Uniform straw-like cell architecture for three-dimensional cell–cell communication assay

ABSTRACT

We fabricated uniform straw-like cell architecture with central lumen using a suture thread within 1 h. The architecture consisting of cancer cells and mature adipocyte was used for cell–cell communication assay, although mature adipocyte could not form spontaneous multi-cellular spheroids. Using the system, it is possible to investigate three-dimensional cell–cell communication as an alternative to animal experiments.     

呼吸道上皮中的短暂扩充细胞——clara细胞

clara细胞为一类无纤毛、无粘液,而有着丰富分泌颗粒的呼吸道上皮细胞。clara细胞的功能为分泌蛋白、表达细胞色素氧化酶、对外源物的生物转换作用,以及作为呼吸道中的短暂扩充细胞来修复受损的呼吸道上皮。随着对干细胞、肿瘤干细胞及所处壁龛的深入研究,其在呼吸道上皮中的更新、修复及肿瘤发生中的作用也愈来愈受到重视,并为肿瘤的治疗研究带来了前景。     

Primordial germ cell-somatic cell partnership: a balancing cell signaling act

Recent studies demonstrate that the normal progression of the germ cell lineage during gonadogenesis involves a delicate balance of primordial germ cell survival and death factors generated by surrounding somatic cells. This balance operates in a different fashion in females and males. The fine tuning primordial germ cell specification in the wall of the yolk sac, migration through the hindgut and dorsal mesentery, and colonization in the urogenital ridges involves the temporal and spatial activation of the following signaling pathways: Primordial germ cell specification involves bone morphogenetic proteins 2, 4 and 8b, and their migration is facilitated by the c-kit receptor-ligand duet. When colonization occurs: (1) neuregulin-beta ligand is expressed and binds to an ErbB2-ErbB3 receptor tyrosine kinase heterodimer on primordial germ cells; (2) Vasa, an ortholog of the Drosophila gene vasa, member of an ATP-dependent RNA helicase of the DEAD (Asp-Glu-Ala-Asp)-box family protein is also expressed by primordial germ cells; (3) Bcl-x (cell survival factor) and Bax (cell death factor) join forces to modulate the first burst of primordial germ cell apoptosis; (4) Cadherins, integrins, and disintegrins bring together primordial germ cells and somatic cells to organize testis and ovary. Information on other inducers of primordial cell survival, such as TER (teratoma) factor, is beginning to emerge.     

Kinetic characterization of baculovirus-induced cell death in insect cell cultures

The death process of baculovirus-infected insect cells was divided into two phases: a constant viability (or delay) phase characterized by a delay time (t(d)) and a first-order death phase characterized by a half-life (t(1/2)). These two parameters were used in conjunction with the n-target theory to classify the kinetics of cell death under various conditions, including different multiplicity of infection (MOI), host cell lines, virus types, incubation volumes, cell density and extracellular L(+)-lactate and ammonium concentrations. Two groups of kinetic effects were found: one characterized by a constant number of hypothetical targets and the other by decreased numbers of hypothetical targets. The first group includes effects such as MOI, virus types, and host cell lines. The second includes the effects of environmental perturbations, such as incubation volume, cell density, and extracellular concentrations of L(+)-lactate and ammonium. Although the underlying mechanisms of these effects are as yet unknown, the death kinetics of infected cells significantly affects the recombinant protein production. In general, foreign protein production does not correlate with the cell life after infection (c) 1993 John Wiley & Sons, Inc.     

Effect of cell purity,cell concentration,and incubation conditions on rat testis leydig cell steroidogenesis

Summary This study examines the effects of cell purity and incubation conditions on testosterone production by rat testis Leydig cells in short-term primary culture. Both basal and luteinizing hormone (LH)-stimulated testosterone production were affected by the purity of the cell preparation, i.e. as the purity of the cell preparation was increased the amount of testosterone produced per Leydig cell was also found to increase. The stimulation ratio of testosterone production, calculated as the secretion of testosterone in the presence of LH (100 ng/ml) divided by the basal secretion of testosterone, increased with the increase in plating density (20 000 to 200 000 cells per well). This pattern of change was independent of the vessel and volume of incubation. In terms of the absolute amount of testosterone produced, increasing the plating density led to a decrease in the amount of steroid produced both basally and in response to LH. Composition of the incubation medium also had an effect on testosterone production; phenol red and sodium bicarbonate exerted negative effects. At all temperatures studied (4°, 24°, 34°, and 37° C), LH increased testosterone production and the degree of stimulation increased with temperature. We conclude that cell purity and incubation conditions markedly affect rat Leydig cell steroidogenesis in vitro. Furthermore, the manner in which the results are presented can affect their interpretation.     

自噬在细胞存活和死亡中的作用

自噬是亚细胞膜结构发生动态变化并经溶酶体介导对细胞内蛋白质和细胞器降解的过程.通过平衡细胞合成和分解代谢,自噬稳定细胞内环境,维持细胞的存活.然而,过度自噬可导致细胞发生Ⅱ型程序性细胞死亡.自噬与凋亡在细胞死亡过程中的关系十分密切.本文对自噬的过程及其在细胞存活和死亡中的作用作一综述.     

Acidic cell elongation drives cell differentiation in the Arabidopsis root

In multicellular systems, the control of cell size is fundamental in regulating the development and growth of the different organs and of the whole organism. In most systems, major changes in cell size can be observed during differentiation processes where cells change their volume to adapt their shape to their final function. How relevant changes in cell volume are in driving the differentiation program is a long‐standing fundamental question in developmental biology. In the Arabidopsis root meristem, characteristic changes in the size of the distal meristematic cells identify cells that initiated the differentiation program. Here, we show that changes in cell size are essential for the initial steps of cell differentiation and that these changes depend on the concomitant activation by the plant hormone cytokinin of the EXPAs proteins and the AHA1 and AHA2 proton pumps. These findings identify a growth module that builds on a synergy between cytokinin‐dependent pH modification and wall remodeling to drive differentiation through the mechanical control of cell walls.     

Potassium channels in cell cycle and cell proliferation

Normal cell-cycle progression is a crucial task for every multicellular organism, as it determines body size and shape, tissue renewal and senescence, and is also crucial for reproduction. On the other hand, dysregulation of the cell-cycle progression leading to uncontrolled cell proliferation is the hallmark of cancer. Therefore, it is not surprising that it is a tightly regulated process, with multifaceted and very complex control mechanisms. It is now well established that one of those mechanisms relies on ion channels, and in many cases specifically on potassium channels. Here, we summarize the possible mechanisms underlying the importance of potassium channels in cell-cycle control and briefly review some of the identified channels that illustrate the multiple ways in which this group of proteins can influence cell proliferation and modulate cell-cycle progression.     

A transitional cell carcinoma cell line

Summary A transitional cell carcinoma cell line, COLO 232, was derived from a primary urinary bladder tumor in a Caucasian male. In culture, COLO 232 retained distinct uroepithelial phenotypic traits and produced both carcinoembryonic antigen and adrenocorticotropic hormone. COLO 232 had a chromosome mode of 58 and retained the X and Y chromosomes. Ten marker chromosomes were identified. COLO 232 will be of value for biochemical and immunological studies. Presented in part at the 28th Annual Meeting of the Tissue Culture Association, June 7, 1977. This work was supported by Grant No. CA 15018 awarded by the National Cancer Institute, DHEW, and the Mary B. and L. H. Marshall Fund.     

Calcium levels during cell cycle correlate with cell fate of Dictyostelium discoideum

Levels of intracellular calcium, (Ca(2+))(i), from different stages of cell cycle of Dictyostelium discoideum were monitored using the fluorescent Ca(2+)-sensitive dye, Indo 1. Combinations of Ca(2+)-ionophore (A23187) and Ca(2+)-chelator (EGTA) resulted in the inhibition of progression of cell cycle. This delay was caused due to block in G(2)/M-->S phase transition of the cell cycle. Rescue of the cell cycle progression was made with 0.5 m m of exogenous Ca(2+). High (Ca(2+))(i)levels overlapped with the S-phase, of the cell cycle.Results indicate that a high (Ca(2+))(i)level during S-phase is not required for cell cycle progression but for cell-type choice mechanism at the onset of starvation, and these cells tend to follow the prestalk pathway.     

Stem cell mechanobiology

Stem cells are undifferentiated cells that are capable of proliferation, self‐maintenance and differentiation towards specific cell phenotypes. These processes are controlled by a variety of cues including physicochemical factors associated with the specific mechanical environment in which the cells reside. The control of stem cell biology through mechanical factors remains poorly understood and is the focus of the developing field of mechanobiology. This review provides an insight into the current knowledge of the role of mechanical forces in the induction of differentiation of stem cells. While the details associated with individual studies are complex and typically associated with the stem cell type studied and model system adopted, certain key themes emerge. First, the differentiation process affects the mechanical properties of the cells and of specific subcellular components. Secondly, that stem cells are able to detect and respond to alterations in the stiffness of their surrounding microenvironment via induction of lineage‐specific differentiation. Finally, the application of external mechanical forces to stem cells, transduced through a variety of mechanisms, can initiate and drive differentiation processes. The coalescence of these three key concepts permit the introduction of a new theory for the maintenance of stem cells and alternatively their differentiation via the concept of a stem cell ‘mechano‐niche’, defined as a specific combination of cell mechanical properties, extracellular matrix stiffness and external mechanical cues conducive to the maintenance of the stem cell population. J. Cell. Biochem. 112: 1–9, 2011. © 2010 Wiley‐Liss, Inc.     

Bacterial cell curvature through mechanical control of cell growth

The cytoskeleton is a key regulator of cell morphogenesis. Crescentin, a bacterial intermediate filament‐like protein, is required for the curved shape of Caulobacter crescentus and localizes to the inner cell curvature. Here, we show that crescentin forms a single filamentous structure that collapses into a helix when detached from the cell membrane, suggesting that it is normally maintained in a stretched configuration. Crescentin causes an elongation rate gradient around the circumference of the sidewall, creating a longitudinal cell length differential and hence curvature. Such curvature can be produced by physical force alone when cells are grown in circular microchambers. Production of crescentin in Escherichia coli is sufficient to generate cell curvature. Our data argue for a model in which physical strain borne by the crescentin structure anisotropically alters the kinetics of cell wall insertion to produce curved growth. Our study suggests that bacteria may use the cytoskeleton for mechanical control of growth to alter morphology.     

BMP signaling and stem cell regulation

Stem cells play an essential role in cellular specialization and pattern formation during embryogenesis and in tissue regeneration in adults. This is mainly due to a stem cell's ability to replenish itself (self-renewal) and, at the same time, produce differentiated progeny. Realization of these special stem cell features has changed the prospective of the field. However, regulation of stem cell self-renewal and maintenance of its potentiality require a complicated regulatory network of both extracellular cues and intrinsic programs. Understanding how signaling regulates stem cell behavior will shed light on the molecular mechanisms underlying stem cell self-renewal. In this review, we focus on comparing the progress of recent research regarding the roles of the BMP signaling pathway in different stem cell systems, including embryonic stem cells, germline stem cells, hematopoietic stem cells, and intestinal stem cells. We hope this comparison, together with a brief look at other signaling pathways, will bring a more balanced view of BMP signaling in regulation of stem cell properties, and further point to a general principle that self-renewal of stem cells may require a combination of maintenance of proliferation potential, inhibition of apoptosis, and blocking of differentiation.     

肾透明细胞癌Caki-1细胞系差异表达基因的生物信息学分析

目的比较肾透明细胞癌Caki-1细胞系与正常肾上皮细胞系ASE-5063中的差异表达基因（DEGs）,寻找潜在的肾透明细胞癌特异性分子标志物。 方法利用GEO数据库自带的GEO2R在线分析工具分析基因芯片GSE78179,将筛选出的DEGs分别导入Metascape、STRING以及Cytoscape进行综合分析并筛选出核心基因。最后使用FunRich等软件对筛选出的核心基因进行GO和KEGG富集分析。 结果共筛选出562个DEGs,其中上调基因345个,下调基因217个。进一步使用MCODE筛选出36个关键基因,GO功能分析发现这些基因与细胞粘附分子活性、趋化因子活性、细胞通讯和信号转导等密切相关;KEGG通路富集结果则表明差异基因主要集中在趋化因子信号通路、TNF信号通路以及NF-κB信号通路等多种与肿瘤相关的通路上。 结论运用生物信息学方法筛选出肾透明细胞癌Caki-1细胞系中DEGs,其中数个核心基因广泛参与多种肿瘤的病理进程,但尚未在肾透明细胞癌有相关研究报道,提示其可能是治疗肾透明细胞癌的潜在靶点。     

植物细胞的形态建成

从控制细胞形态建成的通用机制,影响形态建成的因素和形态建成的调节3个方面介绍近年来植物细胞形态建成的进展。细胞壁组分和结构的修饰改变是细胞形态建成的关键;细胞骨架的组装和活性,以及膨压的变化对于细胞的形态建成有着重要的作用。     

Direct mapping of melanoma cell ‐ endothelial cell interactions

The most life‐threatening aspect of cancer is metastasis; cancer patient mortality is mainly due to metastasis. Among all metastases, presence of brain metastasis is one with the poorest prognosis; the median survival time can be counted in months. Therefore, prevention or decreasing their incidence would be highly desired both by patients and physicians. Metastatic cells invading the brain must breach the cerebral vasculature, primarily the blood‐brain barrier. The key step in this process is the establishment of firm adhesion between the cancer cell and the cerebral endothelial layer. Using the atomic force microscope, a high‐resolution force spectrograph, our aim was to explore the connections among the cell morphology, cellular mechanics, and biological function in the process of transendothelial migration of metastatic cancer cells. By immobilization of a melanoma cell to an atomic force microscope's cantilever, intercellular adhesion was directly measured at quasi‐physiological conditions. Hereby, we present our latest results by using this melanoma‐decorated probe. Binding characteristics to a confluent layer of brain endothelial cells was directly measured by means of single‐cell force spectroscopy. Adhesion dynamics and strength were characterized, and we present data about spatial distribution of elasticity and detachment strength. These results highlight the importance of cellular mechanics in brain metastasis formation and emphasize the enormous potential toward exploration of intercellular dynamic‐related processes.     

动物细胞培养过程中的细胞自然凋亡

细胞培养过程中的细胞自然凋亡是细胞受环境压力的影响而发生的现象。随着细胞自然凋亡的分子生物学和生物化学研究的深入,对以动物细胞产品生产为目的的细胞培养产业将产生极有价值的影响。采用DNA重组技术把预防细胞自然凋亡的基因导入细胞和在培基中加入具有抗细胞自然凋亡的化合物等手段已用于预防或减缓细胞培养过程中的细胞自然凋亡。这些技术将大大延长细胞达到饱和密度后的培养时间,从而使细胞培养系统的生产效率得以显著提高。     

The contribution of cell death to medium-released fractions of cell cultures

Summary Cell death was estimated by prelabeling primary chick embryo skeletal muscle cell cultures with [³H]thymidine and by subsequently measuring the release of label into complete culture medium or serum-and embryo-extract-free medium for a 6 h period. Cultures of the established muscle cell line L6 and the fibroblastic cell line 3T3 were used for comparative purposes. Comparison of the nigrosin exclusion test with the thymidine release test shows that the former underestimates cell death because it measures only the instantaneously occurring cell death. The [³H]thymidine release test estimates the cumulative amount of cell death. From cumulative cell death estimates it is calculated that 12.0 and 17.8% of the³H-fucosylated medium-released fractions from primary cell cultures are the result of cell death contamination when release occurs in complete or macromolecule-free media, respectively. High speed centrifugation is shown to eliminate most contamination from cell death. Evidence is presented that the absence of macromolecules in the culture medium has little effect on the release process. Contamination of the released fraction resulting from cell death is much less in the established cell lines than in the primary cells. It is concluded that the release process can be studied in primary muscle cell cultures and especially in established cell lines if adequate precautions are taken and if corrections for cell death contamination are taken into account. This research benefited from use of the Cell Culture Facility supported by National Cancer Institute Grant CA 14733. This research was supported by a Muscular Dystrophy Association Grant to Dr. Heinz Herrmann and by American Cancer Society Grant RDP 8 and was submitted in partial fulfillmant of a Ph.D. degree at the University of Connecticut (T. C. Doetschman).