幼年秀丽隐杆线虫暴露于异氟烷中会导致神经元动力学的持久变化。
Isoflurane Exposure in Juvenile Caenorhabditis elegans Causes Persistent Changes in Neuron Dynamics.
机构信息
From the Department of Physiology and Biophysics, Boston University School of Medicine, Boston, Massachusetts (G.S.W., C.V.G., C.W.C.) the Department of Anesthesiology, Perioperative and Pain Medicine, Brigham and Women's Hospital, Boston, Massachusetts (C.W.C.).
出版信息
Anesthesiology. 2020 Sep;133(3):569-582. doi: 10.1097/ALN.0000000000003335.
BACKGROUND
Animal studies demonstrate that anesthetic exposure during neurodevelopment can lead to persistent behavioral impairment. The changes in neuronal function underlying these effects are incompletely understood. Caenorhabditis elegans is well suited for functional imaging of postanesthetic effects on neuronal activity. This study aimed to examine such effects within the neurocircuitry underlying C. elegans locomotion.
METHODS
C. elegans were exposed to 8% isoflurane for 3 h during the neurodevelopmentally critical L1 larval stage. Locomotion was assessed during early and late adulthood. Spontaneous activity was measured within the locomotion command interneuron circuitry using confocal and light-sheet microscopy of the calcium-sensitive fluorophore GCaMP6s.
RESULTS
C. elegans exposed to isoflurane demonstrated attenuation in spontaneous reversal behavior, persisting throughout the animal's lifespan (reversals/min: untreated early adulthood, 1.14 ± 0.42, vs. isoflurane-exposed early adulthood, 0.83 ± 0.55; untreated late adulthood, 1.75 ± 0.64, vs. isoflurane-exposed late adulthood, 1.14 ± 0.68; P = 0.001 and 0.006, respectively; n > 50 animal tracks/condition). Likewise, isoflurane exposure altered activity dynamics in the command interneuron AVA, which mediates crawling reversals. The rate at which AVA transitions between activity states was found to be increased. These anesthetic-induced effects were more pronounced with age (off-to-on activity state transition time (s): untreated early adulthood, 2.5 ± 1.2, vs. isoflurane-exposed early adulthood, 1.9 ± 1.3; untreated late adulthood, 4.6 ± 3.0, vs. isoflurane-exposed late adulthood, 3.0 ± 2.4; P = 0.028 and 0.008, respectively; n > 35 traces acquired from more than 15 animals/condition). Comparable effects were observed throughout the command interneuron circuitry, indicating that isoflurane exposure alters transition rates between behavioral crawling states of the system overall. These effects were modulated by loss-of-function mutations within the FoxO transcription factor daf-16 and by rapamycin-mediated mechanistic Target of Rapamycin (mTOR) inhibition.
CONCLUSIONS
Altered locomotive behavior and activity dynamics indicate a persistent effect on interneuron dynamics and circuit function in C. elegansafter developmental exposure to isoflurane. These effects are modulated by a loss of daf-16 or mTOR activity, consistent with a pathologic activation of stress-response pathways.
背景
动物研究表明,神经发育过程中的麻醉暴露会导致持续的行为障碍。这些影响所涉及的神经元功能变化尚不完全清楚。秀丽隐杆线虫非常适合用于功能性成像研究麻醉后对神经元活性的影响。本研究旨在研究秀丽隐杆线虫运动神经回路中这种作用。
方法
在神经发育关键的 L1 幼虫期,将秀丽隐杆线虫暴露于 8%异氟烷中 3 小时。在早期和晚期成年期评估运动。使用钙敏感荧光探针 GCaMP6s 通过共聚焦和光片显微镜对运动指令中间神经元回路中的自发性活动进行测量。
结果
暴露于异氟烷的秀丽隐杆线虫表现出自发性反转行为减弱,这种现象持续整个动物的生命周期(反转次数/分钟:未处理的早期成年期为 1.14±0.42,而异氟烷暴露的早期成年期为 0.83±0.55;未处理的晚期成年期为 1.75±0.64,而异氟烷暴露的晚期成年期为 1.14±0.68;P=0.001 和 0.006,分别;n>50 个动物轨迹/条件)。同样,异氟烷暴露改变了介导蠕动反转的指令中间神经元 AVA 的活动动态。发现 AVA 在活动状态之间转换的速率增加。这些麻醉诱导的效应随年龄而更加明显(从无活动状态到活动状态的转换时间(s):未处理的早期成年期为 2.5±1.2,而异氟烷暴露的早期成年期为 1.9±1.3;未处理的晚期成年期为 4.6±3.0,而异氟烷暴露的晚期成年期为 3.0±2.4;P=0.028 和 0.008,分别;n>35 个轨迹,来自于>15 个动物/条件)。在整个指令中间神经元回路中观察到类似的效应,表明异氟烷暴露总体上改变了系统行为蠕动状态之间的转换速率。这些效应受 FoxO 转录因子 daf-16 的功能丧失突变和雷帕霉素介导的 mechanistic Target of Rapamycin(mTOR)抑制的调节。
结论
运动行为和活动动态的改变表明,在秀丽隐杆线虫发育过程中暴露于异氟烷后,对中间神经元动力学和回路功能产生持续影响。这些效应受 daf-16 或 mTOR 活性的丧失调节,与应激反应途径的病理性激活一致。
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