Calmodulin is required for cell-cycle progression during G1 and mitosis.

In order to examine the consequences of a transient increase or decrease in intracellular calmodulin (CaM) levels, two bovine-papilloma-virus (BPV)-based expression vectors capable of inducibly synthesizing CaM sense (BPV-MCM) or anti-sense (BPV-CaMAS) RNA have been constructed and used to stably transform mouse C127 cells. Upon addition of Zn2+, cells containing the BPV-MCM vector have transiently increased CaM mRNA and protein levels. Cells carrying the BPV-CaMAS vector transiently produce CaM anti-sense RNA resulting in a significant decrease in intracellular CaM concentration. Increased CaM caused a transient acceleration of proliferation, while the anti-sense RNA induced decrease in CaM caused a transient cell cycle arrest. Flow cytometric analysis showed that progression through G1 and mitosis was affected by changes in CaM levels. These data indicate that CaM levels may limit the rate of cell-cycle progression under normal conditions of growth.     

The distribution of calmodulin and Ca^2＋—activated calmodulin in cell cycle of mouse erythroleukemia cells

Cell proliferation is accompanied with changing levels of intracellular calmodulin (CaM) and its activation.Prior data from synchronized cell population could not actually stand for various CaM levels in different phases of cell cycle.Here,based upon quantitative measurement of fluorescence in individual cells,a method was developed to investigate intracellular total CaM and Ca^2 -activated CaM contents. Intensity of CaM immunoflurescence gave total CaM level,and Ca^2 -activated CaM was measured by fluorescence intensity of CaM antagonist trifluoperazine (TFP).In mouse erythroleukemia (MEL) cells,total CaM level increased from G1 through S to G2M,reaching a maximum of 2-fold increase,then reduced to half amount after cell division.Meanwhile,Ca^2 -activated CaM also in creased through the cell cycle(G1,S,G2M).Increasing observed in G1 meant that the entry of cells from G1 into S phase may require CaM accumulation,and,equally or even more important,Ca^2 -dependent activation of CaM.Ca^2 -activated CaM decreased after cell division.The results suggested that CaM gene expression and C^2 -modulated CaM activation act synergistically to accomplish the cell cycle progression.     

High-level expression of a cloned HLA heavy chain gene introduced into mouse cells on a bovine papillomavirus vector.

A gene encoding the heavy chain of an HLA human histocompatibility antigen was isolated from a library of human DNA by recombination and selection in vivo. After insertion into a bovine papillomavirus (BPV) DNA expression vector, the gene was introduced into cultured mouse cells. Cells transformed with the HLA-BPV plasmids did not appear to contain extrachromosomal viral DNA, whereas BPV recombinants usually replicated as plasmids in transformed cell lines. Large amounts of HLA RNA were produced by the transformed cells, and the rate of synthesis of human heavy chain was several-fold higher than in the JY cell line, a well-characterized human lymphoblastoid cell line which expresses high levels of surface HLA antigen. Substantial amounts of human heavy chain accumulated in the transformed cells, and HLA antigen was present at the cell surface. These observations establish the feasibility of using BPV vectors to study the structure and function of HLA antigens and the expression of cloned HLA genes.     

Generation of cell-mediated cytotoxicity against bovine-papilloma-virus-transformed primary mouse cell lines

Summary The immunogenicity and immunosensitivity of primary mouse cell lines transformed by bovine papilloma virus 1 (BPV1) DNA were studied in a syngeneic mouse model by determining cell-mediated cytotoxicity in the spleens of mice immunized with the transformed cells. One of the cell lines induced the generation of cell-line-specific Thy1.2-positive cytotoxic effector cells. However, most of the cell lines tested induced the generation of Thy1.2-positive effector cells, which in addition to BPV1-transformed cells were able to lyse a syngeneic cell line transformed by methylcholanthrene. The lysis of BPV1- and methylcholanthrene-transformed cell lines was mediated by recognition of the same antigenic determinants expressed on these cells, and all the BPV1-transformed cell lines were sensitive to lysis by these nonspecific effector cells of the lymphokine-activated killer (LAK) type.     

钙调素对细胞周期的调节

RC3细胞是一种用真核表达载体1~(CaM)转染NIH 3T3细胞建成的可调钙凋素(Calmodulin,CaM)高表达细胞模型。通过分子杂交及蛋白免疫印迹方法证实在地塞米松(Dexamethasome,DXM)作用下,RC3细胞可高表达CaM。CaM的过表达使G_1期细胞减少,S期细胞增加;CaM拮抗剂三氟拉嗪(trifluoperazine,TFP)则使G_1期细胞增加,S期细胞减少。高表达CaM使细胞分裂指数提高,G_2期细胞减少,有丝分裂前期细胞增加,M中期细胞比例下降。而TFP处理则使分裂指数下降,G_2期细胞增加,M前期细胞减少,M中期细胞增加。实验结果表明CaM在G_1/S、G_2/M和M中期/M后期3个位点上对细胞周期进行调控;通过加速G_1至S期,G_2至M期和M中期至M后期的进程,使细胞倍增时间缩短,促进细胞增殖。本工作表明,RC3细胞作为CaM表达可调细胞模型,是研究细胞周期调控的有力工具。     

Calmodulin and Ca2+ in normal and transformed cells

Numerous lines of evidence implicate calcium and calmodulin (CaM) as regulators of cell growth and functional differentiation. In light of this evidence, several studies of the possible involvement of the CaM system in cellular transformation by RNA and DNA tumor viruses have been carried out. This paper summarizes the evidence linking calcium and CaM to the regulation of cell growth and critically examines the evidence that increases in CaM levels occur in transformed versus normal cells. A nontraumatic method for synchronizing both normal and transformed chick fibroblasts is presented. This method is utilized in a comparison of CaM level throughout the cell cycle of Rous sarcoma virus transformed and normal chick embryo fibroblasts. These studies best support the hypothesis that the observed differences in CaM levels between transformed and normal cultures under optimal growth conditions may largely reflect differences in the proportion of cells in a dividing versus a nondividing state.     

Rat embryo fibroblasts transformed by c-Jun display highly metastatic and angiogenic activities in vivo and deregulate gene expression of both angiogenic and antiangiogenic factors.

The comparative tumorigenicity in rats and nude mice of cell lines derived from FR3T3 and transformed by either c-jun, ras, SV40 lt, or bovine papilloma virus type 1 (BPV1) oncogenes was investigated. c-Jun-transformed cells were as tumorigenic and metastatic as Ras-transformed cells. Latencies were short, and numerous pulmonary metastases were observed in all injected animals. In contrast, tumors induced by s.c. injection of SV40-transformed cells developed slower, and none of the animals who received injections i.v. presented with metastases. BPV1-transformed cells had an intermediate tumorigenic and metastatic activity. Microvessels present in the different tumors were revealed by immunostaining with Griffonia (Bandeiraea) Simplicifolia lectin 1. Tumors obtained with c-Jun-transformed cells exhibited more neovascularization than those induced by the other oncogenes. By comparison to FR3T3 cells or SV40- or BPV1-transformed cells, c-Jun-transformed fibroblasts repress the antiangiogenic thrombospondin-1 and SPARC genes, whereas we found that they express higher levels of gene expression of the angiogenic vascular endothelial growth factor. Finally, as compared with cells before passage in animals, thrombospondin-1, SPARC, and VEGF gene expression was also deregulated in cell lines isolated from primary tumors induced by BPV1-transformants. Our results indicate that the high transforming potential of c-Jun, evidenced as soon as transformation is established in vitro, correlates with deregulation of gene expression of both angiogenic and antiangiogenic factors leading to rapid neovascularization of tumors.     

Tumorigenic transformation of murine keratinocytes by the E5 genes of bovine papillomavirus type 1 and human papillomavirus type 16.

To examine the biological properties of the bovine papillomavirus type 1 (BPV) and human papillomavirus type 16 (HPV16) E5 genes, each was cloned separately into a retroviral expression vector and helper-free recombinant viruses were generated in packaging cell lines. The BPV E5 retroviruses efficiently caused morphologic and tumorigenic transformation of cultured lines of murine fibroblasts, whereas the HPV16 E5 viruses were inactive in these assays. In contrast, infection of the p117 established line of murine epidermal keratinocytes with either the BPV or the HPV16 E5 retrovirus resulted in the generation of tumorigenic cells. Pam212 murine keratinocytes were also transformed to tumorigenicity by the HPV16 E5 gene but not by the gene carrying a frameshift mutation. These results establish that the HPV16 E5 gene is a transforming gene in cells related to its normal host epithelial cells.     

Increased calmodulin affects cell morphology and mRNA levels of cytoskeletal protein genes.

We have previously described stable mouse C127 cell lines in which a CaM mini-gene has been expressed in a bovine papilloma virus-based expression vector (Rasmussen and Means: EMBO J. 6:3961-3968, 1987). Elevation of CaM to levels five-fold higher than in control cells caused an acceleration in cell cycle progression by reducing the length of the G1 period. When these cell lines were originally isolated it was observed that cells in which CaM levels were increased had a flattened morphology. In this study we have examined the localization of actin, vimentin, and tubulin in these cells as compared to the BPV-transformed control cell line in order to determine if changes in shape were accompanied by differences in the cytoskeletal organization. Cell-cycle-dependent changes in the levels of mRNAs for histone H4, glyceraldehyde-3-phosphate dehydrogenase, beta-actin, vimentin, and beta-tubulin have also been examined. Our results indicate that increased CaM causes differences in the organization of microfilaments, intermediate filaments, and microtubules and that these changes are accompanied by selective differences in the cell-cycle-dependent expression of some mRNAs. Elevated CaM was also correlated with a reduced stability of beta-tubulin mRNA. These studies indicate that CaM has pleiotropic effects on cell function and suggest that stable cell lines with altered CaM levels may provide a useful model system for understanding the molecular basis of CaM-dependent regulation of cellular processes.     

Altered synthesis of the 26-kDa heat stress protein family and thermotolerance in cell lines with elevated levels of calcium-binding proteins

Using a bovine papilloma virus-based vector, mouse mammary adenocarcinoma cells have been transformed to express elevated amounts of functional calmodulin (CaM) (Rasmussen and Means, 1987) and another Ca2(+)-binding protein, parvalbumin (PV) (Rasmussen and Means, 1989) that is not normally synthesized in these cells. Parental cells (C127) and cells transformed by the vector alone (BPV-1), the vector containing a CaM gene (CM-1), or the vector containing parvalbumin (PV-1) were used to study the effect of increased synthesis of Ca2(+)-binding proteins on heat-stress protein (HSP) synthesis and cell survival following heating at 43 degrees C. The induction, stability, and repression of the synthesis of most HSPs after 43 degrees C heating was not significantly affected by increased amounts of Ca2(+)-binding proteins, but the rate of synthesis of all three isoforms of the 26-kDa HSP (HSP26) was greatly reduced. C127 cells, which have about one half as much CaM as do BPV-1 cells, synthesized the most HSP26. CM-1 cells, which have more than fourfold higher levels of CaM than do BPV-1 cells, had a rate of synthesis of HSP26 approaching that of unheated cells. BPV-1 cells, with a two-fold increase in CaM, were intermediate in HSP26 synthesis. This effect on HSP26 synthesis may be largely related to the Ca2(+)-binding capacity of CaM rather than to a specific CaM-regulated function, since PV-1 cells also showed reduced rates of HSP26 synthesis. Survival experiments showed that reduced HSP26 synthesis in cells with increased amounts of Ca2(+)-binding proteins did not significantly alter intrinsic resistance to continuous 43 degrees C heating. Thermotolerance was not reduced and appeared to develop more rapidly in CM-1 and PV-1 cells. These results suggest that (1) the signal for HSP26 synthesis can be largely abrogated by elevated Ca2+ binding protein levels, and (2) if these HSPs are involved in thermotolerance development, that function may be associated with intracellular Ca2+ homeostasis.     

The calmodulin content of normal and leukaemic lymphocytes

Normal human peripheral blood mononuclear cells (PBMC) and leukaemic cell lines (three of human and one of gibbon origin) were found to contain similar levels of calmodulin (CaM) when expressed relative to the total cell protein. Two of the cell lines examined further were found to contain much higher amounts of CaM per cell (up to 5-fold) than PBMC but this was readily explained by their much greater cell size. Variations in CaM levels were noted during culture of both PBMC and leukaemic cells which were apparently independent of the percentage of cells undergoing active division in these cultures. These results do not support, the contention that transformed cells contain a higher proportion of CaM than normal cells.     

Inhibition of cervical carcinoma cell line proliferation by the introduction of a bovine papillomavirus regulatory gene.

Human papillomavirus (HPV) E6 and E7 oncogenes are expressed in the great majority of human cervical carcinomas, whereas the viral E2 regulatory gene is usually disrupted in these cancers. To investigate the roles of the papillomavirus E2 genes in the development and maintenance of cervical carcinoma, the bovine papillomavirus (BPV) E2 gene was acutely introduced into cervical carcinoma cell lines by infection with high-titer stocks of simian virus 40-based recombinant viruses. Expression of the BPV E2 protein in HeLa, C-4I, and MS751 cells results in specific inhibition of the expression of the resident HPV type 18 (HPV18) E6 and E7 genes and in inhibition of cell growth. HeLa cells, in which HPV gene expression is nearly completely abolished, undergo a dramatic and rapid inhibition of proliferation, which appears to be largely a consequence of a block in progression from the G1 to the S phase of the cell cycle. Loss of HPV18 gene expression in HeLa cells is also accompanied by a marked increase in the level of the cellular p53 tumor suppressor protein, apparently as a consequence of abrogation of HPV18 E6-mediated destabilization of p53. The proliferation of HT-3 cells, a human cervical carcinoma cell line devoid of detectable HPV DNA, is also inhibited by E2 expression, whereas two other epithelial cell lines that do not contain HPV DNA are not inhibited. Thus, a number of cervical carcinoma cell lines are remarkably sensitive to growth inhibition by the E2 protein. Although BPV E2-mediated inhibition of HPV18 E6 and E7 expression may contribute to growth inhibition in some of the cervical carcinoma cell lines, the BPV E2 protein also appears to exert a growth-inhibitory effect that is independent of its effects on HPV gene expression.     

Optimizing gene expression in BPV-transformed cells: effects of cell type on enhancer/promoter interaction.

We have compared several combinations of enhancers and promoters in expressing the chloramphenicol acetyl transferase gene in transient assays, in mouse C127, the most widely used host cell for the bovine papilloma virus (BPV) expression vector. Of the various combinations tested, the unit comprised of the SV40 enhancer and adenovirus type 2 major late promoter (MLP) was the most active in BPV transformed C127 cells. We further demonstrate that untransformed and BPV transformed C127 cells respond differently to the various enhancer/promoter combinations tested. Moving the SV40 enhancer closer to the cap site of a complete MLP (from -414 to -107) reduced potentiation to less than half in BPV transformed cells. The level of potentiation with enhancer at either site was similar in human HeLa cells. In BPV transformed C127 cells, the SV40 enhancer and the MLP (at the -414 site) supports 4-5 fold greater levels of expression than the murine sarcoma virus (MSV) enhancer/mouse metallothionein (MT) promoter which has previously been extremely effective in BPV vectors. Our findings provide a basis for the improvement of the BPV vector system in supporting increased levels of expression of proteins of important therapeutic application.     

Plasmidial maintenance in rodent fibroblasts of a BPV1-pBR322 shuttle vector without immediately apparent oncogenic transformation of the recipient cells.

A recombinant plasmid was constructed (pV69) which comprises a subgenomic fragment of bovine papilloma virus type 1 (BPV1) DNA, part of plasmid pBR322 DNA and a drug resistance gene expressed in both mammalian fibroblasts and Escherichia coli. This gene (vv2) is a modified form of the bacterial neomycin resistance gene (neo) linked to the herpes simplex virus thymidine kinase (tk) promoter (plasmid pAG60), to which the original bacterial neo promoter from transposon Tn5 was added back, upstream of the eukaryotic promoter. It induced kanamycin resistance in E. coli, as well as resistance to the drug G418 in rat and mouse fibroblasts. Its expression in FR3T3 rat cells was enhanced as compared with the original tk-neo construction. After transfer of plasmid pV69 into C127 mouse cells or FR3T3 rat cells, the number of resistant colonies selected in medium containing G418 was one to two orders of magnitude higher than that of transformed foci in normal medium. In eight independent cell lines selected by drug resistance, pV69 DNA was found to be maintained in a plasmidial state, without any detectable rearrangement or deletion and could be transferred back in E. coli. In contrast, cell lines selected by focus formation in normal medium maintained deleted forms of the original plasmid DNA, and only part of them were resistant to G418. Most of the drug-resistant clones had kept the morphology and growth control of the normal fibroblasts. However, with further passages in culture, these cells spontaneously produced transformed foci with increasing frequencies.     

cAMP对转化细胞中几种基因表达及CREB DNA结合活性的影响

 从癌基因、抑癌基因及转录因子 CREB(c AMP反应序列结合蛋白 )对 CRE DNA序列结合活性的相关性 ,对 db- c AMP处理的小鼠 C3H10 T1 /2转化细胞增殖抑制作用进行了研究 .实验结果表明 ,转化细胞中 PKA(蛋白激酶 A)活性显著低于正常细胞 ,而 PKC(蛋白激酶 C)活性则显著高于正常细胞 .斑点印迹和 Northern印迹分析显示转化细胞中 c- myc和 Ca M(钙调素 )基因表达明显高于正常细胞 ,而 p53基因和 Rb基因表达则明显低于正常细胞 ,这些差别与 C3H10 T1/ 2 转化细胞增殖失控有关 .转化细胞经 db- c AMP(1 mmol/L)处理后 ,细胞增殖受到明显抑制 ,db- c AMP处理0 .5h后 ,转化细胞中 PKA活性便明显增强 ,PKC活性则被显著抑制 ,处理 2 h后 ,c- myc和 Ca M基因表达下降 ,而 p53和 Rb基因表达则增强 ,这些变化与 c AMP抑制 C3H10 T1/ 2 转化细胞增殖有密切联系 .凝胶阻滞电泳分析显示 db- c AMP(1 mmol/L )处理短时间内 ,CREB对 CRE DNA序列无结合活性 ,1 2 h后开始出现较弱的结合活性 ,2 4 h后才明显加强 ,表明在 db- c AMP处理的早期 ,调控区中含有 CRE序列的基因不参与 db- c AMP对细胞增殖抑制的调节 ,即与 CREB磷酸化及其相应的 DNA结合活性无相关性 .     

Intracellular transport of herpes simplex virus gD occurs more rapidly in uninfected cells than in infected cells.

A mouse L cell line which expresses the herpex simplex virus type 1 immediate-early polypeptides ICP4 and ICP47 was cotransfected with a cloned copy of the BglII L fragment of herpes simplex virus type 2, which includes the gene for gD, and the plasmid pSV2neo, which contains the aminoglycosyl 3'-phosphotransferase (agpt) gene conferring resistance to the antibiotic G418. A G418-resistant transformed cell line was isolated which expressed herpes simplex virus type 2 gD at higher levels than were found in infected cells. The intracellular transport and processing of gD was compared in transformed and infected cells. In the transformed Z4/6 cells gD was rapidly processed and transported to the cell surface; in contrast, the processing and cell surface appearance of gD in infected parental Z4 cells occurred at a much slower rate, and gD accumulated in nuclear membrane to a greater extent. Thus, the movement of HSV-2 gD to the cell surface in infected cells is retarded as viral glycoproteins accumulate in the nuclear envelope, probably because they interact with other viral structural components.