Alwan Husam A J, van Zoelen Everardus J J, van Leeuwen Jeroen E M
Department of Cell Biology, University of Nijmegen, 6525 ED Nijmegen, The Netherlands.
J Biol Chem. 2003 Sep 12;278(37):35781-90. doi: 10.1074/jbc.M301326200. Epub 2003 Jun 26.
Studies on the differential routing of internalized epidermal growth factor receptors (EGFRs) induced by EGF, TGF alpha, and the superagonist EGF-TGF alpha chimera E4T suggested a correlation between receptor recycling and their mitogenic potency. EGFR sorting to lysosomes depends on its kinase domain and its ubiquitination by Cbl proteins. Proteasomes have also been proposed to regulate EGFR degradation, but the underlying mechanism remains obscure. Here we evaluated EGFR activation, Cbl recruitment, EGFR ubiquitination and degradation in response to EGF, TGF alpha, and E4T. We also determined the fate of activated EGFRs and Cbl proteins by using v-ATPase (bafilomycin A1) and proteasome (lactacystin) inhibitors. Our results demonstrate that E4T and TGF alpha provoke decreased Cbl recruitment, EGFR ubiquitination and EGFR degradation compared with EGF. Furthermore, bafilomycin treatment blocks EGFR but not c-Cbl degradation. In contrast, lactacystin treatment blocks EGF-induced c-Cbl degradation but does not block EGFR degradation, even though lactacystin causes a minor delay in EGFR degradation. Surprisingly, even though bafilomycin completely blocks EGFR degradation, it does not prevent EGFR de-ubiquitination upon prolonged EGF stimulation. Strikingly, when combined with bafilomycin, lactacystin treatment stabilizes the ubiquitinated EGFR and prevents its de-ubiquitination. We conclude that the enhanced EGFR recycling that has been observed in HER-14 cells following TGF alpha or E4T stimulation correlates with decreased EGFR ubiquitination and EGFR degradation, and that proteasomal activity is required for de-ubiquitination of the EGFR prior to its lysosomal degradation.
关于表皮生长因子(EGF)、转化生长因子α(TGFα)以及超级激动剂EGF-TGFα嵌合体E4T所诱导的内化表皮生长因子受体(EGFRs)的差异分选研究表明,受体再循环与其促有丝分裂能力之间存在关联。EGFR分选至溶酶体取决于其激酶结构域以及被Cbl蛋白泛素化。也有人提出蛋白酶体可调节EGFR降解,但其潜在机制仍不清楚。在此,我们评估了EGFR激活、Cbl募集、EGFR泛素化以及对EGF、TGFα和E4T的降解反应。我们还通过使用v-ATP酶(巴弗洛霉素A1)和蛋白酶体(乳胞素)抑制剂来确定活化的EGFRs和Cbl蛋白的去向。我们的结果表明,与EGF相比,E4T和TGFα引起Cbl募集减少、EGFR泛素化和EGFR降解。此外,巴弗洛霉素处理可阻断EGFR降解,但不阻断c-Cbl降解。相反,乳胞素处理可阻断EGF诱导的c-Cbl降解,但不阻断EGFR降解,尽管乳胞素会使EGFR降解稍有延迟。令人惊讶的是,尽管巴弗洛霉素完全阻断EGFR降解,但在长时间EGF刺激后,它并不能阻止EGFR去泛素化。引人注目的是,当与巴弗洛霉素联合使用时,乳胞素处理可稳定泛素化的EGFR并阻止其去泛素化。我们得出结论,在TGFα或E4T刺激后HER-14细胞中观察到的增强的EGFR再循环与EGFR泛素化和EGFR降解减少相关,并且蛋白酶体活性是EGFR在溶酶体降解之前去泛素化所必需的。
