Division of Cancer Genetics, Medical Institute of Bioregulation, Graduate School of Medical Sciences, Kyushu University, Fukuoka, Japan.
J Clin Invest. 2012 Dec;122(12):4505-18. doi: 10.1172/JCI63735. Epub 2012 Nov 12.
Mps one binder 1a (MOB1A) and MOB1B are key components of the Hippo signaling pathway and are mutated or inactivated in many human cancers. Here we show that intact Mob1a or Mob1b is essential for murine embryogenesis and that loss of the remaining WT Mob1 allele in Mob1a(Δ/Δ)1b(tr/+) or Mob1a(Δ/+)1b(tr/tr) mice results in tumor development. Because most of these cancers resembled trichilemmal carcinomas, we generated double-mutant mice bearing tamoxifen-inducible, keratinocyte-specific homozygous-null mutations of Mob1a and Mob1b (kDKO mice). kDKO mice showed hyperplastic keratinocyte progenitors and defective keratinocyte terminal differentiation and soon died of malnutrition. kDKO keratinocytes exhibited hyperproliferation, apoptotic resistance, impaired contact inhibition, enhanced progenitor self renewal, and increased centrosomes. Examination of Hippo pathway signaling in kDKO keratinocytes revealed that loss of Mob1a/b altered the activities of the downstream Hippo mediators LATS and YAP1. Similarly, YAP1 was activated in some human trichilemmal carcinomas, and some of these also exhibited MOB1A/1B inactivation. Our results clearly demonstrate that MOB1A and MOB1B have overlapping functions in skin homeostasis, and exert their roles as tumor suppressors by regulating downstream elements of the Hippo pathway.
Mps one 结合蛋白 1a(MOB1A)和 MOB1B 是 Hippo 信号通路的关键组成部分,在许多人类癌症中发生突变或失活。在这里,我们表明完整的 Mob1a 或 Mob1b 对于鼠胚胎发生是必不可少的,并且在 Mob1a(Δ/Δ)1b(tr/+)或 Mob1a(Δ/+)1b(tr/tr)小鼠中剩余的 WT Mob1 等位基因的丢失会导致肿瘤发展。由于大多数这些癌症类似于毛母质癌,我们生成了携带他莫昔芬诱导的、角质细胞特异性纯合缺失突变的 Mob1a 和 Mob1b(kDKO 小鼠)的双突变小鼠。kDKO 小鼠表现出增生性角质细胞祖细胞和缺陷的角质细胞终末分化,并且很快死于营养不良。kDKO 角质细胞表现出过度增殖、凋亡抵抗、接触抑制受损、增强祖细胞自我更新和增加中心体。检查 kDKO 角质细胞中的 Hippo 信号通路发现,Mob1a/b 的缺失改变了下游 Hippo 介质 LATS 和 YAP1 的活性。同样,YAP1 在一些人类毛母质癌中被激活,其中一些也表现出 MOB1A/1B 失活。我们的结果清楚地表明,MOB1A 和 MOB1B 在皮肤稳态中具有重叠的功能,并通过调节 Hippo 通路的下游元件发挥其作为肿瘤抑制因子的作用。