Glycosylation of serum ribonuclease 1 indicates a major endothelial origin and reveals an increase in core fucosylation in pancreatic cancer

Human pancreatic ribonuclease 1 (RNase 1) is a glycoprotein expressed mainly by the pancreas and also found in endothelial cells. The diagnosis of pancreatic cancer (PaC) remains difficult and therefore the search for sensitive and specific markers is required. Previous studies showed that RNase 1 from human healthy pancreas contained only neutral glycans, whereas RNase 1 from PaC cell lines contained sialylated structures. To determine whether these glycan tumor cell-associated changes were also characteristic of serum RNase 1 and could be used as a marker of PaC, we have analyzed the glycosylation of serum RNase 1. The origin of serum RNase 1 was also investigated. Serum RNase 1 from two PaC patients and two controls was purified and the glycans analyzed by high-performance liquid chromatography (HPLC)-based sequencing and mass spectrometry. Although normal and tumor serum RNase 1 contained the same glycan structures, there was an increase of 40% in core fucosylation in the main sialylated biantennary glycans in the PaC serum RNase 1. This change in proportion would be indicative of a subset of tumor-associated glycoforms of RNase 1, which may provide a biomarker for PaC. Two-dimensional electrophoresis of the RNase 1 from several endothelial cell lines, EA.hy926, human umbilical vein endothelial cells (HUVEC), human mammary microvessel endothelial cells (HuMMEC), and human lung microvessel endothelial cells (HuLEC), showed basically the same pattern and was also very similar to that of serum RNase 1. RNase 1 from EA.hy926 was then purified and presented a glycosylation profile very similar to that from serum RNase 1, suggesting that endothelial cells are the main source of this enzyme.     

Establishment and characterization of a novel in vitro angiogenesis model using a microvascular endothelial cell line, F-2C, cultured in chemically defined medium

Summary The behavior of vascular endothelial cells (EC) is an important factor in the processes involved in angiogenesis, but the regulatory mechanisms of angiogenesis, especially underlying the tubulogenesis by EC are not yet clear. Although a number of in vitro experimental models of tubulogenesis have been developed by use of cultured EC, most of those models are too complex to be easily handled and further, the culture media are usually supplemented with serum, creating problems in interpretation of experimental results. To generate a simple in vitro angiogenesis study model under serum-free culture conditions, we adapted a murine microvascular endothelial cell line, F-2, to a chemically defined medium, Cos Medium 001, and successfully established a subline of F-2, designated F-2C, which revealed a unique growth pattern. In Cos Medium 001, F-2C proliferates in a cobblestone pattern at an early growth stage, but, at a late growth stage, spontaneously differentiates to form three-dimensional honeycomblike tubular structures without the supplementation of any specific factors. The cell aggregation activity of F-2C in the presence of Ca²⁺ was much greater than that of F-2. The amount of subendothelial matrix deposited by F-2C was significantly higher than that by F-2, and increased prominently after the F-2C cells reached the differentiating stage of tubulogenesis. These findings indicate that F-2C is a new EC line in which tubulogenesis is spontaneously induced by the marked deposition of basement membrane analog to the subendothelial matrix and by the enhancement of presumable cadherin activity. We suggest that this cell line, F-2C, represents a simple and useful in vitro angiogenesis model.     

无血清培养昆虫细胞(BTI-Tn-5B1-4)的适应过程

昆虫细胞培养是近年来迅速发展起来的动物细胞培养工程中的一个新领域。人们可以利用杆状病毒在昆虫细胞内的感染、复制,来大量生产昆虫病毒作为生物杀虫剂[1]。而昆虫细胞杆状病毒表达载体系统的建立,则可通过昆虫细胞的体外培养大量表达病毒携带的外源基因。实践证明,这…     

3,4-dihydroxy-L-phenylalanine as a cell adhesion molecule in serum-free cell culture

In this article, we examined the feasibility of using 3,4‐dihydroxy‐L ‐phenylalanine (DOPA) as a cell adhesion molecule in serum‐free cultures of anchorage‐dependent mammalian cells. DOPA is a critical, functional element in mussel adhesive proteins and is known to bind strongly to various natural or synthetic materials. DOPA coating on culture plates was confirmed using X‐ray photoelectron spectroscopy and energy‐dispersive spectroscopy. Human dermal fibroblasts (HDFs) were cultured on DOPA‐coated, fibronectin‐coated, or no material‐coated culture plates in serum‐free medium. HDFs cultured on DOPA showed the highest cell adhesion ratio, spreading, and viability but the lowest apoptotic activity. Therefore, DOPA may be a useful cell‐adhesion molecule for serum‐free culture. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 28: 1055–1060, 2012     

Growth and differentiation of epidermal cells from the rainbow trout established as explants and maintained in various media

Growth and a number of differentiated characteristics of cultured epidermal cells from the rainbow trout Oncorhynchus mykiss were compared using two commercially available serum–free media, a dermal substrate/serum free kit and a serum–containing medium which had been previously optimized for epidermal cell culture. Each medium supported short term growth over 15 days. Only the medium supplied for dermal substrate culture supported longer growth periods. This medium was supplied for use with a collagen/stromal substrate but gave good cultures even without the substrate. Differentiation, measured by examining mucous cells, cytokeratins, epidermal growth factor receptor, gap junction status and ultrastructure showed that serum–free media gave quantitatively and qualitatively superior expression and short term retention of differentiation over serum–containing medium. Epithelial cell growth with expression of differentiated characteristics can be maintained in primary culture in serum–free medium for at least as long as in serum–containing medium. This provides a useful technique for use when serum presence in medium is undesirable or proves toxic to the specialized cell type under investigation.     

用无血清培养基在填充床生物反应器生产 rHuEPO

在填充床生物反应器用含５％ＦＢＳ的ＤＭＥＭ：Ｆ１２培养基培养产重组人促红细胞生成素（ｒＨｕＥＰＯ）的细胞Ｃ_２８～１０ｄ后,使用自制的无血清生产培养基（ＳＦＭｐ）生产ｒＨｕＥＰＯ。ＳＦＭｐ培养基既能维持细胞生长,又能生产ＥＰＯ,也便于纯化分离ｒＨｕＥＰＯ。使用填充床生物反应器培养细胞,能维持培养２０～２５ｄ,ｒＨｕＥＰＯ表达水平达１２～２８.４ｍｇ／Ｌ之间,反应器的产率达到７１.０ｍｇ／Ｌ／ｄ,比滚瓶的产率增加１２～１４倍。葡萄糖最高消耗量达到２１ｇ／Ｌ／ｄ,细胞培养密度最高达到３.０×１０^７／ｍｌ以上,每次可收无血清培养上清８０～８７Ｌ。由于细胞被固定在聚酯片上,培养上清中脱落细胞很少。观察了反应器的乳酸和氨的含量,其结果表明乳酸和氨含量分别低于３.５ｇ／Ｌ和５ｍｍｏｌ／Ｌ,不影响产物的表达。经过多批培养和生长ｒＨｕＥＰＯ的结果表明,自行配制的ＳＦＭｐ培养基在该反应器能有效地维持细胞生长和生产ｒＨｕＥＰＯ。     

无血清培养HAb18细胞的生长代谢与抗体分泌特征

通过逐步降低血清浓度,HPLC氨基酸分析及正交实验筛选研制了HAb18杂交瘤细胞的无血清培养基。对在该无血清培养条件下的细胞进行了计数,对培养上清液进行了葡萄糖、谷氨酰胺、乳酸和氨浓度以及抗体分泌量和抗原结合活性测定,并对动力学参数进行了分析,结果表明HAb18细胞在无血清培养条件下达到的最大细胞密度和抗体分泌量分别为0.91×106个/ml和43.8mg/L;细胞比生长速率较在有血清条件下稍有下降,而抗体合成速率提高(0.0207/h比0.0218/h,0.387pg/cell/h比0.218pg/cell/h,P<0.01)。无血清培养时葡萄糖和谷氨酰胺消耗无明显变化,但乳酸浓度降低,氨浓度升高;此外,分泌抗体的抗原结合活性增加。研究无血清培养条件下的HAb18细胞生长代谢和抗体分泌特征可为建立HAb18无血清悬浮流加培养工艺打下基础。     

rhCNTF对鸡胚感觉与运动神经元神经营养作用的比较

在无血清培养条件下,观察了重组人睫状营养因子（ｒｈＣＮＴＦ）对鸡胚背根节感觉神经元及腹角运动神经元的营养作用。结果表明ｒｈＣＮＴＦ对这两类神经元均有明显的促存活作用,并呈一定的剂量／效应关系。ｒｈＣＮＴＦ浓度在０．５ｎｇ／ｍｌ以下时无作用,１．０－１．５ｎｇ／ｍｌ时已有促神经元存活作用,４ｎｇ／ｍｌ时作用最明显,再增加到１００ｎｇ／ｍｌ神经元存活数无进一步增加。比较培养７天时两类神经元存活数发现感觉神经元对ＣＮＴＦ缺乏的敏感性高于运动神经元,提示ＣＮＴＦ对运动神经元的促存活作用只是它多种类型神经元营养作用中较弱的一环     

Accumulation of cytoplasmic lipid droplets in bovine embryos and cryotolerance of embryos developed in different culture systems using serum-free or serum-containing media.

In this study, the quantitative fluctuation of cytoplasmic lipid droplets (LD) and cryotolerance were investigated in bovine embryos derived from in vitro-matured (IVM) and in vitro-fertilized (IVF) oocytes developed in different culture systems using serum-free or serum-containing media. The serum-free cultures were grown using IVMD101 medium in conjunction with bovine cumulus/granulosa cell (BCGC) cocultures or IVD101 medium without BCGC cocultures, and the serum-containing cultures were grown in the presence of BCGC cocultures using HPM199 medium supplemented with 5% calf serum (HPM199 + CS). Large numbers of sudanophilic LD were present in the cytoplasm of bovine embryos from 2-cell to hatched blastocyst stages, and the number and size differed between the embryos cultured in serum-free and serum-supplemented media. In the embryos cultured in HPM199 + CS, large (2-6 microm in diameter) sudanophilic LD increased significantly from the morula to the blastocyst stages. Throughout the embryonic development, the embryos developed in serum-free cultures with and without BCGC cocultures had numerous sudanophilic LD, but most of these droplets were small (<2 microm in diameter) and large LD were less numerous than those embryos cultured in HPM199 + CS. Giant LD (>6 microm in diameter) were frequently observed in morulae and blastocysts (including early blastocysts) developed in HPM199 + CS. Electron microscopic observations demonstrated that large LD were abundant in the cytoplasm of trophoblast and embryonic (inner cell mass) cells of blastocysts cultured in HPM199 + CS. These large LD were identified as osmophilic LD, an indication that these lipid inclusions contained a significant proportion of unsaturated lipids. Many elongated mitochondria were found in embryos developed in IVMD101 and IVD101 at the morula and early blastocyst stages, whereas many of the mitochondria in the morulae developed in HPM199 + CS were of an immature form such as spherical or ovoid shape. The survival and hatching rates of embryos (morulae, early blastocysts, and blastocysts) produced in serum-free media (both IVMD101 and IVD101) after post-thaw culture were superior to those of embryos produced in serum-containing medium. These results showed that bovine embryos cultured in serum-containing medium abnormally accumulated cytoplasmic lipids into their cytoplasm and the excess accumulation of cytoplasmic LD in embryos may affect the cryotolerance of embryos.     

Harvesting and concentration of human influenza A virus produced in serum-free mammalian cell culture for the production of vaccines

A process scheme for the harvesting and concentration of cell culture-derived human influenza A virus is presented. The scheme comprises two static filtration steps, chemical inactivation by beta-propiolactone and cross-flow ultrafiltration. Human influenza A virus A/PR/8/34 (H1N1) was produced in roller bottles with serum-free medium using MDCK cells as a host. Cultivations resulted in specific hemagglutination (HA) activities of 393 HAU (100 microL)(-1) and turbidities of 0.479 OD measured as the extinction of light at 700 nm (mean values are presented). The concentrations of soluble protein and DNA in the harvests were 72 microg/mL and 5.73 microg/mL, respectively. An average product yield of 79% based on HA activity was achieved after clarification by depth (85%) and microfiltration (93%). The turbidities of cell culture supernatants were reduced to 2% of their initial value. Concentration with 750 kDa hollow-fiber modules by a factor of 20 resulted in 97% recovery of the product when operated at a constant flux of 28 L/(m(2) h) and a wall shear rate of 9,500 s(-1). The amount of protein and DNA could be reduced to 16% and 33% of their initial amount, respectively. An overall product yield of 77% was achieved. Clarified supernatants and concentrates were further analyzed by non-reducing SDS-PAGE and agarose gel electrophoresis. Particle volume distributions of concentrates were obtained by dynamic light scattering analysis. From the results it can be concluded that the suggested process scheme is well suited for the harvesting and concentration of cell culture-derived influenza A virus.     

Serum‐free spheroid suspension culture maintains mesenchymal stem cell proliferation and differentiation potential

There have been many clinical trials recently using ex vivo‐expanded human mesenchymal stem cells (MSCs) to treat several disease states such as graft‐versus‐host disease, acute myocardial infarction, Crohn's disease, and multiple sclerosis. The use of MSCs for therapy is expected to become more prevalent as clinical progress is demonstrated. However, the conventional 2‐dimensional (2D) culture of MSCs is laborious and limited in scale potential. The large dosage requirement for many of the MSC‐based indications further exacerbates this manufacturing challenge. In contrast, expanding MSCs as spheroids does not require a cell attachment surface and is amenable to large‐scale suspension cell culture techniques, such as stirred‐tank bioreactors. In the present study, we developed and optimized serum‐free media for culturing MSC spheroids. We used Design of Experiment (DoE)‐based strategies to systematically evaluate media mixtures and a panel of different components for effects on cell proliferation. The optimization yielded two prototype serum‐free media that enabled MSCs to form aggregates and proliferate in both static and dynamic cultures. MSCs from spheroid cultures exhibited the expected immunophenotype (CD73, CD90, and CD105) and demonstrated similar or enhanced differentiation potential toward all three lineages (osteogenic, chondrogenic, adipogenic) as compared with serum‐containing adherent MSC cultures. Our results suggest that serum‐free media for MSC spheroids may pave the way for scale‐up production of MSCs in clinically relevant manufacturing platforms such as stirred tank bioreactors. © 2014 American Institute of Chemical Engineers Biotechnol. Prog., 30:974–983, 2014     

Primary culture of microvascular endothelial cells from bovine retina

Summary To provide an in vitro system for studying retinal capillary function we have developed methods for isolation and culture of microvascular endothelial cells from retina. Retinal microvessels were isolated by homogenization of the retina and collection of the microvessels onto nylon mesh. Treatment of the isolated microvessels with collagenase and dispase followed by Percoll gradient centrifugation yielded endothelial cells that were largely free of pericytes. A homogeneous population of endothelial cells that were capable of at least six population doublings was obtained by plating onto a fibronectin coated substrate in plasma derived serum. The endothelial origin of these cells was confirmed by the presence of Factor VIII antigen, angiotensin converting enzyme activity, numerous tight junctions, and a cell surface that did not bind platelets. A second cell type, which did not exhibit these cell markers and which is presumably the intramural pericyte, was obtained when the isolated microvessels were plated on tissue culture grade plastic in fetal bovine serum. Supported by Research Grants 5R01-EY03772 and 5R01-ES02380 from the U.S. Public Health Service (G. W. G.) and Established Investigator Award 31-107 from the American Heart Association (A. L. B.).     

A new pyrimidine-specific ribonuclease from bovine seminal plasma that is active on both single and double-stranded polyribonucleotides and that can distinguish between Mg2+-containing and Mg2+-depleted naturally occurring RNAs

The purification to homogeneity of a new ribonuclease, named RNAase SPL, from bovine seminal plasma is described. This nuclease, like the bovine pancreatic RNAase A, is pyrimidine specific. Its activity on single-stranded synthetic polyribonucleotides such as poly(rU) is significantly higher than that of RNAase A. However, unlike RNAase A, RNAase SPL is highly active on a double-stranded RNA such as poly[r(A · U)], and shows extremely limited activity on naturally occurring RNAs, such as Escherichia coli RNA, prepared with Mg²⁺ present throughout the isolation procedure. Under conditions of limiting hydrolysis in which RNAase A degrades 60 to 90% of total E. coli RNA to acid-soluble material and the remaining to material having a molecular weight lower than that of transfer RNA, RNAase SPL does not yield any acid-soluble products: it does not appear to degrade tRNA or 5 S RNA, and causes only a small number of nicks in the remaining RNAs to yield a limiting digest containing products with molecular weights ranging between 10,000 and 150,000. Absence of Mg²⁺ during the isolation procedure, or heat denaturation of the RNA makes it as susceptible to RNAase SPL as it is to RNAase A.The above and other related observations reported here support the view that there are Mg²⁺-dependent structural features, besides single and doublestrandedness, in naturally occurring RNAs, that can be distinguished by using the two nucleases RNAase SPL and RNAase A.     

人胰腺细胞培养及胰岛素的分泌

人胰腺细胞培养及胰岛素的分泌王石泉,汤国枝,张鹤云,李敏意,金以丰（南京大学生物化学系,南京２１００９３）胰岛β细胞的体外培养获得胰岛素已有报道,但大多采用新生大鼠胰腺,且β细胞成活率低,分泌量少,还处在研究阶段［１－４］．本实验采用人胰腺细胞做较大...