Nalluri Srilatha, Peirce Susan K, Tanos Rachel, Abdella Haneen A, Karmali Dipan, Hogarty Michael D, Goldsmith Kelly C
a Division of Hematology/Oncology; Aflac Children's Cancer and Blood Disorders Center ; Children's Healthcare of Atlanta ; Atlanta , GA USA.
Cancer Biol Ther. 2015;16(2):276-86. doi: 10.1080/15384047.2014.1002333.
The pediatric solid tumor neuroblastoma (NB) often depends on the anti-apoptotic protein, Mcl(-)1, for survival through Mcl(-)1 sequestration of pro-apoptotic Bim. High affinity Mcl(-)1 inhibitors currently do not exist such that novel methods to inhibit Mcl(-)1 clinically are in high demand. Receptor tyrosine kinases (RTK) regulate Mcl(-)1 in many cancers and play a role in NB survival, yet how they regulate Bcl(-)2 family interactions in NB is unknown. We found that NB cell lines derived to resist the Bcl(-)2/-xl/-w antagonist, ABT-737, acquire a dependence on Mcl(-)1 and show increased expression and activation of the RTK, EGFR. Mcl(-)1 dependent NB cell lines derived at diagnosis and from the same tumor following relapse also have increased EGFR expression compared to those dependent on Bcl(-)2. Inhibition of EGFR by shRNA or erlotinib in Mcl(-)1 dependent NBs disrupts Bim binding to Mcl(-)1 and enhances its affinity for Bcl(-)2, restoring sensitivity to ABT-737 as well as cytotoxics in vitro. Mechanistically treatment of NBs with small molecule inhibitors of EGFR (erlotinib, cetuximab) and ERK (U0126) increases Noxa expression and dephosphorylates Bim to promote Bim binding to Bcl(-)2. Thus, EGFR regulates Mcl(-)1 dependence in high-risk NB via ERK-mediated phosphorylation of Bim such that EGFR/ERK inhibition renders Mcl(-)1 dependent tumors now reliant on Bcl(-)2. Clinically, EGFR inhibitors are ineffective as single agent compounds in patients with recurrent NB, likely due to this transferred survival dependence to Bcl(-)2. Likewise, EGFR or ERK inhibitors warrant further testing in combination with Bcl(-)2 antagonists in vivo as a novel future combination to overcome therapy resistance in the clinic.
小儿实体瘤神经母细胞瘤(NB)的存活常常依赖抗凋亡蛋白Mcl-1,它通过隔离促凋亡蛋白Bim来实现这一作用。目前尚不存在高亲和力的Mcl-1抑制剂,因此临床上迫切需要抑制Mcl-1的新方法。受体酪氨酸激酶(RTK)在许多癌症中调节Mcl-1,并在NB存活中发挥作用,但它们如何调节NB中的Bcl-2家族相互作用尚不清楚。我们发现,对Bcl-2/-xl/-w拮抗剂ABT-737产生抗性的NB细胞系对Mcl-1产生了依赖性,并显示出RTK(表皮生长因子受体,EGFR)的表达和激活增加。与依赖Bcl-2的细胞系相比,在诊断时以及复发后从同一肿瘤中衍生出的依赖Mcl-1的NB细胞系的EGFR表达也增加。在依赖Mcl-1的NB中,通过短发夹RNA(shRNA)或厄洛替尼抑制EGFR会破坏Bim与Mcl-1的结合,并增强其与Bcl-2的亲和力,从而在体外恢复对ABT-737以及细胞毒性药物的敏感性。从机制上讲,用EGFR(厄洛替尼、西妥昔单抗)和ERK(U0126)的小分子抑制剂处理NB会增加Noxa的表达,并使Bim去磷酸化,从而促进Bim与Bcl-2的结合。因此,EGFR通过ERK介导的Bim磷酸化来调节高危NB中对Mcl-1的依赖性,使得EGFR/ERK抑制使依赖Mcl-1的肿瘤现在依赖于Bcl-2。临床上,EGFR抑制剂作为单一药物对复发性NB患者无效,这可能是由于这种存活依赖性转移到了Bcl-2上。同样,EGFR或ERK抑制剂作为一种新的未来联合用药,与Bcl-2拮抗剂在体内联合使用以克服临床上的治疗抗性,值得进一步测试。