盘基网柄菌细胞分化和凋亡的形态特征

本文用透射电镜和DAPI荧光染色法研究了盘基网柄菌(Dictyosteliumdiscoideum)细胞分化和柄细胞的凋亡特征,结果显示:细胞丘中绝大部分细胞的线粒体内出现一小空泡,随着发育进程,空泡逐渐增大,线粒体的嵴随之变少,直至线粒体完全空泡化,最后形成单层膜的空泡。据此我们推测前孢子细胞特有的空泡来源于线粒体,并且这种细胞器水平上的内自噬现象与前孢子细胞分化密切相关。在前柄细胞分化阶段,前柄细胞中出现数个自噬泡,最初吞噬的线粒体嵴结构完整;随着前柄细胞进一步分化,部分线粒体内出现类似于前孢子细胞中的内自噬现象,并且自噬泡只吞噬这种线粒体。在凋亡后期,细胞核内核仁消失,染色体固缩形成高电子密度斑块,自噬泡采用与细胞核膜融合的方式来完成核的清除,最后柄细胞完全空泡化且包被一层纤维素壁。作者认为前柄细胞凋亡过程实质上是一种分化过程,所以有其鲜明特点:细胞出现自噬泡,标志着凋亡开始,用自噬而不是凋亡小体来清除胞内各种细胞器,直到分化最后阶段才清除细胞核和形成纤维素壁。这些特点不仅是前柄细胞凋亡的形态学指标,也和细胞发育和分化相关。     

细胞色素c在盘基网柄菌细胞凋亡中的作用

细胞色素c在细胞凋亡中发挥着重要的作用,其作用机理在高等真核生物及低等真核生物酵母中已经比较清楚,但在盘基网柄菌(Dictyostelium discoideum)中的作用却没有相关报道.所以我们用western blot和实时荧光定量PCR的方法分别测定了盘基网柄菌前柄细胞和前孢子细胞中细胞色素c的含量及表达量的变化...     

盘基网柄菌细胞分化及细胞比例的调控

本文综述了盘基网柄菌(Dictyosteliumdiscoideum)发育过程中调控细胞分化及细胞比例的一些信号分子,包括分化诱导因子(DIF-1、SDF-2)、糖原合成酶激酶(GSK-3)、环状亮氨酸拉链蛋白(rZIP)等,介绍了这些信号分子的功能及其作用机制。     

盘基网柄菌发育中的细胞粘附分子及其信号转导

在盘基网柄菌发育早期,DdCAD-1和csA调节了变形虫细胞间的粘着,调控该过程的机制类似于胚胎发育中上皮细胞层的闭合。完成网柄菌发育的一个必需分子是gpl50异嗜性粘附分子。盘基网柄菌β-连环蛋白同源物Aardvark(Aar)的缺乏使细胞间失去粘着连接,Aar也有信号转导功能,调控了前孢子细胞基因的表达。因此,细胞间的粘着是盘基网柄菌发育的一个重要组成部分,并与调控形态发生过程的信号转导有密切相互作用关系。     

盘基网柄菌细胞的粘附分子

盘基网柄菌（Dictyostelium discoideum)依赖4种类型细胞粘附系统的表达使其多细胞发育顺利进行。在发育初期,由钙结合蛋白DdCAD-1调节EDTA／EGTA敏感的粘着位点。在发育的多细胞聚集阶段,出现EDTA抗性的粘着位点,由分子是80kD蛋白（gp80)通过同嗜性粘着的相互作用末调节细胞的粘着,它的细胞结合位点是一个八肽序列。由分子量150kD蛋白（gp150)通过异嗜性粘着的相互作用来调节多细胞后聚集的细胞粘着。本文详细讨论了gp80和gp150调节细胞粘着的机制。     

盘基网柄菌细胞发育过程中尿囊酸酶的亚细胞定位

利用胶体金免疫电镜技术,观察了盘基网柄菌细胞分化与凋亡过程中胞内尿囊酸酶的位置变化。结果表明,在细胞聚集期细胞产生的尿囊酸酶主要分布于线粒体及周围细胞质内。到了细胞丘时期,尿囊酸酶只特异地存在于发生内自噬的线粒体内,且仅局限于线粒体因内自噬产生的空泡区域,这些发生线粒体内自噬的细胞将分化成前孢子细胞。随着前孢子细胞分化的进行,尿囊酸酶颗粒在细胞内分布逐渐减少,在靠近质膜处的空泡内还能观察到一些酶颗粒;而另一些细胞内,几乎所有的胞器内都能观察到酶颗粒,一直延续至柄细胞形成。从中可以看到尿囊酸酶在将发育成孢子细胞和柄细胞两种类型细胞内的分布位置明显不同,结果提示了尿囊酸酶蛋白与盘基网柄菌细胞分化和凋亡调控途径有密切关系。     

盘基网柄菌野生型KAx-3发育过程中自发荧光的观察

社会性变形虫盘基网柄菌(Dictyostelium discoideum)是研究发育和致病机理的重要模式生物之一.发育过程中自发荧光的研究有利于流式细胞仪检测时确定基础荧光阈值、细胞分选和判定荧光标记实验的准确性.本文用荧光显微镜对盘基网柄菌野生型KAx-3不同发育阶段在4种不同波长的激发光(蓝光、绿光、黄光和紫外线)...     

gp150蛋白在盘基网柄菌发育中的作用及粘附分子间关系的分析

饥饿的盘基网柄菌进入多细胞发育期 ,在发育早期 ,AK12 7细胞 (gp150突变细胞 )能表达DdCAD 1和 gp80两种粘附分子 ,但它们不足以促进细胞继续发育 ,发育停留在细胞疏松结合阶段。粘附分子 gp150调节的细胞与细胞间的粘着影响了细胞丘“突出”的形成 ,由此影响了盘基网柄菌多细胞发育的形态发生。TL93细胞 (DdCAD 1和gp80突变细胞 )能完成发育。主要原因是在细胞流发育阶段就表达了gp150分子 ,在细胞粘着的功能上有替代DdCAD 1和 gp80的作用。因此 gp150蛋白对盘基网柄菌多细胞发育有着不可或缺的作用     

盘基网柄菌DdLIS1蛋白生物信息学分析

LIS1蛋白是一种与人类无脑回疾病以及细胞癌变相关的重要蛋白。对盘基网柄菌DdLIS1进行生物信息学分析,探究盘基网柄菌能否作为研究人类无脑回疾病及细胞癌变机制的模型。现从NCBI中的Genank找到盘基网柄菌DdLIS1的氨基酸序列,随后进行blastp找到模式生物中相似序列,利用理化性分析网站ProtScale、ProtParam分析DdLIS1的理化性质,通过NCBI中的保守结构域库(CDD)分析DdLIS1的保守结构域,使用MEGA6.0并选用邻位连接法构建系统进化树,分别使用PredictProtein、SWISS-MODEL网站预测Dd LIS1蛋白的二级结构、三维结构。结果得出DdLIS1蛋白全长为419,属于亲水性蛋白,有7个保守结构域,属于WD40家族,与人类和小鼠的氨基酸序列相似性为72%。二级结构中β折叠所占比例最高,为49.40%,α螺旋、随机卷曲分别占该蛋白7.16%、43.44%,与三级结构一致。以上结果说明DdLIS1与LIS1高度相似,有助于盘基网柄菌能够作为研究人类无脑回疾病以及细胞癌变机制的模型。     

盘基网柄菌中分化诱导因子信号与细胞命运决定

对盘基网柄菌发育过程中分化诱导因子(DIF)的作用及其机制进行了综述,包括DIF对盘基网柄菌前柄细胞、柄细胞分化的作用以及DIF的生物合成、DIF的诱导、降解失活、DIF对细胞命运和细胞比例的调节及其作用机制等。     

Continuous requirement of cAMP for pre-spore differentiation in Dictyostelium discoideum

Abstract Using a shaking culture system, we have previously shown that both cell contact and cAMP are required for pre-spore differentiation in Dictyostelium discoideum [2]. In the present study, cAMP was removed from the medium by the use of a hydrolysing enzyme after cells had formed agglomerates. This treatment left the agglomerates unchanged, but caused a rapid decrease in the activity of UDP galactose transferase, a pre-spore-specific enzyme. This result indicates that cAMP is required even after agglomerate formation to maintain pre-spore differentiation.     

Inhibition of multicellular development switches cell death of Dictyostelium discoideum towards mammalian-like unicellular apoptosis

The multicellular development of the single celled eukaryote Dictyostelium discoideum is induced by starvation and consists of initial aggregation of the isolated amoebae, followed by their differentiation into viable spores and dead stalk cells. These stalk cells retain their structural integrity inside a stalk tube that support the spores in the fruiting body. Terminal differentiation into stalk cells has been shown to share several features with programmed cell death (Cornillon et al. (1994), J. Cell Sci. 107, 2691-2704). Here we report that, in the absence of aggregation and differentiation, D. discoideum can undergo another form of programmed cell death that closely resembles apoptosis of most mammalian cells, involves loss of mitochondrial transmembrane potential, phosphatidylserine surface exposure, and engulfment of dying cells by neighboring D. discoideum cells. This death has been studied by various techniques (light microscopy and scanning or transmission electron microscopy, flow cytometry, DNA electrophoresis), in two different conditions inhibiting D. discoideum multicellular development. The first one, corresponding to an induced unicellular cell death, was obtained by starving the cells in a "conditioned" cell-free buffer, prepared by previous starvation of another D. discoideum cell population in potassium phosphate buffer (pH 6.8). The second one, corresponding to death of D. discoideum after axenic growth in suspension, was obtained by keeping stationary cells in their culture medium. In both cases of these unicellular-specific cell deaths, microscopy revealed morphological features known as hallmarks of apoptosis for higher eukaryotic cells and apoptosis was further corroborated by flow cytometry. The occurrence in D. discoideum of programmed cell death with two different phenotypes, depending on its multicellular or unicellular status, is further discussed.     

Induction of Cell Differentiation of Isolated Cells in Dictyostelium discoideum by Low Extracellular pH

In Dictyostelium discoideum , the formation of multicellular masses is necessary for cell differentiation. However, the present study shows that amoebae of strain V12M2 efficiently differentiate to prespore or stalk cells under submerged incubation in a simple medium containing cAMP and salts without cell contact, only if the pH of the medium is maintained at acidic values; differentiation scarcely occurs in the neutral pH range. The optimum pH values for prespore and stalk cell differentiation are 5.1 and 4.5, respectively. In addition to the extracellular pH, Mg ions and the concentration of cAMP also affect the choice of the differentiation pathway. The time courses of differentiation of both cell types under optimum conditions are also presented.     

Staurosporine induces tyrosine phosphorylation in Dictyostelium discoideum proteins

The treatment of cells with staurosporine results in inhibition and less frequently activation of protein kinases, in a cell-type specific manner. In the social amoeba Dictyostelium discoideum, staurosporine induces marked changes in cell morphology affecting growth and development. Here we describe that incubation of D. discoideum growing or starved cells with staurosporine results in a rapid and unexpected tyrosine phosphorylation on two polypeptides of approximately 64 and approximately 62 kDa. These proteins emerge as novel substrates for tyrosine phosphorylation opening up new perspectives for the study of cell signalling in D. discoideum.     

Inhibitors of intracellular cyclic AMP accumulation affect differentiation of sporogenous mutants of Dictyostelium discoideum

Abstract Sporogenous mutants of Dictyostelium discoideum strain V12M2 were used to determine whether the intracellular levels of cyclic AMP or other second messengers regulate differentiation. Increasing external concentrations of cyclic AMP promoted spore formation. Caffeine and progesterone, which lower intracellular cyclic AMP levels by different mechanisms, blocked spore formation and favored stalk cell formation. In contrast, differentiation of both spore and stalk cells occurred normally in the presence of agents that disrupt calcium/calmodulin or protein kinase C-based second messenger systems. The data are in accord with the view that (1) intracellular cyclic AMP is essential for terminal differentiation of both cell types, and (2) higher levels are required for formation of spores than for stalk cells.     

Putative morphogen, DIF, of Dictyostelium discoideum induces apoptosis in rat pancreatic AR42J cells

We have recently shown that differentiation-inducing factor-1 (DIF-1) of Dictyostelium discoideum is capable of raising intracellular calcium concentration ([Ca²⁺]_i) and suppressing cell proliferation of rat pancreatic AR42J cells in a dose-dependent manner, and that DIF-1 at a concentration of 40 μmol/L is toxic to the cells. In this study, we have further characterized the cytotoxic effect of DIF-1 on AR42J cells and have analyzed the effect of DIF-1 on [Ca²⁺]_i. In the presence of 40 μmol/L DIF-1, cells began to bleb after approximately 6 h, and most had died within 48 h. Biochemical analysis revealed that DNA fragmentation was accompanied by cell death. Monitoring the changes in [Ca²⁺]_i induced by DIF-1, it was found that cells were able to adapt to stimulation with DIF-1 so that they did not respond to subsequent stimulation by DIF-1. These results indicate that DIF-1 induced apoptosis in AR42J cells probably via a cell signaling system.     

聚氨酯泡沫半固定化培养盘基网柄菌

研究了聚氨酯泡沫应用于固定化盘基网柄菌的可行性,发现以简单处理过的聚氨酯泡沫为载体,能够高效实现盘基网柄菌的固定化培养。考察了载体粒径大小、载体量和摇床转速等对固定化培养的影响,在优化的培养条件和固定化条件下,盘基网柄菌的最大细胞密度是悬浮培养的2~4倍。