Endocardial Notch Signaling Promotes Cardiomyocyte Proliferation in the Regenerating Zebrafish Heart through Wnt Pathway Antagonism

1. Download high-res image (187KB)
2. Download full-size image

     

Vitamin D Stimulates Cardiomyocyte Proliferation and Controls Organ Size and Regeneration in Zebrafish

1. Download high-res image (193KB)
2. Download full-size image

     

生长激素信号通路调节大鼠再生肝的肝细胞增殖

生长激素(growth hormone, GH)信号通路对机体生长发育具有重要的调控作用。GH通过与特异性膜表面受体结合,启动下游一系列信号通路反应,进而调控细胞增殖、分化和迁移,防止细胞凋亡等。GH对细胞增殖的调控机制一直以来都是研究的热点,但部分肝切除（partial hepatectomy,PH）后,生长激素相关的信号通路是否会活化,调控相关基因的表达,从而促进肝实质细胞增殖,尚未见报道。本文以percoll密度梯度离心结合磁珠分离的大鼠再生肝的肝细胞为材料,采用Rat Genome 230 20芯片与生物信息学相结合的方法,研究GH信号通路对肝再生的调控作用。结果表明,大鼠再生肝的肝细胞中22种基因与GH信号通路相关,其中,Gh1、Jak3、Stat3等14种基因表达上调,Irs3、Ghr、Mras等8种基因表达下调。谱函数（Et）分析基因表达变化预示的细胞增殖活动和信号转导活性表明,GH信号通路的信号传导活性在大鼠肝再生的2~72 h强于对照,所调节的肝细胞增殖活动在6~72 h也强于对照。综上所述,GH信号通路促进大鼠再生肝的肝细胞增殖。     

Notch信号与心脏干细胞关系的研究进展

Notch信号是广泛存在于各种动物细胞中高度保守的信号途径,在干细胞生物学功能中发挥重要作用。心脏干细胞（cardiac stem cells,CSCs）是存在于心脏特殊微环境下的多潜能干细胞,其表面存在Notch受体,而与其相邻的细胞可表达Notch配体,提示心脏干细胞中的Notch信号在某些条件下可被活化。该文从Notch信号通路的组成和激活、CSCs的界定与来源、CSCs主要类型的一般生物学特征及Notch信号通路与CSCs形成、分化和增殖的关系等方面进行综述,并展望了基于CSCs在心肌再生相关转化医学研究中的前景。     

诱导心脏发生的早期信号通路

心脏是胚胎发生过程中最早形成的器官 .心脏前体的特化是组织间及细胞与细胞之间相互作用的结果 ,这一过程包含了诱导信号作用的时间和空间完整程序 .以脊椎动物和无脊椎动物作为模式动物 ,总结了在早期心脏发生中发挥重要作用的诱导信号通路 :BMP Dpp ,Wnt Wingless ,FGF及Notch信号通路 ,并阐述了信号通路之间的通讯 (crosstalk)以及信号通路与心脏发生相关的关键转录调节因子之间的协同诱导作用 .     

心肌细胞周期调控的研究进展

尽管分子心脏学在很多方面已经取得了较大的进展,但是有关心脏形成细胞的起源、诱导心脏发生的机理、胚胎期和成人期心肌细胞增殖的调控途径仍然不是很清楚.在最近的研究中,人们对心肌细胞周期调控已有所了解.主要就心肌细胞周期活动和成人心肌细胞发生的研究进展进行了综述.     

Myocardial Polyploidization Creates a Barrier to Heart Regeneration in Zebrafish

1. Download high-res image (334KB)
2. Download full-size image

     

神经血管单元和Notch信号通路在缺血性卒中后的作用

缺血性卒中是临床常见疾病,且致死致残率高,幸存的患者预后多不同程度的患有偏瘫等后遗症,但目前还没有好的治疗方法。很长一段时间以来,卒中后的治疗关注点在于神经元的保护,割裂了神经元和周围细胞的联系。2001年,"神经血管单元"概念的提出为缺血性卒中的临床治疗提供了新的角度。此外,有研究表明Notch信号通路参与了神经、血管再生过程,对于卒中后神经血管单元的修复有调节作用。因此,本文从神经血管单元和Notch信号通路两个切入点综述了二者在缺血性卒中发生后的作用。     

Notch信号通路与生殖干细胞研究进展

Notch信号通路是一个在进化中高度保守的信号通道,具有调控细胞增殖、分化及凋亡的作用。近年来,随着研究的不断深入,发现Notch信号通路与生殖干细胞的增殖分化及干细胞微环境的作用机理密切关联,Notch信号通路在生殖系统发育及疾病治疗中的作用机制逐渐引起人们的广泛关注。该文综合论述了Notch信号通路的生理特性及功能,重点阐述Notch信号通路在精原干细胞、卵巢生殖干细胞及生殖干细胞微环境系统中的调控机制。     

有氧运动诱导心肌肥大和心肌细胞增殖的研究进展

适宜的运动负荷可刺激心肌生理性肥大和心肌细胞增殖,但这种内源性生理过程的分子机制知之甚少,因此有氧运动诱导心肌肥大和心肌细胞增殖的研究是目前发育生物学和细胞生物学领域的热点,其具体分子机制以及生理价值具有重要的生物学和医学研究及应用意义。该文综述了近年来有氧运动诱导心肌肥大和心肌细胞增殖的研究进展,旨在为相关领域的研究提供参考。     

Notch信号通路对神经干细胞增殖分化的作用

神经干细胞作为一种具有自我更新能力和多向分化潜能的细胞,它的增殖和分化受到多种源于自身或外在、邻近或远程细胞信号通路的调控,各种细胞因子及胞间通讯在神经干细胞的增殖和分化中发挥着重要的作用。近年来的多种研究表明,Notch信号通路正是这样一种可以通过相邻细胞的配体与受体相互作用,从而传递信号,进一步发挥其生物学功能的重要信号通路。该通路参与了神经干细胞维持自我形态及向多种具有不同功能的神经细胞分化的过程．对于研究神经干细胞的增殖和分化具有巨大的意义。该文将就当前Notch信号通路对神经干细胞增殖分化影响的相关研究进行简要综述。     

Igf Signaling is Required for Cardiomyocyte Proliferation during Zebrafish Heart Development and Regeneration

Unlike its mammalian counterpart, the adult zebrafish heart is able to fully regenerate after severe injury. One of the most important events during the regeneration process is cardiomyocyte proliferation, which results in the replacement of lost myocardium. Growth factors that induce cardiomyocyte proliferation during zebrafish heart regeneration remain to be identified. Signaling pathways important for heart development might be reutilized during heart regeneration. IGF2 was recently shown to be important for cardiomyocyte proliferation and heart growth during mid-gestation heart development in mice, although its role in heart regeneration is unknown. We found that expression of igf2b was upregulated during zebrafish heart regeneration. Following resection of the ventricle apex, igf2b expression was detected in the wound, endocardium and epicardium at a time that coincides with cardiomyocyte proliferation. Transgenic zebrafish embryos expressing a dominant negative form of Igf1 receptor (dn-Igf1r) had fewer cardiomyocytes and impaired heart development, as did embryos treated with an Igf1r inhibitor. Moreover, inhibition of Igf1r signaling blocked cardiomyocyte proliferation during heart development and regeneration. We found that Igf signaling is required for a subpopulation of cardiomyocytes marked by gata4:EGFP to contribute to the regenerating area. Our findings suggest that Igf signaling is important for heart development and myocardial regeneration in zebrafish.     

RGMb/DRAGON与BMP信号转导

RGMb/DRAGON为RGM家族成员之一,在许多组织和器官中存在并表达.最初它作为粘附分子在神经系统中调节轴突排斥被发现.近来研究发现,它还是BMP的辅助受体,与BMP配体和受体结合,通过调控BMP信号通路在繁殖、肾脏机能的维持以及免疫疾病等生理和病理条件下发挥重要作用.本文评述了RGMb的基因及蛋白结构特征、表达定位及其在神经系统中的作用,并重点介绍了其在BMP信号通路中的作用机制和生物学研究进展.     

Notch信号途径及其调控

Notch是一个进化上十分保守的跨膜受体蛋白家族,对无脊椎动物和脊椎动物发育过程中的细胞命运决定起重要作用。一条重要的Notch信号途径涉及Notch的“三步蛋白质水解”活化。许多相关分子和体内生化过程参与Notch信号途径调控。调控发生在不同水平,包括Notch-配体互作、受体和配体的运输、泛素化降解等。现就Notch受体、Notch信号途径及其所受的不同水平的调控进行综述。     

BMP2 Transfer to Neighboring Cells and Activation of Signaling

Morphogen gradients and concentration are critical features during early embryonic development and cellular differentiation. Previously we reported the preparation of biologically active, fluorescently labeled BMP2 and quantitatively analyzed their binding to the cell surface and followed BMP2 endocytosis over time on the level of single endosomes. Here we show that this internalized BMP2 can be transferred to neighboring cells and, moreover, also activates downstream BMP signaling in adjacent cells, indicated by Smad1/5/8 phosphorylation and activation of the downstream target gene id1. Using a 3D matrix to modulate cell–cell contacts in culture we could show that direct cell–cell contact significantly increased BMP2 transfer. Using inhibitors of vesicular transport, transfer was strongly inhibited. Interestingly, cotreatment with the physiological BMP inhibitor Noggin increased BMP2 uptake and transfer, albeit activation of Smad signaling in neighboring cells was completely suppressed. Our findings present a novel and interesting mechanism by which morphogens such as BMP2 can be transferred between cells and how this is modulated by BMP antagonists such as Noggin, and how this influences activation of Smad signaling by BMP2 in neighboring cells.      

Synergy and antagonism between Notch and BMP receptor signaling pathways in endothelial cells

Notch and bone morphogenetic protein signaling pathways are important for cellular differentiation, and both have been implicated in vascular development. In many cases the two pathways act similarly, but antagonistic effects have also been reported. The underlying mechanisms and whether this is caused by an interplay between Notch and BMP signaling is unknown. Here we report that expression of the Notch target gene, Herp2, is synergistically induced upon activation of Notch and BMP receptor signaling pathways in endothelial cells. The synergy is mediated via RBP-Jkappa/CBF-1 and GC-rich palindromic sites in the Herp2 promoter, as well as via interactions between the Notch intracellular domain and Smad that are stabilized by p/CAF. Activated Notch and its downstream effector Herp2 were found to inhibit endothelial cell (EC) migration. In contrast, BMP via upregulation of Id1 expression has been reported to promote EC migration. Interestingly, Herp2 was found to antagonize BMP receptor/Id1-induced migration by inhibiting Id1 expression. Our results support the notion that Herp2 functions as a critical switch downstream of Notch and BMP receptor signaling pathways in ECs.     

眼睛发育与骨形成蛋白信号通路的关系

在早期胚胎发育过程中,眼睛是由起源于不同胚层的几个部分经过一系列的诱导作用以及时间和空间上的相互协调作用形成的复杂而又具有精确功能的器官。在眼睛的形成发育过程中,许多信号通路及其相关的调控因子发挥着重要作用。本文主要关注眼睛发育过程与骨形成蛋白(BMP)信号通路的关系,BMP信号的激活能够诱导晶状体的再生和CLT(角膜到晶状体的分化转移)进程,维持睫状体的功能,促进视网膜的发生,影响巩膜的重塑和泪腺的发育。很多眼部疾病的发生与BMP信号通路的调节紊乱密切相关,因此可以将BMP信号通路作为一个潜在的药物靶点来探究治疗眼部疾病的方法。本文就BMP信号通路对眼睛发育的影响作一综述。     

A small-molecule cocktail promotes mammalian cardiomyocyte proliferation and heart regeneration

1. Download : Download high-res image (144KB)
2. Download : Download full-size image