德尔塔阿片肽 DADLE 和纳曲酮导致中枢神经系统神经祖细胞系的细胞周期停滞和分化。

Delta opioid peptide DADLE and naltrexone cause cell cycle arrest and differentiation in a CNS neural progenitor cell line.

机构信息

Cellular Pathobiology Section, Cellular Neurobiology Research Branch, Intramural Research Program, NIDA, NIH, DHHS, Baltimore, Maryland 21224, USA.

出版信息

Synapse. 2010 Apr;64(4):267-73. doi: 10.1002/syn.20727.

DOI:10.1002/syn.20727

PMID:19953654

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3155725/

Abstract

Opioids have been demonstrated to play an important role in CNS development by affecting proliferation and differentiation in various types of neural cells. This study examined the effect of a stable delta opioid peptide [D-Ala(2), D-Leu(5)]-enkephalin (DADLE) on proliferation and differentiation in an AF5 CNS neural progenitor cell line derived from rat mesencephalic cells. DADLE (1 pM, 0.1 nM, or 10 nM) caused a significant growth inhibition on AF5 cells. The opioid antagonist naltrexone at 0.1 nM also caused growth inhibition in the same cells. When DADLE and naltrexone were both added to the AF5 cells, the resultant growth inhibition was apparently additive. DADLE alone or DADLE in combination with naltrexone did not cause apoptosis as evidenced by negative TUNEL staining. The cell-cycle progression analysis indicated that both DADLE (0.1 nM) and naltrexone (0.1 nM) caused an arrest of AF5 cell cycle progression at the G1 checkpoint. Neuronal marker indicated that DADLE- or naltrexone-treated AF5 cells tend to differentiate more when compared to controls. Results demonstrate the nonopioid action of both DADLE and naltrexone on cell cycle arrest and differentiation in a CNS neural progenitor cell line. Results also suggest some potential utilization of DADLE and/or naltrexone in stem cell research.

摘要

阿片类药物已被证明通过影响各种类型的神经细胞的增殖和分化在中枢神经系统的发育中发挥重要作用。本研究探讨了稳定的δ阿片肽[D-Ala(2),D-Leu(5)]-脑啡肽(DADLE)对来源于大鼠中脑细胞的 AF5 中枢神经系统神经祖细胞系的增殖和分化的影响。DADLE(1 pM、0.1 nM 或 10 nM)可显著抑制 AF5 细胞的生长。同样，阿片受体拮抗剂纳曲酮在 0.1 nM 时也引起了这些细胞的生长抑制。当 DADLE 和纳曲酮都添加到 AF5 细胞中时，观察到的生长抑制呈明显的累加效应。单独的 DADLE 或 DADLE 与纳曲酮联合使用不会导致细胞凋亡，这一点可以通过 TUNEL 染色呈阴性来证明。细胞周期进展分析表明，DADLE(0.1 nM)和纳曲酮(0.1 nM)均导致 AF5 细胞周期停滞在 G1 检查点。神经元标志物表明，与对照组相比，DADLE 或纳曲酮处理的 AF5 细胞更倾向于分化。结果表明，DADLE 和纳曲酮对中枢神经系统神经祖细胞系的细胞周期阻滞和分化均具有非阿片类作用。结果还表明，DADLE 和/或纳曲酮在干细胞研究中具有一定的潜在应用价值。

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