Expression of PiM-and PiZ-mutated forms of the human alpha 1-antitrypsin gene in transfected monkey COS1 cells

The PiZ mutation of the gene coding for alpha 1-antitrypsin results in a serum deficiency of this protein leading to early onset emphysema and liver disease. The PiZ gene has a Z-specific point mutation in exon V together with a point mutation in exon III which is also present in some normal (PiM) individuals. There has thus far been no system to study the effects of PiZ point mutations in tissue culture. We constructed plasmids containing alpha 1-antitrypsin cDNA synthetically altered at either exon III or exon V mutation sites and linked to simian virus 40 promoter sequences. Such constructs with the exon V mutation were transfected into monkey COS1 cells followed by analysis of expression of alpha 1-antitrypsin gene products. COS1 cells normally synthesize virtually no alpha 1-antitrypsin mRNA or protein. alpha 1-Antitrypsin mRNA is transcribed at high levels in cells transfected with either M or Z plasmids. Immunologic staining of COS1 cells within 48 h of transfection localizes alpha 1-antitrypsin protein to specific regions of the cytoplasm. This extranuclear localization is also observed with human HepG2 hepatoma cells, which synthesize alpha 1-antitrypsin at high levels, and with human SK-Hep1 hepatoma cells transfected with an M plasmid. The cloned synthetically altered alpha 1-antitrypsin genes provide a system for dissecting contributions of distinct point mutations to the pathological effects of the PiZ protein.     

Differences in human alpha-, beta- and delta-globin gene expression in monkey kidney cells

We have compared the function of the human alpha-, beta- and delta-globin genes using various plasmid expression vectors derived from pBR322. Amplification of recombinants occurred after their introduction, by calcium-phosphate-mediated DNA transfer, into monkey kidney cells that constitutively produce T antigen (COS cells). The human alpha-globin gene promoter functioned independently, but the beta-globin gene promoter was nearly totally dependent on the enhancing activity of the 72 bp direct repeats from the SV40 genome. Furthermore, when the human alpha- and beta-globin genes were linked in the same vector, the alpha promoter was active but the beta promoter was not. Function of the delta-globin gene promoter also depended on the enhancer element. In vectors containing the 72 bp repeats and the beta- or delta-globin gene, the activity of the beta-globin gene was approximately 50 times greater than that of the delta-globin gene, approximating the ratio of beta and delta mRNA observed in normal human bone marrow cells.     

Expression of functional human C1 inhibitor in COS cells

Full length human C1 inhibitor cDNA was cloned into a vector suitable for transient expression in COS-1 cells. Transfected COS cells secreted an immunoreactive protein of Mr approximately 110,000 that appeared to be functionally equivalent to the plasma-derived protein as established by the following criteria: 1) ability to form sodium dodecyl sulfate-stable complexes with C1s, factor XIIa, and kallikrein; 2) inhibition of C1s-mediated C4 consumption; and 3) susceptibility to inactivation by the nontarget proteinase elastase. Quantitation of secreted recombinant C1 inhibitor by radioimmunoassay indicated that 72 h after transfection the level was approximately 2.2 micrograms/ml. Treatment of transfected cells with tunicamycin resulted in secretion of a protein of Mr approximately 90,000 that was also capable of complex formation with C1s.     

Expression of four types of human tyrosine hydroxylase in COS cells

Alternative splicing from a single gene produces four kinds of human tyrosine hydroxylase (types 1-4), which have structural diversity only in the N-terminal region. We attempted expression of the type 1-4 enzymes in COS cells and performed kinetic analyses. All had enzymatic activities. The Km values of the four types for L-tyrosine and 6-methyl-5,6,7,8-tetrahydropteridine were similar, although their relative homospecific activities were clearly different. The type 1 enzyme displayed the highest activity.     

Expression of HSV-1 glycoproteins in tunicamycin-treated monkey kidney cells

The role of glycosylation in transport and expression of HSV-1 glycoproteins on the surface of HSV-1-infected African green monkey kidney cells was investigated by using tunicamycin (TM). A concentration of 0.05 microgram/ml of TM inhibited the replication of HSV-1 by greater than 99%. Immunoblot analysis of TM-treated and virus-infected cells indicated that 0.05 microgram/ml of TM blocked the addition of N-linked oligosaccharides into glycoproteins B, C and D. An immunofluorescence assay of TM-treated (0.05 and 0.1 microgram/ml) and virus-infected cells demonstrated the presence of nonglycosylated gC, gD and a reduced amount of gB on the surface of infected cells. The results suggest that the addition of N-linked oligosaccharides on the studied HSV-1 glycoproteins was not necessary for their transport and expression on the virus-infected cell surface.     

Derivation,characterization and gene modification of cynomolgus monkey mesenchymal stem cells

Mesenchymal stem cells (MSCs) have received considerable attention in recent years. Particularly exciting is the prospect that MSCs could be differentiated into specialized cells of interest, which could then be used for cell therapy and tissue engineering. MSCs derived from nonhuman primates could be a powerful tool for investigating the differentiation potential in vitro and in vivo for preclinical research. The purpose of this study was to isolate cynomolgus mesenchymal stem cells (cMSCs) from adult bone marrow and characterize their growth properties and multipotency. Mononuclear cells were isolated from cynomolgus monkey bone marrow by density-gradient centrifugation, and adherent fibroblast-like cells grew well in the complete growth medium with 10 μM Tenofovir. cMSCs expressed mesenchymal markers, such as CD29, CD105, CD166 and were negative for hematopoietic markers such as CD34, CD45. Furthermore, the cells were capable of differentiating into osteogenic, chondrogenic, and adipogenic lineages under certain conditions, maintaining normal karyotype throughout extended culture. We also compared different methods (lipofection, nucleofection and lentivirus) for genetic modification of cMSCs and found lentivirus proved to be the most effective method with transduction efficiency of up to 44.6% and lowest level of cell death. The cells after transduction stably expressed green fluorescence protein (GFP) and maintained the abilities to differentiate down osteogenic and adipogenic lineages. In conclusion, these data showed that cMSCs isolated from cynomolgus bone marrow shared similar characteristics with human MSCs and might provide an attractive cell type for cell-based therapy in higher-order mammalian species disorder models.     

人溶酶体酸性b-葡萄糖脑苷脂酶基因的克隆及其在COS7细胞中的表达

从人胎盘组织提取总RNA, 采用RT-PCR扩增人溶酶体酸性b-葡萄糖脑苷脂酶(Lysosomal acid b-glucosidase, GlcCerase)基因编码区的全部序列, 并克隆到pMD-19T载体上, 构建克隆载体pMD-GlcCerase。经测序验证后, 将GlcCerase亚克隆至表达载体pEGFP-C1上, 构建了人GlcCerase绿色荧光蛋白真核表达载体pEGFP-GlcCerase。采用脂质体法将其瞬时转染至COS7细胞系后, 在细胞中检测到了GlcCerase基因, 并在细胞裂解产物中检测到了GlcCerase生物活性的表达。GlcCerase基因的克隆及其表达, 为进一步了解GlcCerase基因的功能以及利用转基因动物乳腺生物反应器高效生产GlcCerase奠定了基础。     

Expression of TRPC homologs in endothelial cells and smooth muscle layers of human arteries

TRPC channels are a group of Ca²⁺-permeable nonselective cation channels that mediate store-operated and/or agonist-stimulated Ca²⁺ influx in a variety of cell types. In this study, we extensively examined the expression patterns of TRPC homologs in human vascular tissues. RT-PCR amplified cDNA fragments of TRPC1 (505 bp), TRPC3 (372 bp), TRPC4 (499 bp), TRPC5 (325 bp), TRPC6 (509 bp), and TRPC7 (187 bp) from RNA isolated from cultured human coronary artery endothelial cells. In situ hybridization yielded strong labeling of TRPC1,3–6 in the endothelial and smooth muscle cells of human coronary and cerebral arteries. TRPC7 labeling was exclusively found in endothelial cells but not in smooth muscle cells. Results from immunohistochemical staining were consistent with those from in situ hybridization. Similar expression patterns of TRPC homologs were also observed in arterioles and vaso vasora. In conclusion, our study indicates that TRPC homologs are widely expressed in human vessels of all calibers, including medium-sized coronary arteries and cerebral arteries, smaller-sized resistance arteries, and vaso vasora. These results suggest a ubiquitous role of TRPC homologs in regulating blood supply to different regions and in controlling arterial blood pressure.     

Expression and characterization of chicken muscle ecto-ATPase in mammalian COS cells

Chicken muscle ecto-ATPase has unusual enzyme kinetics and properties not found in many other E-type ATPases. To determine whether the unique properties of the chicken ecto-ATPase are inherent in the protein sequence and not mediated by some unique property of the chicken system, we have spliced together two partial cDNAs encoding the ecto-ATPase. The enzymatic properties of the COS (green monkey kidney) cell-expressed protein are indistinguishable from the purified chicken gizzard ecto-ATPase, including a 2- to 3-fold stimulation of membrane-bound activity by crosslinking and lectins, properties not shared by most other E-type ATPases. The expressed enzyme is specific for nucleotide triphosphates (ATPase:ADPase hydrolysis ratio of 26:1) and is inhibited by Cibacron Blue (IC50 = 10 microM). The active, expressed enzyme can be affinity-purified with Cibacron Blue, is relatively resistant to deglycosylation, and is less stable than other E-type ATPases. Expression in the presence of tunicamycin resulted in an inactive, unfolded enzyme.     

Expression and secretion of chicken apolipoprotein AI in transfected COS cells

A full-length chicken apolipoprotein A-I (apoAI) cDNA has been cloned into an expression vector, pRSVapoAI. This plasmid was transfected into a monkey kidney (COS-1) cell line in order to study apolipoprotein-lipid assembly. Chicken apoAI is the major apolipoprotein of chicken high-density lipoprotein (HDL), which is less complex in apolipoprotein content than the HDL of human plasma. The transient transfected COS-1 cells synthesized and secreted authentic plasma apoAI. Under serum-free medium conditions, COS cells secreted only proapoAI. A small portion (15%) of the secreted apoAI floated at a density 1.07-1.20 g/ml. Upon incubation with fetal bovine serum at 10 degrees C, a majority of the apoAI was recovered in the HDL density (1.06-1.20 g/ml) region. Secreted apoAI was labeled when transfected COS cells were incubated with [U-14C]palmitate, but the incorporation of radioactivity was not the result of fatty acid acylation through ester bond formation. These results indicate that heterologous COS-1 cells are capable of synthesizing and secreting apoAI, and that intracellular association of apoAI with lipids is not necessary for secretion.     

Multisite promiscuity in the processing of endogenous substrates by human carboxylesterase 1

Human carboxylesterase 1 (hCE1) is a drug and endobiotic-processing serine hydrolase that exhibits relatively broad substrate specificity. It has been implicated in a variety of endogenous cholesterol metabolism pathways including the following apparently disparate reactions: cholesterol ester hydrolysis (CEH), fatty acyl Coenzyme A hydrolysis (FACoAH), acyl-Coenzyme A:cholesterol acyltransfer (ACAT), and fatty acyl ethyl ester synthesis (FAEES). The structural basis for the ability of hCE1 to perform these catalytic actions involving large substrates and products has remained unclear. Here we present four crystal structures of the hCE1 glycoprotein in complexes with the following endogenous substrates or substrate analogues: Coenzyme A, the fatty acid palmitate, and the bile acids cholate and taurocholate. While the active site of hCE1 was known to be promiscuous and capable of interacting with a variety of chemically distinct ligands, these structures reveal that the enzyme contains two additional ligand-binding sites and that each site also exhibits relatively non-specific ligand-binding properties. Using this multisite promiscuity, hCE1 appears structurally capable of assembling several catalytic events depending, apparently, on the physiological state of the cellular environment. These results expand our understanding of enzyme promiscuity and indicate that, in the case of hCE1, multiple non-specific sites are employed to perform distinct catalytic actions.     

Reinforcing apoptosis-resistance of COS and myeloma cells by transfecting with bcl-2 gene

COS, myeloma and HeLa cells, which are commonly used for protein production by cell culture, were transfected with human bcl-2 gene encoded on the shuttle vector BCMGS. Expression of human bcl-2 improved survival of cells remarkably, mildly, or negligibly for COS, myeloma, and HeLa, respectively. Four clones were obtained from the human bcl-2 expressing cell population of COS cells. They expressed human bcl-2 almost at the same level. The viable cell numbers were 6, 2.5, 2.5, and 0.8 times as many for the clones #8, #5, #6, and #7, respectively, as for the control COS cells, when they were cultured at low (0.2%) serum concentration for 9 days. The bcl-2 overexpressing COS cells showed morphology different from that of the control COS cells in serum limited condition. When transfected with mouse lambda protein gene carried by an SV40-derived vector, clone #8 of the bcl-2 transfected COS cells continued the transient expression of lambda protein longer than the control COS cells. This revised version was published online in June 2006 with corrections to the Cover Date.     

Induction of an error-prone mode of DNA repair in UV-irradiated monkey kidney cells

The survival of UV-irradiated simian virus 40 (SV40) on UV-irradiated monkey kidney CV-1P cells at 33° was increased over survival on unirradiated cells. During this process — called induced-virus reactivation — the progeny virus yielded by UV-irradiated cells had a much higher mutation frequency than did the progeny from unirradiated cells. Mutation rates were quantified by using phenotypic reversion towards wild-type growth of an early (tsA 58) or a late (tsB 201) temperature-sensitive SV40 mutant. Analysis of SV40 revertant genomes indicated that no detectable deletions or additions were resposible for the reversion process.These results suggest that enzymes from UV-irradiated cells are able to replicate UV-irradiated DNA by an error-prone mode of DNA repair. Induced virus reactivation and error-prone replication are probably one of the expressions of SOS functions in mammalian cells.     

Concerted nicking of donor and chromosomal acceptor DNA promotes homology-directed gene targeting in human cells

The exchange of genetic information between donor and acceptor DNA molecules by homologous recombination (HR) depends on the cleavage of phosphodiester bonds. Although double-stranded and single-stranded DNA breaks (SSBs) have both been invoked as triggers of HR, until very recently the focus has been primarily on the former type of DNA lesions mainly due to the paucity of SSB-based recombination models. Here, to investigate the role of nicked DNA molecules as HR-initiating substrates in human somatic cells, we devised a homology-directed gene targeting system based on exogenous donor and chromosomal target DNA containing recognition sequences for the adeno-associated virus sequence- and strand-specific endonucleases Rep78 and Rep68. We found that HR is greatly fostered if a SSB is not only introduced in the chromosomal acceptor but also in the donor DNA template. Our data are consistent with HR models postulating the occurrence of SSBs or single-stranded gaps in both donor and acceptor molecules during the genetic exchange process. These findings can guide the development of improved HR-based genome editing strategies in which sequence- and strand-specific endonucleolytic cleavage of the chromosomal target site is combined with that of the targeting vector.     

Expression and analysis of green fluorescent proteins in human embryonic kidney cells by capillary electrophoresis

The green fluorescent protein (GFP) has attracted much interest as a reporter for gene expression. In this paper, application of capillary electrophoresis with laser-induced fluorescent (CE-LIF) for quantitation of green fluorescence protein in cellular extracts and single cells is investigated. The S65T mutant form of GFP protein was successfully expressed in human embryonic kidney (HEK293) cells, and its production was confirmed by fluorescence microscopy and CE-LIF. The mass limit of detection for the mutant S65T was 5.3 x 10(-20) mol, which was better than that for the wild-type GFP by a factor of six. Detection of a small amount of GFP is difficult by conventional techniques such as fluorescent microscopy due to interference from cell autofluorescence at low GFP concentrations. The HEK293 cells were transfected with the GFP plasmid that produced S65T-GFP. Transient production of S65T protein was detected 2 h after the transfection and reached a maximum after 48 h. The protein concentration began to decrease significantly after 96 h. Single cell analysis of HEK293 cells after transfection with GFP plasmid indicate a nonuniform production of S65T-GFP protein among cells.     

Ectopic expression of alpha1,6 fucosyltransferase in mice causes steatosis in the liver and kidney accompanied by a modification of lysosomal acid lipase

The alpha1,6 fucosyltransferase (alpha1,6 FucT) catalyzes the transfer of a fucose from GDP-fucose to the innermost GlcNAc residue of N-linked glycans via an alpha1,6 linkage. alpha1,6 FucT was overexpressed in transgenic mice under the control of a combined cytomegalovirus and chicken beta-actin promoter. Histologically numerous small vacuoles, in which lipid droplets had accumulated, were observed in hepatocytes and proximal renal tubular cells. Electron microscopic studies showed that the lipid droplets were membrane-bound and apparently localized within the lysosomes. Cholesterol esters and triglycerides were significantly increased in liver and kidney of the transgenic mice. Liver lysosomal acid lipase (LAL) activity was significantly lower in the transgenic mice compared to the wild mice, whereas LAL protein level, which was detected immunochemically, was increased, indicating that the specific activity of LAL was much lower in the transgenic mice. In all of the transgenic and nontransgenic mice examined, the activity of liver LAL was negatively correlated with the level of alpha1,6 FucT activity. As evidenced by lectin and immunoblot analysis, LAL was found to be more fucosylated in the transgenic mice, suggesting that the aberrant fucosylation of LAL causes an accumulation of inactive LAL in the lysosomes. Such an accumulation of inactive LAL could be a likely cause for a steatosis in the lysosomes of the liver and kidney in the case of the alpha1,6 FucT transgenic mice.