滤泡性淋巴瘤相关的液泡型 ATP 酶 ATP6V1B2 突变激活自噬流和 mTOR。
Follicular lymphoma-associated mutations in vacuolar ATPase ATP6V1B2 activate autophagic flux and mTOR.
机构信息
Department of Internal Medicine, Division of Hematology and Oncology.
Life Sciences Institute, and.
出版信息
J Clin Invest. 2019 Mar 4;129(4):1626-1640. doi: 10.1172/JCI98288.
Abstract
The discovery of recurrent mutations in subunits of the vacuolar-type H+-translocating ATPase (v-ATPase) in follicular lymphoma (FL) highlights a role for the amino acid- and energy-sensing pathway to mTOR in the pathogenesis of this disease. Here, through the use of complementary experimental approaches involving mammalian cells and Saccharomyces cerevisiae, we have demonstrated that mutations in the human v-ATPase subunit ATP6V1B2 (also known as Vma2 in yeast) activate autophagic flux and maintain mTOR/TOR in an active state. Engineered lymphoma cell lines and primary FL B cells carrying mutated ATP6V1B2 demonstrated a remarkable ability to survive low leucine concentrations. The treatment of primary FL B cells with inhibitors of autophagy uncovered an addiction for survival for FL B cells harboring ATP6V1B2 mutations. These data support the idea of mutational activation of autophagic flux by recurrent hotspot mutations in ATP6V1B2 as an adaptive mechanism in FL pathogenesis and as a possible new therapeutically targetable pathway.
摘要
在滤泡性淋巴瘤 (FL) 中发现液泡型 H+-转运 ATP 酶 (v-ATPase) 亚基的反复突变,突出了氨基酸和能量感应途径到 mTOR 在这种疾病发病机制中的作用。在这里,通过使用涉及哺乳动物细胞和酿酒酵母的互补实验方法,我们已经证明,人 v-ATPase 亚基 ATP6V1B2(在酵母中也称为 Vma2)的突变激活自噬通量并使 mTOR/TOR 保持活跃状态。携带突变 ATP6V1B2 的工程化淋巴瘤细胞系和原发性 FL B 细胞表现出在低亮氨酸浓度下存活的非凡能力。用自噬抑制剂处理原发性 FL B 细胞,揭示了携带 ATP6V1B2 突变的 FL B 细胞对生存的依赖性。这些数据支持反复热点突变使自噬通量发生突变激活的想法,这是 FL 发病机制中的一种适应性机制,也是一种可能的新的治疗靶点途径。
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