Epithelial Cell Polarity Determinant CRB3 in Cancer Development

Cell polarity, which is defined as asymmetry in cell shape, organelle distribution and cell function, is essential in numerous biological processes, including cell growth, cell migration and invasion, molecular transport, and cell fate. Epithelial cell polarity is mainly regulated by three conserved polarity protein complexes, the Crumbs (CRB) complex, partitioning defective (PAR) complex and Scribble (SCRIB) complex. Research evidence has indicated that dysregulation of cell polarity proteins may play an important role in cancer development. Crumbs homolog 3 (CRB3), a member of the CRB complex, may act as a cancer suppressor in mouse kidney epithelium and mouse mammary epithelium. In this review, we focus on the current data available on the roles of CRB3 in cancer development.     

上皮细胞极性的建立和维持

细胞极性是生物中广泛存在的一个特征。上皮细胞是构成表皮、腺体、气管和消化道等组织的一类特化细胞。上皮细胞通常沿顶端-基底端轴向发生极化,形成紧密连接、粘附连接等胞间结构,同时细胞膜、细胞骨架和中心体、内膜系统、细胞核等也发生不对称分布,使细胞能行使分泌、吸收和屏障等多种重要的生理功能。有许多分子参与上皮细胞极性的建立和维持,其中最主要的是3个极性复合物,即Par-aPKC复合物,Scribble(Lg1-Dlg-Scrib)复合物和Crb(Crb-Pals-PATJ)复合物,三者共同配合发挥功能。     

Ectopic BASL Reveals Tissue Cell Polarity throughout Leaf Development in Arabidopsis thaliana

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细胞极性的形成

细胞的极性形成对细胞分化、发育及其功能的发挥起着举足轻重的作用。现就线虫受精卵、果蝇卵母细胞和哺乳动物上皮细胞三类细胞极性形成的特点和异同进行阐述,并探讨了近年来三类细胞极性形成的研究进展。     

Lethal (2) Giant Larvae: An Indispensable Regulator of Cell Polarity and Cancer Development

Cell polarity is one of the most basic properties of all normal cells and is essential for regulating numerous biological processes. Loss of polarity is considered a hallmark for cancer. Multiple polarity proteins are implicated in maintenance of cell polarity. Lethal (2) giant larvae (Lgl) is one of polarity proteins that plays an important role in regulating cell polarity, asymmetric division as well as tumorigenesis. Lgl proteins in different species have similar structures and conserved functions. Lgl acts as an indispensable regulator of cell biological function, including cell polarity and asymmetric division, through interplaying with other polarity proteins, regulating exocytosis, mediating cytoskeleton and being involved in signaling pathways. Furthermore, Lgl plays a role of a tumor suppressor, and the aberrant expression of Hugl, a human homologue of Lgl, contributes to multiple cancers. However, the exact functions of Lgl and the underlying mechanisms remain enigmatic. In this review, we will give an overview of the Lgl functions in cell polarity and cancer development, discuss the potential mechanisms underlying these functions, and raise our conclusion of previous studies and points of view about the future studies.     

Planar Cell Polarity Signaling in Collective Cell Movements During Morphogenesis and Disease

Collective and directed cell movements are crucial for diverse developmental processes in the animal kingdom, but they are also involved in wound repair and disease. During these processes groups of cells are oriented within the tissue plane, which is referred to as planar cell polarity (PCP). This requires a tight regulation that is in part conducted by the PCP pathway. Although this pathway was initially characterized in flies, subsequent studies in vertebrates revealed a set of conserved core factors but also effector molecules and signal modulators, which build the fundamental PCP machinery. The PCP pathway in Drosophila regulates several developmental processes involving collective cell movements such as border cell migration during oogenesis, ommatidial rotation during eye development, and embryonic dorsal closure. During vertebrate embryogenesis, PCP signaling also controls collective and directed cell movements including convergent extension during gastrulation, neural tube closure, neural crest cell migration, or heart morphogenesis. Similarly, PCP signaling is linked to processes such as wound repair, and cancer invasion and metastasis in adults. As a consequence, disruption of PCP signaling leads to pathological conditions. In this review, we will summarize recent findings about the role of PCP signaling in collective cell movements in flies and vertebrates. In addition, we will focus on how studies in Drosophila have been relevant to our understanding of the PCP molecular machinery and will describe several developmental defects and human disorders in which PCP signaling is compromised. Therefore, new discoveries about the contribution of this pathway to collective cell movements could provide new potential diagnostic and therapeutic targets for these disorders.     

Cell proliferation and protein synthesis as initial factors in determination of axial polarity

The rate of cell proliferation relative to that of protein synthesis appears to have an initial role in establishment of axial polarities in developing animal embryos. An increase in this ratio leads to anterior or dorsal differentiation, while reduction allows posterior or ventral differentiation in a number of organisms. The role that various growth factors play in the regulation of proliferation and protein synthesis is examined.     

Polarity, Protrusion–Retraction Dynamics and Their Interplay during Keratinocyte Cell Migration

Keratinocyte migration on a two-dimensional substrate can be split into four distinct phases: cell extension, attachment, contraction, and detachment. It is preceded by polarization of the cell which leads to a functional asymmetry observable by the formation of a leading lamella. In this work variation of fibronectin coating concentrations and competitive inhibition with RGD peptides are used to investigate the dependency of polarization, migration, lamella dynamics, and ruffling on substrate adhesiveness. Looking at migrating human epidermal keratinocytes with a well-defined polarity we find that a fibronectin-coating concentration of 10 μg/cm² stimulates migration and ruffling speed twofold, whereas protrusion speed increases only by 20% (compared to 2.5 μg/cm² fibronectin). Nonpolar cells show a constant migration and ruffling speed independent of the amount of fibronectin. In contrast protrusion speeds of polar and nonpolar cells are equal. Treatment of cells on 10 μg/cm² fibronectin with 1 mg/ml GRGDS reduces the characteristic migration, protrusion, and ruffling speed of polar cells which corresponds to lowering the effective coating concentration to under 5 μg/cm². The probability of being polarized (quantified by a polarity index) increases with increasing fibronectin concentration. However, addition of soluble RGD on 10 μg/cm² fibronectin does not simply reduce the polarity index like one would expect from the corresponding changes in the other motility parameters, but it remains unchanged.     

The Scribble Cell Polarity Module in the Regulation of Cell Signaling in Tissue Development and Tumorigenesis

The Scribble cell polarity module, comprising Scribbled (Scrib), Discs-large (Dlg) and Lethal-2-giant larvae (Lgl), has a tumor suppressive role in mammalian epithelial cancers. The Scribble module proteins play key functions in the establishment and maintenance of different modes of cell polarity, as well as in the control of tissue growth, differentiation and directed cell migration, and therefore are major regulators of tissue development and homeostasis. Whilst molecular details are known regarding the roles of Scribble module proteins in cell polarity regulation, their precise mode of action in the regulation of other key cellular processes remains enigmatic. An accumulating body of evidence indicates that Scribble module proteins play scaffolding roles in the control of various signaling pathways, which are linked to the control of tissue growth, differentiation and cell migration. Multiple Scrib, Dlg and Lgl interacting proteins have been discovered, which are involved in diverse processes, however many function in the regulation of cellular signaling. Herein, we review the components of the Scrib, Dlg and Lgl protein interactomes, and focus on the mechanism by which they regulate cellular signaling pathways in metazoans, and how their disruption leads to cancer.     

IscU2对非小细胞肺癌增殖、迁移、侵袭能力的影响及其作用机制的研究

该文通过shRNA干扰技术敲低IscU2干扰细胞IscU2的表达,研究了干扰IscU2对非小细胞肺癌(NSCLC)细胞NCI-H520增殖、迁移及侵袭能力的影响。构建了稳定低表达IscU2的非小细胞肺癌细胞系NCI-H520;采用CCK-8和平板克隆实验检测细胞的增殖能力;流式细胞仪检测细胞周期、凋亡、ROS、线粒体膜电位变化情况;Transwell实验检测细胞迁移及侵袭能力;Western blot检测相关蛋白的表达。结果表明,干扰IscU2后,非小细胞肺癌细胞的增殖及克隆形成能力降低;细胞周期停滞在G1/G0期,同时伴随有p-AKT和Cyclin D1蛋白含量的下降;细胞晚期凋亡率明显增加,凋亡蛋白Cleaved-caspase3和Cleaved-PARP表达上调;细胞迁移和侵袭能力降低,上皮标志物E-Cadherin表达上调,间质标志物N-Cadherin和Snail表达下调;细胞ROS积累和线粒体膜电位下降。该研究结果表明,干扰IscU2显著抑制非小细胞肺癌的增殖、迁移、侵袭能力和上皮–间质转化,这为非小细胞肺癌的诊断和治疗提供了新的潜在靶点和视角。     

The PTK7 and ROR2 Protein Receptors Interact in the Vertebrate WNT/Planar Cell Polarity (PCP) Pathway

The non-canonical WNT/planar cell polarity (WNT/PCP) pathway plays important roles in morphogenetic processes in vertebrates. Among WNT/PCP components, protein tyrosine kinase 7 (PTK7) is a tyrosine kinase receptor with poorly defined functions lacking catalytic activity. Here we show that PTK7 associates with receptor tyrosine kinase-like orphan receptor 2 (ROR2) to form a heterodimeric complex in mammalian cells. We demonstrate that PTK7 and ROR2 physically and functionally interact with the non-canonical WNT5A ligand, leading to JNK activation and cell movements. In the Xenopus embryo, Ptk7 functionally interacts with Ror2 to regulate protocadherin papc expression and morphogenesis. Furthermore, we show that Ptk7 is required for papc activation induced by Wnt5a. Interestingly, we find that Wnt5a stimulates the release of the tagged Ptk7 intracellular domain, which can translocate into the nucleus and activate papc expression. This study reveals novel molecular mechanisms of action of PTK7 in non-canonical WNT/PCP signaling that may promote cell and tissue movements.     

细胞极性蛋白复合物PAR/aPKC的研究进展

不对称细胞分裂是动物发育过程中用以调控细胞分化的一种进化上保守的基本模式。极性的祖细胞通过不对称分裂产生两个不同命运的子细胞,这一过程涉及细胞命运决定因子的不对称分布、纺锤体的旋转定位等,而这些过程都必须依赖特定细胞极性的存在才能得以正常进行。简要综述了高度保守的蛋白复合物PAR／aPKC在细胞极性建立和维持中的重要作用,以及它如何调控纺锤体定位和命运决定因子不对称分配,并讨论了在该领域的一些新发现和研究进展。     

Actin‑like protein 8 executes a promoting function in the malignant progression of endometrial cancer: identification of a promising biomarker

ABSTRACT

Endometrial cancer (EC) is generally considered as a disease that affects older women. We attempt to explore the role of actin?like protein 8 (ACTL8) in EC and how it achieves its function. Based on the data from The Cancer Genome Atlas (TCGA), we found that ACTL8 expression was up-regulated in EC tissues and correlated with shorter overall survival of EC patients. ACTL8 expression was significantly associated with age, clinical-stage, or grade. Cox proportional hazards model analysis revealed that ACTL8 expression, grade, and clinical-stage were promising independent prognostic factors of EC. Knockdown of ACTL8 repressed the proliferative, migrating and invading capabilities of human EC cell lines KLE and Ishikawa. Silencing ACTL8 up-regulated the negative cell cycle regulator p21 and epithelial marker E-cadherin, and down-regulated the positive cell cycle regulator Cyclin A, mesenchymal markers MMP-9 and N-cadherin in KLE cells. Collectively, these outcomes illustrated that ACTL8 might act as a tumor facilitator during EC progression.     

Context-Specific Mechanisms of Cell Polarity Regulation

Cell polarity is an essential process shared by almost all animal tissues. Moreover, cell polarity enables cells to sense and respond to the cues provided by the neighboring cells and the surrounding microenvironment. These responses play a critical role in regulating key physiological processes, including cell migration, proliferation, differentiation, vesicle trafficking and immune responses. The polarity protein complexes regulating these interactions are highly evolutionarily conserved between vertebrates and invertebrates. Interestingly, these polarity complexes interact with each other and key signaling pathways in a cell-polarity context-dependent manner. However, the exact mechanisms by which these interactions take place are poorly understood. In this review, we will focus on the roles of the key polarity complexes SCRIB, PAR and Crumbs in regulating different forms of cell polarity, including epithelial cell polarity, cell migration, asymmetric cell division and the T-cell immunological synapse assembly and signaling.     

极性蛋白与上皮肿瘤恶性转变

细胞极性是指细胞形态、蛋白分布以及细胞功能的不对称性,它是细胞发育、维持项一底极性、损伤修复及组织完整性等生理过程所必需的,主要是由极性蛋白调控。一旦极性蛋白之间的平衡失调,则会破坏细胞极性,诱导肿瘤发生、增殖及迁移。研究表明,极性蛋白的异常表达及错误定位均与肿瘤紧密相关。上皮细胞肿瘤发生及恶性转变过程通常伴有细胞极性丢失以及组织结构紊乱的现象,尤其是经历上皮间充质转变的上皮肿瘤细胞更易侵袭周围基质,最终引发转移。作者就目前有关极性蛋白在肿瘤方面的研究作一综述,重点阐述极性蛋白在肿瘤转移中的功能,并对相关问题进行讨论。     

Development of Morphological Polarity in Embryogenesis of Cnidaria

A brief review dedicated to the relationship between the egg animal-vegetal axis and polarity of future larva in Cnidaria. Possible variants of changes in polarity of the embryo during development are discussed.     

Modeling Tissue Polarity in Context

Polarity is critical for development and tissue-specific function. However, the acquisition and maintenance of tissue polarity is context dependent. Thus, cell and tissue polarity depend on cell adhesion which is regulated by the cytoskeleton and influenced by the biochemical composition of the extracellular microenvironment and modified by biomechanical cues within the tissue. These biomechanical cues include fluid flow induced shear stresses, cell-density and confinement-mediated compression, and cellular actomyosin tension intrinsic to the tissue or induced in response to morphogens or extracellular matrix stiffness. Here, we discuss how extracellular matrix stiffness and fluid flow influence cell–cell and cell–extracellular matrix adhesion and alter cytoskeletal organization to modulate cell and tissue polarity. We describe model systems that when combined with state of the art molecular screens and high-resolution imaging can be used to investigate how force modulates cell and tissue polarity.     

miR-184通过抑制EPB41L5调控大鼠肾癌细胞增殖及迁移

为了探讨miR-184对肾癌细胞的影响及机制,本研究选取肾癌细胞株786-0细胞,随机分为对照组、空白转染组和miR-184转染组,其中miR-184转染组转染miR-184 mimic,空白转染组转染空白mimic,采用CCK-8细胞增殖实验检测各组细胞增殖,流式细胞仪检测各组细胞凋亡,划痕实验检测各组细胞迁移,Western blotting检测各组EPB41L5蛋白表达。研究结果表明miR-184转染组培养48 h和培养72 h时OD值分别为(0.964±0.103)和(1.011±0.121),明显低于对照组和空白转染组(p<0.05);miR-184转染组培养72 h后细胞凋亡率为(18.22±2.26)%,明显高于对照组和空白转染组(p<0.05);miR-184转染组培养24 h后细胞迁移数为(17.21±3.06)个,明显低于对照组和空白转染组(p<0.05);miR-184转染组细胞EPB41L5蛋白相对表达量为(0.241±0.061),明显低于对照组和空白转染组(p<0.05)。本研究初步表明:miR-184可抑制肾癌786-0细胞增殖和迁移,促进细胞凋亡,其可能与其抑制EPB41L5蛋白表达有关。