Requirement of the adenovirus E1A transformation domain 1 for inhibition of PC12 cell neuronal differentiation.

L E Heasley, S Benedict, J Gleavy, G L Johnson
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引用次数: 30

Abstract

Expression of the adenovirus early gene E1A inhibits the nerve growth factor (NGF)-induced differentiation of PC12 pheochromocytoma cells. Expression of the 12S form of E1A, which lacks the transcription activation region, also inhibited PC12 cell differentiation in a manner similar to the wild-type gene. Three cellular proteins--the retinoblastoma susceptibility gene product referred to as 105(Rb)-, 107-, and 300-kDa proteins--stably interacted with the different E1A polypeptides. Analysis of the association of these cellular proteins with mutant E1A polypeptides demonstrated that a functional domain 1, which is minimally involved in the association of the 300-kDa protein with E1A, was sufficient to inhibit neuronal differentiation. Deletion of transformation domain 2, which encodes sequences necessary for the binding of the 105(Rb)- and 107-kDa proteins, did not influence the ability of the mutant E1A polypeptide to inhibit PC12 cell differentiation. E1A was also shown to alter the expression of mRNAs for the early response genes c-fos, c-myc, egr-1, and c-jun and their regulation in response to NGF. In clones expressing either 12S or 13S E1A, NGF stimulation of c-fos and c-myc was repressed. In contrast, basal mRNA levels for c-jun and egr-1 were constitutively elevated and not significantly affected further by challenge with NGF. Simply expressing c-jun by gene transfer, however, did not mimic the action of E1A because constitutively expressing c-jun clones differentiated in response to NGF. Thus, expression of the E1A polypeptide disrupts NGF control of early transcription events that have been shown to be critical for PC12 cell neuronal differentiation.

腺病毒E1A转化结构域1对抑制PC12细胞神经元分化的要求。
腺病毒早期基因E1A的表达抑制神经生长因子(NGF)诱导的PC12嗜铬细胞瘤细胞分化缺乏转录激活区的12S型E1A的表达也会以与野生型基因相似的方式抑制PC12细胞的分化。三种细胞蛋白——视网膜母细胞瘤易感基因产物105(Rb)-, 107-和300-kDa蛋白——稳定地与不同的E1A多肽相互作用。对这些细胞蛋白与突变型E1A多肽关联的分析表明,一个功能结构域1足以抑制神经元分化,该结构域1在300 kda蛋白与E1A的关联中最小程度参与。转换结构域2编码105(Rb)-和107-kDa蛋白结合所需的序列,其缺失并不影响突变体E1A多肽抑制PC12细胞分化的能力。E1A还被证明可以改变早期反应基因c-fos、c-myc、egr-1和c-jun的mrna表达及其对NGF的调节。在表达12S或13S E1A的克隆中,NGF对c-fos和c-myc的刺激被抑制。相比之下,c-jun和egr-1的基础mRNA水平在NGF刺激下呈组成性升高,且未受到显著影响。然而,仅仅通过基因转移表达c-jun并不能模仿E1A的作用,因为组成型表达的c-jun克隆会在NGF的作用下分化。因此,E1A多肽的表达破坏了NGF对早期转录事件的控制,而这些转录事件对PC12细胞的神经元分化至关重要。
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