Department of Internal Medicine I, Division of Hematology & Hemostaseology, Medical University of Vienna, Vienna, Austria.
Blood. 2011 Aug 18;118(7):1885-98. doi: 10.1182/blood-2010-06-289959. Epub 2011 Jun 16.
Systemic mastocytosis (SM) either presents as a malignant neoplasm with short survival or as an indolent disease with normal life expectancy. In both instances, neoplastic mast cells (MCs) harbor D816V-mutated KIT, suggesting that additional oncogenic mechanisms are involved in malignant transformation. We here describe that Lyn and Btk are phosphorylated in a KIT-independent manner in neoplastic MCs in advanced SM and in the MC leukemia cell line HMC-1. Lyn and Btk activation was not only detected in KIT D816V-positive HMC-1.2 cells, but also in the KIT D816V-negative HMC-1.1 subclone. Moreover, KIT D816V did not induce Lyn/Btk activation in Ba/F3 cells, and deactivation of KIT D816V by midostaurin did not alter Lyn/Btk activation. siRNAs against Btk and Lyn were found to block survival in neoplastic MCs and to cooperate with midostaurin in producing growth inhibition. Growth inhibitory effects were also obtained with 2 targeted drugs, dasatinib which blocks KIT, Lyn, and Btk activation in MCs, and bosutinib, a drug that deactivates Lyn and Btk without blocking KIT activity. Together, KIT-independent signaling via Lyn/Btk contributes to growth of neoplastic MCs in advanced SM. Dasatinib and bosutinib disrupt Lyn/Btk-driven oncogenic signaling in neoplastic MC, which may have clinical implications and explain synergistic drug interactions.
系统性肥大细胞增多症(SM)要么表现为恶性肿瘤,存活时间短,要么表现为惰性疾病,预期寿命正常。在这两种情况下,肿瘤性肥大细胞(MC)都携带有 D816V 突变的 KIT,这表明存在其他致癌机制参与恶性转化。我们在这里描述,在晚期 SM 中的肿瘤性 MC 中和 MC 白血病细胞系 HMC-1 中,Lyn 和 Btk 以 KIT 非依赖性方式发生磷酸化。Lyn 和 Btk 的激活不仅在 KIT D816V 阳性的 HMC-1.2 细胞中检测到,而且在 KIT D816V 阴性的 HMC-1.1 亚克隆中也检测到。此外,KIT D816V 不会诱导 Ba/F3 细胞中的 Lyn/Btk 激活,而米哚妥林对 KIT D816V 的失活不会改变 Lyn/Btk 的激活。针对 Btk 和 Lyn 的 siRNA 被发现可阻断肿瘤性 MC 的存活,并与米哚妥林协同产生生长抑制作用。两种靶向药物也可获得抑制作用,达沙替尼可阻断 MC 中 KIT、Lyn 和 Btk 的激活,而博舒替尼可失活 Lyn 和 Btk,而不阻断 KIT 活性。总之,通过 Lyn/Btk 的 KIT 非依赖性信号传导有助于晚期 SM 中肿瘤性 MC 的生长。达沙替尼和博舒替尼破坏了肿瘤性 MC 中 Lyn/Btk 驱动的致癌信号传导,这可能具有临床意义,并解释了协同药物相互作用。
