NOX5 variants are functionally active in endothelial cells

NADPH oxidases have been identified as sources of reactive oxygen species (ROS) in vascular cells. In addition to the initially described enzyme containing gp91phox (NOX2), several homologues to NOX2 have been identified. Whereas NOX1, NOX2, and NOX4 are expressed in endothelial cells, a functional role of NOX5 containing additional N-terminal calcium-binding domains of varying sequences has not been reported in these cells. NOX5 protein was found in the endoplasmic reticulum of human microvascular endothelial cells (HMEC-1) and in the vascular wall. HMEC-1 cells expressed NOX5beta and NOX5delta as well as a variant lacking calcium-binding domains (NOX5S). NOX5beta and NOX5S increased basal ROS levels. Ionomycin exclusively enhanced NOX5beta-mediated ROS production. Although p22phox, when overexpressed, interacted with both NOX5 proteins, it was not essential for NOX5-mediated ROS production. NOX5 proteins stimulated endothelial cell proliferation and the formation of capillary-like structures whereas depletion of NOX5 by siRNA prevented these responses to thrombin. These data show that endothelial cells express different NOX5 variants including NOX5S lacking calcium-binding domains. NOX5 proteins are functional, promoting endothelial ROS production, proliferation, and the formation of capillary-like structures and contribute to the endothelial response to thrombin. These findings suggest that NOX5 variants play a novel role in controlling ROS-dependent processes in the vasculature.     

Methods for microcarrier culture of bovine pulmonary artery endothelial cells avoiding the use of enzymes

Enzymes situated along the luminal surface of pulmonary endothelial cells interact with circulating solutes, notably with vasoactive substances, to regulate the hormonal composition of systemic arterial blood. However, it is becoming clear that the range and complexity of reactions occurring at or near the surface of endothelial cells are greater than previously recognized. In addition, evidence indicates that the quality of cell cultures used to define specific endothelial functions must be carefully controlled, together with development of improved understanding of the effects of long-term culture on pulmonary endothelial cells. We have developed new techniques for the culture of pulmonary endothelial cells which avoid exposure to proteolytic enzymes at both the isolation step and during subculture. A combination of mechanical harvest and culture on microcarrier beads has provided a system for the long-term, large-scale culture of pulmonary endothelial cells, features which to a large extent determine the scope of biochemical studies which can be undertaken.     

Effect of glucocorticoid hormones on growth of human fibroblast cells and interferon production in a microcarrier culture system

Glucocorticoid hormones promoted the growth of fibroblast cells derived from human neonatal foreskins and prolonged their life span in a microcarrier culture system that used Eagle's minimum essential medium (MEM) supplemented with fetal calf serum (FCS). But, these hormones suppressed cell growth in conventional monolayer cultures. Precolostrum newborn calf serum (PNCS) was the only species that supported the serial propagation of fibroblast cells on microcarriers, possibly because of its high content of hydrocortisone (HC). Fibroblast cells grown on microcarriers in the presence of glucocorticoid hormones maintained their ability to produce interferon (IFN)-beta in a superinduction method with poly I: poly C and antimetabolites. These cells had more than 93% diploidy and no chromosomal aberration or translocation. Use of PNCS for the cultivation of human fibroblast cells has high potential for providing a microcarrier culture system for the mass production of human IFN-beta.     

利用微载体悬浮培养人脐带间充质干细胞

随着干细胞研究的不断深入,干细胞功能分化研究和临床应用转化的需求日益提升。人脐带间充质干细胞(human umbilical cord mesenchymal stem cells, hUCMSCs)来源广泛,不仅自我更新能力强、能够分化成多种类型的成体细胞,而且其自身具有免疫调节能力,不易引发免疫排斥反应,在干细胞功能分化研究和临床应用中具有巨大应用前景和应用潜力。目前,传统的细胞培养方式培养效率低、细胞活性较差,不能满足日益增长的研究和应用需求。本研究利用微载体结合旋转瓶的悬浮培养方法,通过优化细胞接种量及转速等影响因素,快速获得大量高质量的人脐带间充质干细胞。经悬浮培养总细胞量可高达到7×10 ⁸个细胞/L,而且细胞活性较高,MSC 特异性标记物表达良好,在恢复平面培养后仍能维持MSC的正常细胞形态和增殖能力。高效脐带间充质干细胞悬浮培养体系的初步建立,为未来的干细胞功能分化研究和临床应用奠定了基础。     

Long-term culture of human endothelial cells

Human umbilical vein endothelial cells can be grown in vitro for 28 passages (CPDL 58) in Medium 199 supplemented with newborn bovine serum and a partially purified growth factor derived from bovine brain. Newborn bovine serum is superior to fetal bovine serum for the proliferation of human umbilical vein endothelial cells seeded at low density in the presence of the growth factor. The endothelial cells, which can be passaged every 7 to 10 d at a 1-to-5 split ratio, retain their morphological and biochemical characteristics. The proliferation of cells seeded at low density (10(3)/cm2) is proportional to the concentration of the growth factor present in the medium. The growth factor, which has an isoelectric point between 5.0 and 5.5, can support cell proliferation at reduced serum concentrations; half-maximal growth is achieved in medium containing the growth factor and 3% serum. The brain endothelial cell growth factor does not stimulate DNA synthesis significantly in cultures of human skin fibroblasts.     

Long-term culture of human endothelial cells

Summary Human umbilical vein endothelial cells can be grown in vitro for 28 passages (CPDL 58) in Medium 199 supplemented with newborn bovine serum and a partially purified growth factor derived from bovine brain. Newborn bovine serum is superior to fetal bovine serum for the proliferation of human umbilical vein endothelial cells seeded at low density in the presence of the growth factor. The endothelial cells, which can be passaged every 7 to 10 d at a 1-to-5 split ratio, retain their morphological and biochemical characteristics. The proliferation of cells seeded at low density (10³/cm²) is proportional to the concentration of the growth factor present in the medium. The growth factor, which has an isoelectric point between 5.0 and 5.5, can support cell proliferation at reduced serum concentrations; half-maximal growth is achieved in medium containing the growth factor and 3% serum. The brain endothelial cell growth factor does not stimulate DNA synthesis significantly in cultures of human skin fibroblasts. This research was supported by grants from the U.S. Public Health Service (AG 01732, HL 16387, and HL 07080), the Cystic Fibrosis Foundation, and the New York and American Heart Associations. Victor B. Hatcher is an Established Fellow of the New York Heart Association and a recipient of the Ann Weinberg Cystic Fibrosis Research Scholarship Award.     

Establishment of a long-term culture system for rat colon epithelial cells

Summary The aim of this study was to establish a long-term culture system for rat colon epithelial cells. Colonic crypts were isolated by incubating a 4-cm-long rat colon segment cut longitudinally with an ethylenediaminetetraacetic acid [disodium salts]-containing buffer, taken up in conditioned medium from the normal rat kidney fibroblast cell line NRK (i.e., the supernatant of pure NRK cultures), directly plated on mitomycin C-treated NRK cells and subcultured with conditioned medium from NRK cells. Cells started to migrate out of the crypts shortly after plating them on NRK feeder layers. Some of the crypts fell apart during the isolation procedure, whereas the vast majority of them did it within 1 to 2 h after plating. The cells proliferated extremely slowly but continuously over a period of 4 mo and were epithelial because they expressed cytokeratin 19 and were stained by crystal violet at pH 2.8. In conclusion, the experimental system described in this study allows to maintain rat colon epithelial cells for up to 4 mo in culture and can be used to study the effects of a variety of tumor-modulating factors on growth and gene expression of normal colon epithelial cells in vitro.     

Optimization of culture conditions for human corneal endothelial cells

Summary Long-term cultivation of human corneal endothelial cells (HCEC) was optimized with respect to different components of the culture system: 25 different nutrient media, different sera, 6 mitogens and various substrates were tested in their ability to influence clonal growth and morphology of HCEC. F99, a 1∶1 mixture of the two media M199 and Ham’s F12, was the most effective basal medium in promoting clonal growth of HCEC. Among various sera, human serum and fetal bovine serum showed optimal growth promoting activities in combination with F99, whereas newborn bovine serum (NBS) was by far superior for the development of a typically corneal endothelial morphology. Crude fibroblast growth factor (FGF), or alternatively endothelial cell growth supplement, was absolutely essential for clonal growth of HCEC at low serum concentrations, for example 5% NBS. Formation of a monolayer with a morphology similar to corneal endothelium in vivo was observed only on culture dishes coated with basal membrane components such as collagen type IV, laminin, or fibronectin. The most pronounced effect on morphologic appearance was obtained by culturing the cells on the extracellular matrix (ECM) produced by bovine corneal endothelial cells. Moreover, ECM could substitute for crude FGF in clonal growth assays.     

Perfusion culture using microcarrier for the production of Varicella-Zoster virus in human embryonic lung cells

Perfusion culture with microcarriers was conducted to produce cell-associated and cell-free Varicella-Zoster virus (VZV) with human embryonic lung cells. After the cells were infected with VZV infected cells, glucose in the medium decreased rapidly, suggesting that VZV propagation was related closely to the use of glucose. While the yield of cell-associated VZV in microcarriers was 9,350 PFU/cm2, almost two-thirds of that in T-80 flask and cell factory, the yield of cell-free VZV in microcarriers was only about 10% of that in T-80 flask and cell factory.     

Bead-to-bead transfer of Vero cells in microcarrier culture

Cell harvesting technique is of considerable importance in the scale-up of microcarrier culture of anchorage-dependent cells. The traditional methods are often time- and labor-consuming and cause physiological damage to the cells. Bead-to-bead cell transfer provides an attractive solution to the scale up process. By intermittent agitation, successful cell transfer was achieved. Significant cell growth was observed where bare beads contacted with confluent ones. Most of the fresh microcarriers reached near confluence four days after addition into the culture medium.     

Bead-to-bead transfer of Vero cells in microcarrier culture

Cell harvesting technique is of considerable importance in the scale-up of microcarrier cultures of anchorage-dependent cells. The traditional methods are often time- and labor-consuming and cause physiological damage to the cells. Bead-to-bead cell transfer provides an attractive solution to the scale up process. By intermittent agitation, successful cell transfer was achieved. Significant cell growth was observed where bare beads contacted with confluent ones. Most of the fresh microcarriers reached near confluence four days after addition into the culture medium. This revised version was published online in July 2006 with corrections to the Cover Date.     

Long-term serial cultivation and growth requirements for human umbilical vein endothelial cells

Summary Human umbilical vein endothelial cells (HUV-EC) grew rapidly in vitro in medium supplemented with epidermal growth factor, fetal bovine serum (FBS) and human diploid fibroblast-conditioned medium. The effect of FBS could be replaced partially by bovine serum albumin, cholesterol, and vitamin E, and completely by further addition of serum dialysate or refeeding every other day. Among these components, fibroblast-conditioned medium is essential for HUV-EC growth. The HUV-EC were cultured serially for over 50 population doublings in the 10% FBS containing fibroblast-conditioned medium and for over 40 population doublings in the serum-free medium. Mitogenic factor(s) present in the medium conditioned by fibroblasts may be related to endothelial cell growth factor and play an important role angiogenesis and regeneration of vascular endothelium in vitro.     

An efficient expression system for the production of functionally active human LKB1

Human LKB1, also known as STK11, is a tumour-suppression protein that mediates important functions in cellular proliferation and polarization. It might constitute an important target in cancer therapy. In order to produce large amounts of recombinant protein for biochemical and functional studies, a full-length cDNA clone was subcloned and expressed in Escherichia coli and insect cells. Although fusion proteins corresponding to LKB1 with 6xHis, GST and MBP tags could be overexpressed in E. coli, only MBP-LKB1 was recovered in a soluble, but heavily degraded form. Further studies demonstrated that this protein was not functional. Subsequent expression in insect cells of LKB1 with 6xHis and GST tags yielded insoluble products also. However, when chaperones Hsp70 and its cofactors Hsp40 and Hsdj were co-expressed with GST-LKB1, a clear increase in the solubility of the final protein was obtained. Moreover, this soluble, purified recombinant GST-LKB1 demonstrated to be a phosphoprotein, with at least residue Ser325 phosphorylated. The purified protein was functionally active as being able to demonstrate autophosphorylation in the absence of any associated kinase.     

Primary suspension culture of calf anterior pituitary cells on a microcarrier surface

In order to achieve a steady-state primary culture system for mammalian cells, with the potential to eventually correlate and control cell function and growth, a serious evaluation of various suspension systems was made. Calf anterior pituitary cells were employed as a differentiated cell type and successfully cultivated in a microcarrier suspension culture system. DEAE-Sephadex was demonstrated to be a satisfactory type of microcarrier. The cells readily attached to the bead and, after a short lag period, they actively proliferated on the bead surface to yield growth of a predominantly epithelial cell type. Under specific conditions the microcarrier supported primary cell growth up to levels of 2 × 10⁶ cells per ml. High bead concentrations inhibited cell growth. The inhibition could be overcome by using proportionately higher cell inoculum so that a concentrated culture with 5 × 10⁶ cells per ml was achieved. The inhibitory effect of high bead concentration was found to be due to the absorption of serum protein and certain growth enhancing factors. The fact that the growth enhancing factors were released from cells during the period of trypsinization and were both thermostable and nondialyzable, seems to suggest one approach to a dialysis culture system. In addition, relatively trauma-free primary cell cultures can be achieved by using explant culture without prior trypsinization. In microcarrier suspensions direct growth of primary rat mammary tumor cells was also demonstrated.     

Segregated mathematical model for growth of anchorage-dependent MDCK cells in microcarrier culture

To describe the growth behavior of anchorage-dependent mammalian cells in microcarrier systems, various approaches comprising deterministic and stochastic single cell models as well as automaton-based models have been presented in the past. The growth restriction of these often contact-inhibited cells by spatial effects is described at levels with different complexity but for the most part not taking into account their metabolic background. Compared to suspension cell lines these cells have a comparatively long lag phase required for attachment and start of proliferation on the microcarrier. After an initial phase of exponential growth only a moderate specific growth rate is achieved due to restrictions in space available for cell growth, limiting medium components, and accumulation of growth inhibitors. Here, a basic deterministic unstructured segregated cell model for growth of Madin Darby Canine Kidney (MDCK) cells used in influenza vaccine production is described. Four classes of cells are considered: cells on microcarriers, cells in suspension, dead cells, and lysed cells. Based on experimental data, cell attachment and detachment is taken explicitly into account. The model allows simulation of the overall growth behavior in microcarrier culture, including the lag phase. In addition, it describes the time course of uptake and release of key metabolites and the identification of parameters relevant for the design and optimization of vaccine manufacturing processes.     

High density microcarrier culture with a new device which allows oxygenation and perfusion of microcarrier cultures

A novel system useful for aeration and cell retention in continuous perfused microcarrier cultures is described. The system is based on a vibrating cage that separates cells and microcarriers from the oxygenation chamber and allows gas bubble free oxygen transfer. In the cultivation of monkey kidney cells (VERO) on gelatin coated microcarriers, using different concentrations (5, 10 and 15 g Cytodex 3/liter) cell densities up to 10⁷ cells per ml were obtained. The described system is scaleable.     

应用生物反应器培养Vero细胞制备EV71病毒初探

目的应用生物反应器培养Vero细胞制备EV71病毒。方法以3 L生物反应器采用4 g/L、8 g/L Cytodex-1微载体培养比较Vero细胞比生长率,并以4 g/L微载体培养EV71病毒。结果 4 g/L微载体培养Vero细胞3～4 d微载体细胞密度达2.3×106/mL,按0.001的感染复数(MOI)接种EV71病毒,病毒收获液的滴度最高达7.90 lgPFU/mL,较静置培养平均高出0.92 lgPFU/mL。结论初步建立了3 L生物反应器微载体培养Vero细胞制备EV71病毒的工艺,为进一步放大生产规模奠定了基础。