YAP/TAZ对发育和肿瘤的调控及其功能的研究进展

Hippo通路是一种在进化中形成的保守的蛋白激酶级联通路,它与发育中器官的大小和肿瘤的形成有关。Hippo通路的中枢是从肿瘤抑制子Hippo到原癌蛋白YAP/TAZ的激酶级联反应。YAP/TAZ是Hippo通路下游的主要的效应分子,它们广泛表达于多种组织器官中。在哺乳动物细胞中,Hippo通路激酶级联反应通过对YAP/TAZ磷酸化作用,促使其从细胞核转入细胞质中,从而抑制了YAP/TAZ的功能作用。TEAD家族转录子被鉴定为YAP/TAZ发挥生物学功能的重要调节因子。YAP/TAZ的失调引起的相关的基因的表达改变,将会影响细胞的增殖,分化,以及凋亡,从而会影响器官的大小以及肿瘤的形成。本文综述Hippo通路的最新进展,重点关注的是该通路中的YAP/TAZ调控的缺失对发育缺陷和肿瘤的影响。这将为我们研究再生医学,组织工程技术,肿瘤的干预防治提供新的思路与策略。     

YAP1 increases organ size and expands undifferentiated progenitor cells

The mechanisms that regulate mammalian organ size are poorly understood. It is unclear whether the pathways that control organ size also impinge on stem/progenitor cells. A highly expressed gene in stem cells is YAP1, the ortholog of Drosophila Yorkie, a downstream component of the Hippo pathway. Mutations in components of this pathway produce tissue overgrowth phenotypes in the fly whereas mammalian orthologs, like salvador, merlin, LATS, and YAP1, have been implicated in tumorigenesis. We report here that YAP1 increases organ size and causes aberrant tissue expansion in mice. YAP1 activation reversibly increases liver size more than 4-fold. In the intestine, expression of endogenous YAP1 is restricted to the progenitor/stem cell compartment, and activation of YAP1 expands multipotent undifferentiated progenitor cells, which differentiate upon cessation of YAP1 expression. YAP1 stimulates Notch signaling, and administration of gamma-secretase inhibitors suppressed the intestinal dysplasia caused by YAP1. Human colorectal cancers expressing higher levels of YAP1 share molecular aspects with YAP1-induced dysplastic growth in the mouse. Our data show that the Hippo signaling pathway regulates organ size in mammals and can act on stem cell compartments, indicating a potential link between stem/progenitor cells, organ size, and cancer.     

Hippo信号通路在肺发育、再生和疾病中的功能

哺乳动物肺对于血液与外部环境之间的气体交换至关重要。而肺相关的疾病是现代人死亡的主要原因之一。肺的发育、再生和相关疾病的研究对临床治疗具有重要的指导作用。研究发现,Hippo信号通路参与细胞增殖与分化的调控、器官大小的控制,以及机械力的感应和传递。Hippo信号通路中的核心转录调控分子YAP/TAZ在肺部的多种细胞中均有表达,其表达及定位的变化在肺发育与再生中发挥着重要的调控作用。本文主要介绍了Hippo信号通路在肺生长发育中的功能及其与肺纤维化、肺癌的关系,并从肺泡力学和肺泡相关免疫两个角度对Hippo信号通路潜在的功能进行了展望。     

YAP‐TEAD signaling promotes basal cell carcinoma development via a c‐JUN/AP1 axis

The mammalian Hippo signaling pathway, through its effectors YAP and TAZ, coerces epithelial progenitor cell expansion for appropriate tissue development or regeneration upon damage. Its ability to drive rapid tissue growth explains why many oncogenic events frequently exploit this pathway to promote cancer phenotypes. Indeed, several tumor types including basal cell carcinoma (BCC) show genetic aberrations in the Hippo (or YAP/TAZ) regulators. Here, we uncover that while YAP is dispensable for homeostatic epidermal regeneration, it is required for BCC development. Our clonal analyses further demonstrate that the few emerging Yap‐null dysplasia have lower fitness and thus are diminished as they progress to invasive BCC. Mechanistically, YAP depletion in BCC tumors leads to effective impairment of the JNK‐JUN signaling, a well‐established tumor‐driving cascade. Importantly, in this context, YAP does not influence canonical Wnt or Hedgehog signaling. Overall, we reveal Hippo signaling as an independent promoter of BCC pathogenesis and thereby a viable target for drug‐resistant BCC.     

Ci antagonizes Hippo signaling in the somatic cells of the ovary to drive germline stem cell differentiation

Many stem cell populations are tightly regulated by their local microenvironment (niche), which comprises distinct types of stromal cells. However, little is known about mechanisms by which niche subgroups coordinately determine the stem cell fate. Here we identify that Yki, the key Hippo pathway component, is essential for escort cell (EC) function in promoting germline differentiation in Drosophila ovary. We found that Hedgehog (Hh) signals emanating primarily from cap cells support the function of ECs, where Cubitus interruptus (Ci), the Hh signaling effector, acts to inhibit Hippo kinase cascade activity. Mechanistically, we found that Ci competitively interacts with Hpo and impairs the Hpo-Wts signaling complex formation, thereby promoting Yki nuclear localization. The actions of Ci ensure effective Yki signaling to antagonize Sd/Tgi/Vg-mediated default repression in ECs. This study uncovers a mechanism explaining how subgroups of niche cells coordinate to determine the stem cell fate via Hh-Hippo signaling crosstalk, and enhances our understanding of mechanistic regulations of the oncogenic Yki/YAP signaling.