大鼠颈动脉体酪氨酸羟化酶基因表达的第二信使调控。

J Chen, B Dinger, S J Fidone
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引用次数: 22

摘要

既往研究[Czyzyk-Krzeska et al.: J Neurochem 1992;58:1538]证实低氧呼吸与颈动脉体I型化学感觉细胞中酪氨酸羟化酶(TH)基因表达的关系。在本研究中,我们在体外将颈动脉小体暴露于缺氧灌注介质中,随后使用逆转录-聚合酶链反应技术来测量TH转录物的相对变化,以阐明调节TH基因表达的细胞机制。在提取总RNA之前,将颈动脉体和颈上神经节(SCG)暴露于含有10% O2或100% O2的混合培养基中3小时,然后在干冰上快速冷冻。缺氧使颈动脉体中TH mRNA升高3.63 +/- 0.84倍(平均+/- SEM),而相比之下,这些参数在同样暴露于缺氧介质的SCG中没有变化。颈动脉小体在零Ca2+过浓液中孵育大大减弱了缺氧引起的TH mRNA的增加(1.39 +/- 0.34倍);p < 0.025,与正常Ca2+组比较)。同样,暴露于鸟苷酸环化酶激活剂atriopeptin III (100 nM)中,可以减弱TH mRNA的缺氧反应(p < 0.005),而用forskolin(10微米)激活腺苷酸环化酶倾向于提高对低氧的反应。我们的数据表明,缺氧,独立于循环激素,诱导颈动脉体TH基因表达,多种因素,包括[Ca2+]和环核苷酸,可能是信号转导途径的重要组成部分。
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Second messenger regulation of tyrosine hydroxylase gene expression in rat carotid body.

Previous studies [Czyzyk-Krzeska et al.: J Neurochem 1992;58:1538] demonstrated the relationship between low O2 breathing and tyrosine hydroxylase (TH) gene expression in chemosensory type I cells of the carotid body. In the present study, we have exposed carotid bodies in vitro to hypoxic superfusion media, and subsequently used the reverse transcriptase-polymerase chain reaction technique to measure relative changes in the TH transcript in an effort to elucidate the cellular mechanisms which regulate TH gene expression. Carotid bodies and superior cervical ganglia (SCG) were exposed for 3 h to superfusion media equilibrated with either 10% O2 or 100% O2 and then rapidly frozen on dry ice prior to extraction of total RNA. Hypoxia elevated TH mRNA in the carotid body 3.63 +/- 0.84-fold (mean +/- SEM), while in contrast, these parameters were unchanged in SCG similarly exposed to hypoxic media. Incubation of carotid bodies in zero Ca2+ superfusates greatly attenuated the increase in TH mRNA evoked by hypoxia (1.39 +/- 0.34-fold increase; p < 0.025 compared to normal Ca2+ group). Likewise, exposure to the guanylate cyclase activator, atriopeptin III (100 nM), attenuated the TH mRNA hypoxic response (p < 0.005), while activation of adenylate cyclase with forskolin (10 microM) tended to elevate the response to low O2. Our data suggest that hypoxia, independent of circulating hormones, induces TH gene expression in the carotid body, and that multiple factors, including [Ca2+] and cyclic nucleotides, may be important components of the signal transduction pathway.

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