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。     

Hippo信号通路在肺纤维化过程中调控机制的研究进展

Hippo信号通路是一条存在于从低等动物到高等动物,高度保守且由蛋白激酶和转录辅助激活因子组成的级联激酶反应链,整合来自细胞微环境的物理和化学信号,调节多种细胞的形态和功能。生理条件下,Hippo通过磷酸化核心信号轴负性调控YAP/TAZ的转录活性,进而调控下游靶基因转录,参与多细胞生物的增殖、凋亡、分化等生理过程。近年来研究表明,Hippo通路的激活与失活,参与肺纤维化病理过程。本文对Hippo信号通路与肺纤维化的最新研究进展进行综述,为研究肺纤维化的治疗提供参考。     

Hippo/YAP和Wnt/β-catenin通路的对话

Hippo/YAP通路和Wnt/β-catenin通路是在细胞的生长分化、组织器官形成以及成体干细胞的维持等方面都起着重要作用的两条信号通路。在哺乳动物细胞中,Wnt/β-catenin通路通过一系列胞质蛋白的相互作用,使β-catenin蛋白在胞质内累积,进而入核传递生长刺激信号。Hippo/YAP通路通过激酶级联反应磷酸化YAP/TAZ,使其滞留在细胞质中,抑制了YAP/TAZ的转录活性,从而限制细胞的生长增殖,诱导细胞凋亡。这两条通路的异常调控往往会导致肿瘤的发生。近年来越来越多的研究证实,Hippo/YAP和Wnt/β-catenin在很多方面相互影响,共同参与组织生长和胚胎发育的调控。研究这两个通路在肿瘤发生过程中的转导和调控以及它们相互作用的机制,有助于为肿瘤的防治提供新的思路与策略。文章对这两条通路的协同作用及其分子机制进行了综述。     

Hippo信号通路在乳腺癌中的调控机制及作用

Hippo信号通路是调控器官大小和肿瘤发生发展的关键通路,近年来受到广泛的关注。TAZ/YAP作为哺乳动物中Hippo信号通路两个核心下游效应分子,通过Hippo信号通路依赖性和非依赖性的机制受到细胞内外信号的严密调控。除了参与正常乳腺组织发育,Hippo信号通路还在人乳腺癌细胞的增殖、分化、凋亡、迁移、侵袭、上皮-间质转化和干性维持等多个过程中起着关键性作用。本文总结了Hippo信号通路的调控机制和调节信号,阐述了Hippo信号通路异常在乳腺癌发生发展中的作用,并讨论了其在乳腺癌中作为治疗靶点的临床策略。     

生物力学因子YAP/TAZ与骨代谢的关系

运动等机械负荷在骨骼内由局部信号转化为生化信号参与调控骨代谢进程。机械指令借助可感知应力刺激的转录共激活因子YAP/TAZ得以在细胞核中发挥效用,这一发现揭示了力学传导驱动生理、病理状态下的细胞行为学原理。近期研究证实,YAP/TAZ与Wnt/β-连环蛋白(β-catenin)、Notch等骨代谢通路之间存在串话现象,并影响多种骨组织细胞的分化及功能。深入探讨YAP/TAZ在骨代谢过程中的机制作用,对于骨组织疾病的预防和治疗具有重要意义。该文从YAP/TAZ对机械应力的感知作用入手,分析YAP/TAZ与Wnt/β-连环蛋白、Notch通路的相关性,并对其在骨组织细胞领域的研究进行概述。     

TAZ介导的Wnt/β-catenin信号通路与骨髓基质干细胞的成骨分化

骨质疏松症是由于骨重建过程中骨形成和骨吸收失平衡导致骨总量丢失所致,与成骨细胞分化密切相关。Hippo通路影响着哺乳动物体内细胞增殖、分化和凋亡过程。Wnt/β-catenin通路在成骨细胞分化中扮演重要角色。Hippo下游的靶基因转录共激活因子TAZ脱磷酸化后具有促进骨髓基质干细胞(BMSCs)向成骨细胞分化,调节成骨特异基因骨钙素表达,调节骨、肾发育,激活Wnt/β-catenin通路转录反应的功能;而激活的Wnt/β-catenin通路能通过抑制β-catenin降解进而抑制TAZ的降解。因此,TAZ与Wnt/β-catenin通路相互调控。但是,对TAZ与Wnt/β-catenin通路串话是否影响BMSCs成骨能力尚不清楚。因此,深入研究TAZ介导的Wnt/β-catenin通路在骨代谢中的作用,将为深入了解骨质疏松的发病机制具有重要意义。     

YAP蛋白T425A位点突变对YAP功能的影响

Hippo信号通路在个体发育与组织生长中发挥了关键的作用,YAP(Yes-associated protein)是该通路中主要的下游效应因子。已有的研究表明YAP活性与肿瘤的发生发展密切相关,然而关于YAP活性的调控机制目前还不是很清楚。本研究将YAP蛋白(NP_001123617)第425位苏氨酸(T)突变为丙氨酸(A),发现YAP T425A突变能减弱YAP的转录活性,并通过免疫荧光实验发现该位点的突变还能阻滞YAP进入细胞核。该位点对YAP活性的调控并不依赖于YAP在S127位点受到的磷酸化调控。同时本研究在细胞水平上检测到T425A位点突变能部分降低YAP对细胞迁移的促进作用。本研究主要揭示了YAP T425位点对YAP进出细胞核及其转录活性调控的重要作用,丰富了Hippo通路的调节机理和YAP在肿瘤发生发展中的作用研究。     

Hippo信号对卵巢生殖干细胞增殖及卵巢功能的影响

已有研究表明,Hippo信号通路对干细胞的自我更新和分化至关重要,且Hippo信号通路在调控卵泡生长中起重要作用,然而,目前关于Hippo通路对卵巢生殖干细胞的增殖和分化以及卵巢功能重塑的影响相关的研究较少。为了明确Hippo信号通路效应因子YAP1与卵巢生殖干细胞体外增殖分化的关系,以及Hippo信号通路对卵巢癌的主要功能。我们采用两步法酶促分离和磁性分离技术分别鉴定卵巢生殖干细胞,通过测定MVH和OCT4标记物的表达,然后选择YAP1作为Hippo信号通路的主要效应分子,作为研究的靶基因。将含有过表达的YAP1或YAP1靶向的shRNA的慢病毒转导入卵巢生殖干细胞中。通过将过表达YAP1或YAP1 shRNA的慢病毒载体微量注射到不育小鼠模型中,观察调节Hippo信号通路对卵巢的增殖、分化和内分泌功能的影响。研究结果表明,在分离的卵巢生殖干细胞中观察到YAP1和MVH的共表达。与对照组相比,过表达YAP1的卵巢生殖干细胞中MVH和OCT4表达水平显著增加。而YAP1敲低后,MVH和OCT4水平显著降低;不育小鼠模型中YAP1过表达15 d后,E2和FSH含量显著升高,而YAP1 shRNA表达后,小鼠血清E2和FSH含量显著降低。YAP1可用于调控卵巢生殖干细胞的增殖和分化以及小鼠的卵巢功能。本研究表明,Hippo信号通路可能是调控卵巢功能重建的一个新的分子靶点。     

Expression pattern of YAP and TAZ during orthodontic tooth movement in rats

Orthodontic tooth movement (OTM) is a periodontal tissue remodeling and regeneration process that is caused by bio-mechanical stimulation. This mechanical–chemical transduction process involves a variety of biological factors and signaling pathways. It has been shown that the Hippo-YAP/TAZ signaling pathway plays a pivotal role in the mechanical–chemical signal transduction process. Moreover, YAP and TAZ proteins interact with RUNX family proteins via different mechanisms. To explore the regulation of the Hippo signaling pathway during periodontal tissue remodeling, we examined the upper first molar OTM model in rats. We examined YAP, TAZ and RUNX2 expression at 12 hours, 24 hours, 2 days (2d), 4 days, 7 days (7d) and 14 days (14d) after force application. Haemotoxylin and eosin staining, immunohistochemical staining and western blot analysis were used to examine the expression level and localization of these proteins. We found that YAP, TAZ and RUNX2 expression started increasing at 2d, YAP and TAZ expression was proportional to the orthodontic force applied until peaking at 7d, and at 14d the expression started to decrease. YAP and TAZ were observed in osteocytes, bone matrix and periodontal ligament cells during OTM. Furthermore, using double labeling immunofluorescence staining, we found that the increase in TAZ expression was associated with RUNX2 expression, however, YAP and RUNX2 showed different expression patterns. These results suggest that the Hippo-YAP/TAZ signaling pathway participates in periodontal tissue remodeling through various mechanisms; TAZ may adjust bone tissue remodeling through RUNX2 during OTM, while YAP may regulate periodontal cell proliferation and differentiation.     

Regulation of Hippo signaling pathway in cancer: A MicroRNA perspective

Recent studies have suggested that Hippo signaling is not only involved in controlling organ size in Drosophila but can also regulate cell proliferation, tissue homeostasis, differentiation, apoptosis and regeneration. Any dysregulation of Hippo signaling, especially the hyper activation of its downstream effectors YAP/TAZ, can lead to uncontrolled cell proliferation and malignant transformation. In majority of cancers, expression of YAP/TAZ is extremely high and this increased expression of YAP/TAZ has been shown to be an independent predictor of prognosis and indicator of increased cell proliferation, metastasis and poor survival. In this review, we have summarized the most recent findings about the cross talk of Hippo signaling pathway with other signaling pathways and its regulation by different miRNAs in various cancer types. Recent evidence has suggested that Hippo pathway is also involved in mediating the resistance of different cancer cells to chemotherapeutic drugs and in a few cancer types, this is brought about by regulating miRNAs. Therefore, the delineation of the underlying mechanisms regulating the chemotherapeutic resistance might help in developing better treatment options. This review has attempted to provide an overview of different drugs/options which can be utilized to target oncogenic YAP/TAZ proteins for therapeutic interventions.