WWP1 E3 Ligase Targets LATS1 for Ubiquitin-Mediated Degradation in Breast Cancer Cells

The Large Tumor Suppressor 1 (LATS1) is a serine/threonine kinase and tumor suppressor found down-regulated in various human cancers. LATS1 has recently been identified as a central player of the emerging Hippo signaling pathway, which plays important roles in organ size control, tumorigenesis, and stem cell differentiation and renewal, etc. Although mounting evidence supports a role of LATS1 in tumor suppression and tumorigenesis, how LATS1 is regulated at the molecular level is not fully understood. Recently several positive regulators of LATS1 (Mst1/2, MOB1, Kibra, etc) have been identified but how LATS1 is negatively regulated is still largely unknown. We have recently identified Itch, a member of the NEDD4-like family E3 ubiquitin ligases, as a novel negative regulator of LATS1. However, whether other ubiquitin ligases modulate LATS1 stability and function is unclear. By screening many E3 ligases of the NEDD4-like family using over-expression and short-interference RNA knockdown approaches, we have identified WWP1 E3 ligase as another novel negative regulator of LATS1. We have provided in vitro and in vivo evidence that WWP1 is essential for LATS1 stability and negatively regulate LATS1 by promoting LATS1 degradation through polyubiquitination and the 26S proteasome pathway. Importantly, we also showed that degradation of LATS1 is critical in mediating WWP1-induced increased cell proliferation in breast cancer cells. Since WWP1 is an oncogene and LATS1 is a tumor suppressor gene in breast cancer, our studies provide a promising therapeutic strategy in which developed drugs targeting WWP1 cause activation of LATS1 in suppressing breast cancer cell growth.     

CRISPR/Cas9介导的LATS1/2敲除抑制卵巢癌细胞ES-2增殖

Hippo信号通路在哺乳动物肝脏发育、动态平衡、再生和疾病中发挥非常重要的作用。大肿瘤抑制基因1/2（large tumor suppressor 1/2, LATS1/2）激酶是Hippo信号通路的关键激酶,可以磷酸化YES相关蛋白（yes-associated protein,YAP）,从而调节YAP的核质定位和降解。本文采用CRISPR/Cas9方法构建慢病毒介导的Last1/2基因敲除的载体,通过包装、感染和嘌呤霉素筛选,获得LATS1/2部分敲除的人卵巢癌ES-2和H08910细胞,免疫印迹方法检测LATS1/2表达明显减少。细胞增殖实验检测LATS1/2缺失明显抑制ES-2和HO8910细胞增殖。软琼脂克隆形成实验表明,LATS1/2缺失抑制卵巢癌ES-2细胞的克隆形成能力。细胞划痕和Transwell实验证明,LATS1/2缺失明显抑制卵巢癌ES-2细胞迁移。流式细胞检测发现,LATS1/2敲除促进卵巢癌ES-2细胞凋亡并影响细胞周期。裸鼠成瘤实验表明,LATS1/2缺失明显抑制体内肿瘤组织增殖。分子机制研究表明, LATS1/2敲除促进卵巢癌ES-2细胞中胶原I型α1（collagen type I α1,ColIα1）基因表达量增加,在卵巢癌ES-2细胞中同时敲除LATS1/2和COL1A1,可以促进细胞克隆形成。综上结果,人卵巢癌ES-2细胞中LATS1/2缺失能促进COL1A1表达增加, 从而抑制细胞增殖、转移和克隆形成,并影响细胞周期和促进细胞凋亡。     

LATS1过表达对肺癌A549细胞增殖及周期的影响

通过过表达手段上调大肿瘤抑制因子1（1arge tumor suppressor gene 1,LATS1）基因在A549细胞中的表达,研究LATS1对A549细胞生长和细胞周期调控的作用。构建过表达LATS1基因的慢病毒载体,转染A549N胞株,采用RT-PCR和蛋白质印迹法检测转染后A549细胞中LATS1、YAPmRNA和蛋白的表达效率;流式细胞术检测细胞凋亡、周期情况：CCK-8检测细胞的增殖水平变化。结果发现,过表达LATS1慢病毒载体转染A549细胞株后,LATS1mRNA及蛋白表达水平高于未处理组及转染空载体组,YAPmRNA及蛋白表达水平低于未处理组及转染空载体组;过表达LATS1慢病毒转染后,A549细胞增殖率从第五天开始低于对照组（P〈0．05）,过表达组细胞G1期比例明显增高（P〈0．05）,凋亡率明显增加（P〈0．05）,差异均有统计学意义。以上结果提示,LATS1可通过下调YAP的表达水平促进A549细胞的凋亡,诱导G1期阻滞,降低细胞的增殖能力。     

MicroRNA-181b promotes ovarian cancer cell growth and invasion by targeting LATS2

MicroRNAs (miRNAs) are strongly implicated in tumorigenesis and metastasis. In this study, we showed significant upregulation of miR-181b in ovarian cancer tissues, compared with the normal ovarian counterparts. Forced expression of miR-181b led to remarkably enhanced proliferation and invasion of ovarian cancer cells while its knockdown induced significant suppression of these cellular events. The tumor suppressor gene, LATS2 (large tumor suppressor 2), was further identified as a novel direct target of miR-181b. Specifically, miR-181b bound directly to the 3′-untranslated region (UTR) of LATS2 and suppressed its expression. Restoration of LATS2 expression partially reversed the oncogenic effects of miR-181b. Our results indicate that miR-181b promotes proliferation and invasion by targeting LATS2 in ovarian cancer cells. These findings support the utility of miR-181b as a potential diagnostic and therapeutic target for ovarian cancer.     

miR-372 regulates cell cycle and apoptosis of ags human gastric cancer cell line through direct regulation of LATS2

Previously, we have reported tissue- and stage-specific expression of miR-372 in human embryonic stem cells and so far, not many reports speculate the function of this microRNA (miRNA). In this study, we screened various human cancer cell lines including gastric cancer cell lines and found first time that miR-372 is expressed only in AGS human gastric adenocarcinoma cell line. Inhibition of miR-372 using antisense miR-372 oligonucleotide (AS-miR-372) suppressed proliferation, arrested the cell cycle at G2/M phase, and increased apoptosis of AGS cells. Furthermore, AS-miR-372 treatment increased expression of LATS2, while over-expression of miR-372 decreased luciferase reporter activity driven by the 3′ untranslated region (3′ UTR) of LATS2 mRNA. Over-expression of LATS2 induced changes in AGS cells similar to those in AGS cells treated with AS-miR-372. Taken together, these findings demonstrate an oncogenic role for miR-372 in controlling cell growth, cell cycle, and apoptosis through down-regulation of a tumor suppressor gene, LATS2.     

MiR-93 enhances angiogenesis and metastasis by targeting LATS2

Here we report that miR-93, a miRNA in the miR-106B~25 cluster, a paralog of the miR-17–92 cluster, was significantly upregulated in human breast carcinoma tissues. We stably expressed miR-93 in the MT-1 human breast carcinoma cell line and found that tumors formed by the miR-93 cells contained more blood vessels than those formed by the control cells. Co-culture experiments indicated that the MT-1 cells displayed a high activity of adhesion with endothelial cells and could form larger and more tube-like structures with endothelial cells. Lung metastasis assays were performed in a mouse metastatic model, and it was found that expression of miR-93 promoted tumor cell metastasis to lung tissue. In cell culture, expression of miR-93 enhanced cell survival and invasion. We examined the potential target that mediated miR-93’s effects and found that the large tumor suppressor, homology 2 (LATS2) was a target of miR-93. Higher levels of LATS2 were associated with cell death in the tumor mass. Silencing LATS2 expression promoted cell survival, tube formation and invasion, while ectopic expression of LATS2 decreased cell survival and invasion. These findings demonstrated that miR-93 promoted tumor angiogenesis and metastasis by suppressing LATS2 expression. Our results suggest that the inhibition of miR-93 function may be a feasible approach to repress tumor metastasis.     

Retracted: MicroRNA-373 promotes the development of endometrial cancer by targeting LATS2 and activating the Wnt/β-Catenin pathway

In the female reproductive tract, endometrial cancer is the most common malignant tumor. Recently, the specific functions of many miRNAs have been identified in endometrial cancer. However, the contradictory effects of microRNA-373 (miR-373) in different human cancers draw our attention. In the present research, upregulation of miR-373 was identified in endometrial cancer which predicted poor prognosis. Moreover, upregulation of miR-373 promoted the migration, invasion, and proliferation of endometrial cancer cells. To further confirm that results, the EMT and Wnt/β-Catenin pathways were also investigated, which were promoted by overexpression of miR-373. Then, we further investigate the downstream factor, large tumor suppressor kinase 2 (LATS2) which was inhibited by miR-373. LATS2 was verified as a direct target gene of miR-373 through luciferase reporter assay. Especially, the facilitation of miR-373 for cell proliferation, migration and invasion was impaired by LATS2. Taken together, miR-373 promotes the progression of endometrial cancer through targeting LATS2 and promoting EMT and Wnt/β-Catenin pathway.     

Expression of the neurofibromatosis type 2 gene in human tissues.

The neurofibromatosis Type 2 tumor suppressor gene is implicated in the hereditary tumor syndrome NF2, hallmarked by bilateral vestibular schwannomas, meningiomas, and ocular non-neoplastic features. The gene product has characteristics of a membrane cytoskeleton-linking protein but the mechanism of tumor suppression by the NF2 protein remains to be elucidated. The NF2 gene is widely expressed in mouse and rat tissues. In humans, most of the expression data have accumulated through Northern blot analysis, RT-PCR and, more recently, Western blot analysis, providing information on whole tissues and organs rather than on specific cell types. We report here an extensive survey of NF2 gene expression in human tissues using a combination of mRNA in situ hybridization (mRNA ISH) and immunohistochemistry (IH) with a panel of monoclonal antibodies (MAbs) supplemented by tissue immunoprecipitation experiments with affinity-purified polyclonal antibodies. Expression was observed in many different cell types, most of which appear functionally normal in individuals affected by NF2. Surprisingly, expression could not be consistently documented in Schwann cells and arachnoidal cells by IH or by mRNA ISH in formalin-fixed tissue. However, consistent immunostaining of Schwann cells was seen in frozen sections. (J Histochem Cytochem 47:1471-1479, 1999)     

MicroRNA-31 regulated by the extracellular regulated kinase is involved in vascular smooth muscle cell growth via large tumor suppressor homolog 2

Aberrant growth of vascular smooth muscle cells (VSMCs) is a major cellular event in the pathogenesis of many proliferative vascular diseases. Recently, microRNA-31 (miR-31) has been found to play a critical role in cancer cell proliferation. However, the biological role of miR-31 in VSMC growth and the mechanisms involved are currently unknown. In the present study, the expression of rat mature miR-31 (rno-miR-31) was determined in cultured VSMCs and in rat carotid arteries. We identified that rno-miR-31 is an abundant miRNA in VSMCs, and its expression was significantly increased in proliferative VSMCs and in vascular walls with neointimal growth. The up-regulation of rno-miR-31 in proliferative VSMCs was inhibited by the inhibitor of mitogen-activated protein kinase/extracellular regulated kinase (MAPK/ERK). By both gain-of-function and loss-of-function approaches, we demonstrated that rno-miR-31 had a proproliferative effect on VSMCs. We further identified that LATS2 (large tumor suppressor homolog 2) is a downstream target gene product of rno-miR-31 that is involved in rno-miR-31-mediated effect on VSMC proliferation. The LATS2 as a target gene protein of rno-miR-31 is verified in vivo in balloon-injured rat carotid arteries. The results suggest that MAPK/ERK/miR-31/LATS2 may represent a novel signaling pathway in VSMC growth. miR-31 is able to enhance VSMC proliferation via its downstream target gene product, LATS2.