Targeted Therapy Team, Divisions of Cancer Biology, The Institute of Cancer Research, London, UK.
Genelux Corp, San Diego Science Center, San Diego, CA, USA.
Oncogene. 2014 Mar 27;33(13):1700-12. doi: 10.1038/onc.2013.112. Epub 2013 Apr 29.
Melanoma is an aggressive skin cancer that carries an extremely poor prognosis when local invasion, nodal spread or systemic metastasis has occurred. Recent advances in melanoma biology have revealed that RAS-RAF-MEK-ERK signaling has a pivotal role in governing disease progression and treatment resistance. Proof-of-concept clinical studies have shown that direct BRAF inhibition yields impressive responses in advanced disease but these are short-lived as treatment resistance rapidly emerges. Therefore, there is a pressing need to develop new targeted strategies for BRAF mutant melanoma. As such, oncolytic viruses represent a promising cancer-specific approach with significant activity in melanoma. This study investigated interactions between genetically-modified vaccinia virus (GLV-1h68) and radiotherapy in melanoma cell lines with BRAF mutant, Ras mutant or wild-type genotype. Preclinical studies revealed that GLV-1h68 combined with radiotherapy significantly increased cytotoxicity and apoptosis relative to either single agent in (V600D)BRAF/(V600E)BRAF mutant melanoma in vitro and in vivo. The mechanism of enhanced cytotoxicity with GLV-1h68/radiation (RT) was independent of viral replication and due to attenuation of JNK, p38 and ERK MAPK phosphorylation specifically in BRAF mutant cells. Further studies showed that JNK pathway inhibition sensitized BRAF mutant cells to GLV-1h68-mediated cell death, mimicking the effect of RT. GLV-1h68 infection activated MAPK signaling in (V600D)BRAF/(V600E)BRAF mutant cell lines and this was associated with TNF-α secretion which, in turn, provided a prosurvival signal. Combination GLV-1h68/RT (or GLV-1h68/JNK inhibition) caused abrogation of TNF-α secretion. These data provide a strong rationale for combining GLV-1h68 with irradiation in (V600D/E)BRAF mutant tumors.
黑色素瘤是一种侵袭性皮肤癌,如果发生局部浸润、淋巴结转移或全身转移,预后极差。黑色素瘤生物学的最新进展表明,RAS-RAF-MEK-ERK 信号通路在控制疾病进展和治疗耐药性方面起着关键作用。概念验证临床研究表明,直接抑制 BRAF 在晚期疾病中产生令人印象深刻的反应,但随着治疗耐药性的迅速出现,这些反应是短暂的。因此,迫切需要为 BRAF 突变型黑色素瘤开发新的靶向策略。因此,溶瘤病毒是一种很有前途的癌症特异性方法,在黑色素瘤中具有显著的活性。本研究探讨了遗传修饰的痘苗病毒(GLV-1h68)与 BRAF 突变、Ras 突变或野生型基因型的黑色素瘤细胞系中放射治疗的相互作用。临床前研究表明,GLV-1h68 联合放射治疗显著增加了体外和体内(V600D)BRAF/(V600E)BRAF 突变黑色素瘤的细胞毒性和细胞凋亡,与单一药物相比。GLV-1h68/辐射(RT)增强细胞毒性的机制与病毒复制无关,而是由于 BRAF 突变细胞中 JNK、p38 和 ERK MAPK 磷酸化的衰减。进一步的研究表明,JNK 通路抑制使 BRAF 突变细胞对 GLV-1h68 介导的细胞死亡敏感,类似于 RT 的作用。GLV-1h68 感染激活了(V600D)BRAF/(V600E)BRAF 突变细胞系中的 MAPK 信号通路,这与 TNF-α的分泌有关,反过来又提供了一个促进生存的信号。GLV-1h68/RT(或 GLV-1h68/JNK 抑制)联合治疗导致 TNF-α分泌的阻断。这些数据为在(V600D/E)BRAF 突变肿瘤中联合使用 GLV-1h68 和照射提供了强有力的依据。
