抗凋亡因子Survivin研究进展

Survivin是在肿瘤组织及胚胎中发现的一类细胞因子,它是IAPs(inhibitorsofapoptosisprotein)家族的成员之一,具有其独特的分子结构和组织表达特异性,在细胞中参与细胞周期的调控,主要在细胞周期的G2/M期通过抑制caspase-3及caspase-7的活性发挥作用.Survivin在细胞中的活性可能受p53的调节.Survivin也是胚胎发育早期过程中调节细胞分裂分化的一类重要的因子.对Survivin的研究对于肿瘤治疗的研究及揭示胚胎早期的发育机制有重要的意义.     

小G蛋白RhoA与细胞发育

细胞发育是细胞内各种复杂反应在时间和空间上有序协调的过程, 包括细胞增殖、胞质分裂、细胞运动、细胞分化和组织生成等．作为G蛋白家族重要成员的RhoA起了重要的调控作用：在G蛋白调控因子(如GEF XPLN、 p115RhoGEF、p190RhoGAP等）的作用下,活化的RhoA依次与效应蛋白分子（如ROCK1/2、 mDia、 PRK1/2、 citron 激酶等）结合, 从而开启了下游的信号通路, 最终使细胞能够迅速地对外界刺激做出反应．干细胞是一类既能自我更新又能特异分化形成终末分化细胞的细胞, 而 RhoA对干细胞的自我更新和定向分化也起着“开关"作用, 对RhoA信号通路的调节调控了胚胎发生、神经发生、造血生成及成骨和肌肉生成等干细胞分化发育过程．肿瘤是正常细胞在各种因素长期作用下增殖异常的产物, 而RhoA异常表达与肿瘤的发生、侵润与转移密切相关, RhoA信号通路与p53等基因的交互作用在肿瘤的发育过程中也发挥了重要的作用．     

斑马鱼胚胎背腹轴建立的分子机制

脊椎动物胚胎发育起始于体轴的建立,是胚胎早期发育过程中最重要的事件之一。Wnt、BMP、Nodal和FGF等多个信号通路协同调控细胞分化和细胞运动,促进胚胎胚层的形成和空间上的分离,调控胚胎背腹轴、前后轴和左右轴线的分化,为胚胎进一步发育勾勒出蓝图。本文主要综述斑马鱼胚胎背腹轴建立的分子机制,包括背部组织中心简介;母源Wnt/β-catenin信号调控背部组织中心形成的分子机制;BMP信号调控背腹轴建立的分子机制。     

激活素A调控人类滋养细胞生物学特性的分子机制及其与胎盘源性妊娠疾病关系的研究进展

在人类妊娠建立过程中,胚胎滋养外胚层细胞与子宫内膜直接接触,严密介导母胎对话,调控胚胎着床、植入宫腔,并逐渐形成维持妊娠期间物质交换、营养供应的胎盘组织。起源于滋养外胚层的一部分滋养细胞(trophoblast)侵袭、迁移进入母体蜕膜组织,重塑子宫螺旋小动脉,对于胎盘形成和母胎血液循环建立至关重要。滋养细胞侵袭、迁移、增殖、凋亡、内皮特性获得等生物学特性异常是胚胎种植失败、自然流产、妊娠滋养细胞疾病、子痫前期、胎儿生长受限等胎盘源性妊娠疾病的重要因素。激活素A(activin A)作为转化生长因子β(transforming growth factor-β,TGF-β)超家族中的一种分泌型蛋白,在妊娠期间母体循环及母胎界面表达丰富,在调控滋养细胞生物学特性以及妊娠的建立和维持中起重要作用。该文主要围绕激活素A调控人类滋养细胞生物学特性的分子机制及其在胎盘源性妊娠疾病中表达改变的研究进展进行综述。     

胚胎干细胞向造血系统的分化

胚胎干细胞是指从囊胚期的内细胞团中分离出来的尚未分化的胚胎细胞,可分化形成各种组织类型。在合适的条件下,胚胎干细胞可发育成造血干细胞及各类成熟血细胞,为造血干细胞移植及血细胞输注开辟了新的来源,同时也为造血发生及造血调控研究提供了有效可靠的模型。本文将综述ES细胞向造血系统分化的诱导条件、调控机制及应用前景。     

人体肝癌细胞膜相关胚胎抗原的研究

近十多年来实验和临床肿瘤免疫研究的结果说明,正常细胞转变为癌细胞以后,癌细胞表面出现了许多新的抗原。在不同类型的肿瘤中,这些抗原可以是病毒抗原、胚胎抗原、组织专一抗原或其他的肿瘤相关抗原。所谓胚胎抗原一般指的是胚胎组织和肿瘤组织所共有的、而成年机体相应的正常组织所很少有的抗原,它们有的是可溶性的,由癌细胞合成和分泌到体液,有的也可以存在于癌细胞的表面,可能是属于膜的组成部分的结构抗原。这些胚胎抗原的发现和研究具有一定的重要意义,在理论上为肿瘤的产生与胚胎发育和分化的关系提供了新的线索,如基因重新激活学说的提出等等;在实践上已为肿瘤的     

FGF8在脊椎动物早期胚胎发育中的调控作用

成纤维细胞生长因子8 (fibroblast growth factor 8,FGF8)是成纤维细胞生长因子家族的成员之一,是一种组织发育过程中的重要分泌性调控信号分子,参与脊椎动物的多种组织器官的发生与发育.早期胚胎细胞通过表达FGF8在组织和器官发育、血管发生、血细胞生成、附肢发生和伤口愈合等方面发挥着重要作用.FGF8不但可以在细胞外通过胞内信号通路,而且也可以进入细胞内部发挥生物学功能.本文就FGF8在脊椎动物神经系统、内脏器官、肢体发育及不对称发育等组织、器官发育中的调控作用予以阐述.     

转录因子Snail的作用机制及其生理功能

Snail为起负调节作用的锌指转录因子,其序列和功能在不同种属动物中十分保守。Snail超家族成员在胚胎着床、胚胎发生、肿瘤发生、细胞命运决定、细胞周期调控、左右不对称发育及创伤愈合等生理或病理过程发挥重要作用。对Snail的进一步研究,不仅可以阐明Snail超家族的作用机制,而且可以为探究Snail相关的肿瘤治疗策略提供重要的理论基础。     

胚胎干细胞的体外诱导分化模型

胚胎干细胞是具有全能性及无限制的自我更新与分化能力的一类特殊的细胞群体 ,它能通过祖细胞为中介 ,分化为各种类型的体细胞 ,可重演体内干细胞的分化过程。自 80年代从小鼠囊胚的内细胞团分离到胚胎干细胞并建系到现在已建立了神经细胞、肌肉细胞、上皮细胞、造血细胞等体外分化体系。将胚胎干细胞体外分化成为可利用的分化模型 ,无论从组织结构、细胞及分子水平都体现了体内分化过程的体外重演 ,再加上胚胎干细胞系具有体系简单 ,影响因子少 ,可控制 ,便于研究等特点 ,因此可用于研究早期胚胎发育和细胞分化调控 ;可成为器官移植和修复…     

巨噬细胞与Wnt通路在肿瘤发生发展中的作用

巨噬细胞作为机体固有免疫的重要成员,具有高度异质性,在肿瘤发生发展过程中的多个方面发挥重要作用。Wnt信号通路分子广泛表达于胚胎和成年个体组织,在胚胎/成体干细胞分化、发育和功能调控中发挥重要作用,而且参与多种肿瘤的发生发展过程。近年来越来越多研究表明,Wnt信号通路参与调控巨噬细胞的分化及功能。本文就巨噬细胞与Wnt信号通路对肿瘤发生发展作用的研究进展作一综述。     

Label-free detection of surface markers on stem cells by oblique-incidence reflectivity difference microscopy

Conventional fluorescence microscopy is routinely used to detect cell surface markers through fluorophore-conjugated antibodies. However, fluorophore-conjugation of antibodies alters binding properties such as strength and specificity of the antibody in often uncharacterized ways. Here we present a method using an oblique-incidence reflectivity difference (OI-RD) microscope for label-free, real-time detection of cell surface markers, and apply it to analysis of stage-specific embryonic antigen 1 (SSEA1) on stem cells. Mouse stem cells express SSEA1 on their surfaces, and the level of SSEA1 decreases when the cells start to differentiate. In this study, we immobilized mouse stem cells and non-stem cells (control) on a glass surface as a microarray and reacted the cell microarray with unlabeled SSEA1 antibodies. By monitoring the reaction with an OI-RD microscope in real time, we confirmed that the SSEA1 antibodies bind only to the surface of the stem cells and not to the surface of non-stem cells. From the binding curves, we determined the equilibrium dissociation constant (Kd) of the antibody with the SSEA1 markers on the stem cell surface. Thus, the OI-RD microscope can be used to detect binding affinities between cell surface markers and unlabeled antibodies bound to the cells; this information could be useful for determination of stem cell stages.     

Multiparameter flow cytometry for the characterization of human embryonic stem cells

Using multiparameter staining methods and flow cytometry to investigate the pluripotency of HUES7 human embryonic stem cell cultures, it was found that the multidimensional approach of marker co-expression allowed the different cell populations to be easily identified and demonstrated cross reactivity between the SSEA 4 and SSEA 1 antibodies, resulting in a substantial false positive SSEA 1 population. It is the accepted norm to apply control gates at a 95 % confidence level of the isotype control; however, this study found that adjusting the control gate to a 99 % confidence level significantly reduced the effect of this cross reactivity. Though conversely, this gating shift also decreased the positive marker expression of SSEA 4 and Tra-1-60, indicating that there is a need for strongly expressing markers coupled with increased optimization of fluorophore/antibody combinations before a gating strategy of 99 % can be implemented on a more routine basis.     

Bone Marrow SSEA1+ Cells Support the Myocardium in Cardiac Pressure Overload

Rationale

Stage specific embryonic antigen 1+ (SSEA1+) cells have been described as the most primitive mesenchymal progenitor cell in the bone marrow. Cardiac injury mobilizes SSEA1+ cells into the peripheral blood but their in vivo function has not been characterized.

Objective

We generated animals with chimeric bone marrow to determine the fate and function of bone marrow SSEA1+ cells in response to acute cardiac pressure overload.

Methods and Results

Lethally irradiated mice were transplanted with normal bone marrow where the wild-type SSEA1+ cells were replaced with green fluorescent protein (GFP) SSEA1+ cells. Cardiac injury was induced by trans-aortic constriction (TAC). We identified significant GFP+ cell engraftment into the myocardium after TAC. Bone marrow GFP+ SSEA1 derived cells acquired markers of endothelial lineage, but did not express markers of c-kit+ cardiac progenitor cells. The function of bone marrow SSEA1+ cells after TAC was determined by transplanting lethally irradiated mice with bone marrow depleted of SSEA1+ cells (SSEA1-BM). The cardiac function of SSEA1-BM mice declined at a greater rate after TAC compared to their complete bone marrow transplant counterparts and was associated with decreased bone marrow cell engraftment and greater vessel rarefication in the myocardium.

Conclusions

These results provide evidence for the recruitment of endogenous bone marrow SSEA1+ cells to the myocardium after TAC. We demonstrate that, in vivo, bone marrow SSEA1+ cells have the differentiation potential to acquire endothelial lineage markers. We also show that bone marrow SSEA1+ deficiency is associated with a reduced compensatory capacity to cardiac pressure overload, suggesting their importance in cardiac homeostasis. These data demonstrate that bone marrow SSEA1+ cells are critical for sustaining vascular density and cardiac repair to pressure overload.     

无饲养层培养人胚胎干细胞方法的建立

人胚胎干细胞(human embryonic stem cell,hES细胞)是当前医学研究的热点之一．然而hES细胞培养条件苛刻,通常需要采用鼠胚胎成纤维细胞(mouse embryonic fibroblast,MEFs)饲养层来维持其未分化状态,成为目前hES细胞研究的瓶颈之一、本实验成功地将hES细胞接种在细胞外基质包被的六孔板上培养,传代20次后细胞仍然保持良好的未分化状态,各种hES细胞生物学特性(如表面标志物SSEA-3、SSEA-4、TRA-1-60和TRA-1-8l,OCT-4,碱性磷酸酶及体内外分化潜能等)均无改变;其冻存、复苏效果与生长在饲养层上的hES细胞无明显差异．因此,该无饲养层培养体系可以用于培养hES细胞,并为hES细胞转基因研究及大规模培养打下良好的基础．     

Pinacidil enhances survival of cryopreserved human embryonic stem cells

Human embryonic stem cells (hESCs) can be maintained as undifferentiated cells in vitro and induced to differentiate into a variety of somatic cell types. Thus, hESCs provide a source of differentiated cell types that could be used to replace diseased cells of a tissue. The efficient cryopreservation of hESCs is important for establishing effective stem cell banks, however, conventional slow freezing methods usually lead to low rates of recovery after thawing cells and their replating in culture. We have established a method for recovering cryopreserved hESCs using pinacidil and compared it to a method that employs the ROCK inhibitor Y-27632. We show that pinacidil is similar to Y-27632 in promoting survival of hESCs after cryopreservation. The cells exhibited normal hESC morphology, retained a normal karyotype, and expressed characteristic hESC markers (OCT4, SSEA3, SSEA4 and TRA-1-60). Moreover, the cells retained the capacity to differentiate into derivatives of all three embryonic germ layers as demonstrated by differentiation through embryoid body formation. Pinacidil has been used for many years as a vasodilator drug to treat hypertension and its manufacture and traceability are well defined. It is also considerably cheaper than Y-27632. Thus, the use of pinacidil offers an efficient method for recovery of cryopreserved dissociated human ES cells.