptor sensitivity is minimal immediately after birth and increases with postnatal age. In the present study we have investigated the peri- and postnatal developmental time course of [Ca2+]i responses to hypoxia in clusters of type I cells isolated from near-term fetal rats and rats that were 1, 3, 7, 11, 14 and 21 days old, using the Ca2+-sensitive fluoroprobe fura-2. 2. In type I cells from all age groups a graded increase in [Ca2+]i occurred in response to lowering the PO2 from 150 mmHg to 70, 35, 14, 7, 2 and 0 mmHg. The graded [Ca2+]i response to hypoxia was hyperbolic at all ages. 3. Type I cells from rats near-term fetal to 1 day old exhibited small [Ca2+]i responses, mainly to the most severe levels of hypoxia. After day 1, an increase in the [Ca2+]i responses to submaximal hypoxia stimulation resulted in a rightward shift in the O2 response curve. Using the Delta[Ca2+]i between 35 and 2 mmHg PO2 as an index of O2 sensitivity, type I cell O2 sensitivity increased approximately 4- to 5-fold between near-term fetal to 1 day old and 11 to 14 days of age. 4. Exposure to elevated extracellular potassium (10, 20 and 40 mM K+) caused a dose-dependent [Ca2+]i rise in type I cells from all age groups. There were no age-related changes in [Ca2+]i responses to any level of K+ between near-term fetal and 21 days. 5. We conclude that the maximal type I cell [Ca2+]i response to anoxia, as well as the sensitivity to submaximal hypoxic stimulation, of rats aged from near-term fetal to 21 days depends on the level of postnatal maturity. The lack of an age-related increase in the [Ca2+]i response to elevated K+ during the timeframe of maximal development of O2 sensitivity suggests that resetting involves maturation of O2 sensing, rather than non-specific developmental changes in the [Ca2+]i rise resulting from depolarization.
摘要
- 颈动脉化学感受器敏感性在出生后即刻最低,并随出生后年龄增加。在本研究中,我们使用钙敏感荧光探针fura-2,研究了从近足月胎鼠以及出生1、3、7、11、14和21天的大鼠分离的I型细胞簇中,[Ca2+]i对缺氧反应的围产期和产后发育时间进程。2. 在所有年龄组的I型细胞中,随着PO2从150 mmHg降至70、35、14、7、2和0 mmHg,[Ca2+]i呈分级增加。对缺氧的分级[Ca2+]i反应在所有年龄都是双曲线型的。3. 从近足月胎鼠到出生1天的大鼠的I型细胞表现出较小的[Ca2+]i反应,主要是对最严重程度的缺氧。出生1天后,对次最大缺氧刺激的[Ca2+]i反应增加导致氧反应曲线右移。以35和2 mmHg PO2之间的Delta[Ca2+]i作为氧敏感性指标,I型细胞的氧敏感性在近足月胎鼠到出生1天以及11到14天龄之间增加了约4至5倍。4. 暴露于细胞外钾升高(10、20和40 mM K+)导致所有年龄组的I型细胞中[Ca2+]i呈剂量依赖性升高。在近足月胎鼠到21天之间,对任何水平钾的[Ca2+]i反应没有与年龄相关的变化。5. 我们得出结论,从近足月胎鼠到21天龄大鼠的I型细胞对缺氧的最大[Ca2+]i反应以及对次最大缺氧刺激的敏感性取决于出生后的成熟水平。在氧敏感性最大发育阶段,对升高钾的[Ca2+]i反应缺乏与年龄相关的增加,这表明重置涉及氧传感的成熟,而不是去极化导致的[Ca2+]i升高的非特异性发育变化。
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