Characterization of the growth of murine fibroblasts that express human insulin receptors. I. The effect of insulin in the absence of other growth factors

The effect of insulin on the growth of murine fibroblasts transfected with an expression vector containing human insulin receptor cDNA (NIH 3T3/HIR) and the parental cells (NIH/3T3) was characterized. Insulin in the absence of other mitogens increased the rate of incorporation of thymidine into NIH 3T3/HIR cells with a half-maximal response occurring at an insulin concentration of 35 ng/ml and a maximal response that was equivalent to that elicited by 10% fetal calf serum. The thymidine incorporation rate was increased by 12 h, was maximal at approximately 16 h, and returned to basal rates at 24 h after the addition of insulin. Insulin induced a maximum of 65% of cells to incorporate thymidine. The increased DNA synthesis was accompanied by net growth. Addition of insulin to the NIH 3T3/HIR cells resulted in increased DNA content with a half-maximal response occurring at approximately 30 ng/ml insulin and a maximal response equivalent to that elicited by serum. An increase in cell number detected after the addition of insulin to the NIH 3T3/HIR suggests that the cells had progressed through mitosis. Insulin did not increase the rate of thymidine incorporation, DNA content, or number of the parental NIH 3T3 cells. These data show that insulin, in the absence of a second mitogen, is able to induce NIH 3T3/HIR fibroblasts to traverse the cell cycle.     

Characterization of the growth of murine fibroblasts that express human insulin receptors. II. Interaction of insulin with other growth factors

The effects of insulin-like growth factor-1 (IGF-1), epidermal growth factor (EGF), platelet-derived growth factor (PDGF), and insulin on DNA synthesis were studied in murine fibroblasts transfected with an expression vector containing human insulin receptor cDNA (NIH 3T3/HIR) and the parental NIH 3T3 cells. In NIH 3T3/HIR cells, individual growth factors in serum-free medium stimulated DNA synthesis with the following relative efficacies: insulin greater than or equal to 10% fetal calf serum greater than PDGF greater than IGF-1 much greater than EGF. In comparison, the relative efficacies of these factors in stimulating DNA synthesis by NIH 3T3 cells were 10% fetal calf serum greater than PDGF greater than EGF much greater than IGF-1 = insulin. In NIH 3T3/HIR cells, EGF was synergistic with 1-10 ng/ml insulin but not with 100 ng/ml insulin or more. Synergy of PDGF or IGF-1 with insulin was not detected. In the parental NIH 3T3 cells, insulin and IGF-1 were found to be synergistic with EGF (1 ng/ml), PDGF (100 ng/ml), and PDGF plus EGF. In NIH 3T3/HIR cells, the lack of interaction of insulin with other growth factors was also observed when the percentage of cells synthesizing DNA was examined. Despite insulin's inducing only 60% of NIH 3T3/HIR cells to incorporate thymidine, addition of PDGF, EGF, or PDGF plus EGF had no further effect. In contrast, combinations of growth factors resulted in 95% of the parental NIH 3T3 cells synthesizing DNA. The independence of insulin-stimulated DNA synthesis from other mitogens in the NIH 3T3/HIR cells is atypical for progression factor-stimulated DNA synthesis and is thought to be partly the result of insulin receptor expression in an inappropriate context or quantity.     

干细胞因子逆转录病毒表达载体的构建及体外性质研究

目的通过逆转录病毒介导两种类型人干细胞因子在NIH3T3细胞中稳定表达,并研究它们对白血病细胞的作用。方法用DNA重组技术构建并鉴定可溶型及膜结合型干细胞因子的重组逆转录病毒表达载体MSCV—PGK—GFP—sSCF、MSCV—PGK—GFP—mSCF,与空载体对照MSCV—PGK—GFP分别转染Phoenix细胞包装病毒,并感染NIH3T3细胞,流式分选术获得3种阳性细胞,CCK8法分别检测与其共培养的K562细胞的增殖情况。结果成功构建了sSCF、mSCF逆转录病毒表达载体;经Phoenix包装的重组及对照逆转录病毒成功感染NIH3T3细胞,获得了稳定表达细胞株NIH3T3-S、NIH3T3-M和对照细胞株NIH3T3-V。共培养中NIH3T3-S、NIH3T3-M均可促进K562细胞的增殖,且在低血清条件下,NIH3T3-M的作用高于NIH3T3-S。结论可溶性及膜结合SCF分别通过旁分泌和并置性作用促进白血病细胞的增殖。     

Production of monoclonal antibody using free-suspended and immobilized hybridoma cells: Effect of serum

The effect of serum on cell growth and monoclonal antibody (MAb) productivity was studied in a repeated fedbatch mode using both free-suspended and immobilized S3H5/gamma2bA2 hybridoma cells. In the suspension culture, serum influenced the cell growth rate but not the specific MAb productivity. The average specific growth rate of the suspension culture in medium containing 10% serum was approximately 0.99 +/- 0.12 day(-1) (+/-standard deviation), while that in medium containing 1% serum was approximately 0.73 +/- 0.12 day(-1). The specific MAb productivity was almost constant at 3.69 +/- 0.57 mug/10(6) cells/day irrespective of serum concentration reached a maximum at ca. 1.8 x 10(6) cells/mL of medium in 10% serum medium, and the cell concentration was gradually reduced to 1%. The specific MAb productivity of the immobilized cells was more than three times higher than that of the free-suspended cells. The amount of serum in the medium did not influence the specific MAb production rate of the immobilized cells. The maintenance of high cell concentration and the enhanced specific MAb productivity of the immobilized cell culture resulted in a higher volumetric MAb productivity. In addition, MAb yield in the immobilized cell culture with medium containing 1% serum was 2.2 mg/mL of serum, which was approximately three times higher than that in the suspension culture.     

V-fos基因对NIH3T3细胞转化的研究

本文报道了用含v-fos基因的pFBJ-2质粒转染NIH 3 T 3细胞,获得了转化细胞株。对细胞株的研究结果表明:(1)Southern杂交检测到细胞基因组中有v-fos基因的整合;(2)点杂交测得有v-fos mRNA的表达;(3)出现一系列转化表型,包括细胞形态的改变,异常的增长速率,在软琼脂上的贴壁不依赖性生长,对低血清浓度培养液的适应性以及细胞膜表而超微结构的变化等,提示v-fos基因能使NIH 3 T 3细胞发生转化,并在体外转化过程中起决定性作用。     

Modulation of antioxidant enzymes,reactive oxygen species,and glutathione levels in manganese superoxide dismutase-overexpressing NIH/3T3 fibroblasts during the cell cycle

NIH/3T3 mouse embryo fibroblasts were transfected with the cDNA for manganese superoxide dismutase (MnSOD). Previous studies showed characteristic unique AE profiles in nonsynchronous populations of parental, control plasmid-transfected, and MnSOD-overexpressing NIH/3T3 cell lines. However, the present study showed that during S and M phases of the cell cycle, antioxidant enzyme (AE) levels were altered in MnSOD-overexpressing cell lines towards levels in S and M phases of parental and control plasmid-transfected cells. Because of the demonstration that MnSOD overexpression inhibits cell growth in both nonmalignant and malignant cells, the present study was designed to measure AEs, reactive oxygen species (ROS), and glutathione levels in various phases of the cell cycle in both parental NIH/3T3 cells and NIH/3T3 cells overexpressing MnSOD, to try to determine whether AEs, ROS, and glutathione levels could have a possible regulatory role in cell cycle progression. In all cell lines studied, ROS levels were lower in M than S phase of the cell cycle. Total glutathione and glutathione disulfide levels were greatly increased during the M phase of the cell cycle compared with quiescence and S phase in all cell lines studied. This suggests that oxidative stress exists in M phase of the cell cycle with total glutathione levels increased to decrease oxidative stress. Analysis of MnSOD-overexpressing cell clones showed a correlation of decreased cell growth with an increase in ROS in S phase of the cell cycle and a decrease in glutathione in mitosis. The data strongly suggest that specific levels of cell redox state are necessary for cells to successfully progress through the various phases of the cell cycle. J. Cell. Physiol. 177:148–160, 1998. © 1998 Wiley-Liss, Inc.     

Decreased serum dependence in the growth of NIH3T3 cells from the overexpression of human nuclear receptor-binding SET-domain-containing protein 1 (NSD1) or fission yeast su(var)3-9, enhancer-of-zeste, trithorax 2 (SET2)

Nuclear receptor-binding SET-domain-containing protein 1 (NSD1), a culprit gene for Sotos syndrome, contains a su(var)3-9, enhancer-of-zeste, trithorax (SET) domain that is responsible for histone methyltransferase activity and other domains such as plant homeodomain (PHD) and proline-tryptophan-tryptophan-proline (PWWP) involved in protein-protein interactions in the C-terminal half of NSD1. To elucidate the function of NSD1 on cell growth, we overexpressed NSD1 in NIH3T3 cells. Cells overexpressing NSD1 grew in the presence of 2% serum, whereas vector transfected cells did not. Overexpression of the C-terminal half of NSD1 but not the N-terminal half of NSD1 also produced cell growth under low serum concentration. Furthermore, overexpression in NIH3T3 of Schizosaccharomyces pombe SET2 which has a SET domain but not PHD or PWWP domains conferred the reduced serum dependence. Thus, the SET domain of NSD1 is involved in cell growth by modulating serum dependence.     

Kinetic studies and unstructured models of lymphocyte metabolism in fed-batch culture

The growth of two lymphocyte cell lines, a hybridoma cell line and a human cutaneous T cell lymphoma (HuT78), was studied in fed-batch culture, and unstructured models of growth developed. A criteria was established to insure that the growth rate varied by less than a specified tolerance throughout the culture period. Glutamine and serum were growth-limiting nutrients for both cell lines with half-maximal growth rates at 0. 53 mM glutamine and 0. 55%(v/v) serum for the hybridoma cells and 0. 21 mM glutamine and 1. 5% serum for the HuT-78 cells. Over the range of glucose concentrations from 5. 5 mM to 28 mM, the specific growth rate of hybridoma cells was independent of glucose concentration, whereas glucose concentrations above 5. 5 mM inhibited HuT-78 growth. For both cell lines, the growth rate was significantly inhibited by the addition of ammonium, although the hybridoma cell line was more affected by ammonia than was the HuT-78 cell line. Growth of HuT-78 cells increased in the presence of interleukin-2. Unstructured models for the hybridoma cells were similar to other models presented in the literature. Applications of these models to adoptive immunotherapy are discussed.     

Differential early viral gene expression in two stages of human papillomavirus type 16 DNA-induced malignant transformation.

Human papillomavirus (HPV) type 16 DNA induces progressive transformation in NIH 3T3 cells. Two types of cell lines, PM3T3G0 and PM3T3Fo, were isolated by G418 or focus selection, respectively, after transfection of cells by a recombinant HPV 16 DNA carrying the neo gene. These cell lines exhibited distinct phenotypes compared with controls. Saturation densities of PM3T3G0 and PM3T3Fo lines were two- to three- and five- to sevenfold greater than that of control NIH 3T3 cells, respectively. Neither cell type required high serum for growth, in contrast to NIH 3T3 cells. PM3T3G0 lines were premalignant, whereas PM3T3Fo lines manifested tumorigenicity within 2 weeks. Subpopulations of three PM3T3G0 lines underwent progressive transformation as reflected by focus formation. Analysis of HPV 16-specific mRNA species demonstrated that high levels of early and late gene expression were detected in premalignant PM3T3G0 lines, whereas relatively low quantities of selected gene messages were expressed in malignant transformants. Thus, high levels of viral gene expression are not crucial for malignant transformation.     

Regulation of NIH-3T3 cell G1 phase transit by serum during exponential growth

The proliferation rate of mammalian cells is regulated normally in the G₁ phase of the cell cycle. During this phase, it is convenient to assign positive and negative roles to the molecular programs that regulate the duration of G₁ and the phase transition from G₁ to S phase. Density-dependent inhibition of cellular proliferation results in an increase in the duration of G₁. This form of regulation is due to both secreted factors and cell—cell contact. Serum is mitogenic to a variety of mammalian cell types. Because quiescent cells enter S phase as a result of serum addition to culture media, serum is usually regarded as a source of positive regulatory growth factors. We have measured the length of the G₁, S and G₂+ M phases of NIH 3T3 cells during exponential growth as a function of cell density and serum concentration. The G₁ length increases during exponential growth as a function of density while S and G₂+ M are relatively constant. Further, this increase in G₁ phase time, or density mediated negative regulation, is inhibited by increasing serum concentration. This phenotype is saturable between 10% to 20% serum. Serum concentrations above 2.5% are able to increase the rate of cell cycling (decrease the G₁ phase time) by inhibiting density dependent negative regulation of NIH 3T3.     

Survival of 3T3 cells expressing or co-expressing bFGF and/or IGF-I and/or IGF-II in low serum and serum free media

The aim of this study was to improve the survival ofNIH3T3 cells in low serum or serum-free media by theendogenous expression of recombinant bFGF (basicfibroblast growth factor) and/or IGF (insulin-likegrowth factor) -I and II. Expression was detected byWestern blotting, and the growth characteristics ofdifferent transfected cell lines investigated in bothserum-free and low serum conditions and also in softagar. Morphological changes and the growth rate werecompared with growth in normal serum-containingmedium. The experimental data suggested that theexpression of either bFGF alone, or the co-expressionof bFGF and either IGF-I or II could improve thesurvival of NIH3T3 cells in low serum or serum-freemedia. The use of such lines could decrease the use ofserum in cell culture and thus both reduce the costsinvolved in this technique and simplify thedown-stream purification procedure in protein harvest.Hence, such lines may be of value in both experimentaland industrial applications.     

Oxygen uptake and citric acid production by Candida lipolytica Y 1095

The rates of oxygen uptake and oxygen transfer during cell growth and citric acid production by Candida lipolytica Y 1095 were determined. The maximum cell growth rate, 1.43 g cell/L . h, and volumetric oxygen uptake rate, 343 mg O(2)/L . h, occurred approximately 21 to 22 h after inoculation. At the time of maximum oxygen uptake, the biomass concentration was 1.3% w/v and the specific oxygen uptake rate was slightly greater than 26 mg O(2)/g cell . h. The specific oxygen uptake rate decreased to approximately 3 mg O(2)/g cell . h by the end of the growth phase.During citric acid production, as the concentration of dissolved oxygen was increased from 20% to 80% saturation, the specific oxygen uptake and specific citric acid productivity (mg citric acid/g cell . h) increased by 160% and 71%, respectively, at a biomass concentration of 3% w/v. At a biomass concentration of 5% w/v, the specific oxygen uptake and specific citric acid productivity increased by 230% and 82%, respectively, over the same range of dissolved oxygen concentrations.The effect of dissolved oxygen on citric acid yields and productivities was also determined. Citric acid yields appeared to be independent of dissolved oxygen concentration during the initial production phase; however, volumetric productivity (g citric acid/L . h) increased sharply with an increase in dissolved oxygen. During the second or subsequent production phase, citric acid yields increased by approximately 50%, but productivities decreased by roughly the same percentage due to a loss of cell viability under prolonged nitrogen-deficient conditions. (c) 1994 John Wiley & Sons, Inc.     

Isolation and characterization of NIH 3T3 cells expressing polyomavirus small T antigen.

The polyomavirus small T-antigen gene, together with the polyomavirus promoter, was inserted into a retrovirus vector pGV16 which contains the Moloney sarcoma virus long terminal repeat and neomycin resistance gene driven by the simian virus 40 promoter. This expression vector, pGVST, was packaged into retrovirus particles by transfection of psi 2 cells which harbor packaging-defective murine retrovirus genome. NIH 3T3 cells were infected by this replication-defective retrovirus containing pGVST. Of the 15 G418-resistant cell clones, 8 express small T antigen at various levels as revealed by immunoprecipitation. A cellular protein with an apparent molecular weight of about 32,000 coprecipitates with small T antigen. Immunofluorescent staining shows that small T antigen is mainly present in the nuclei. Morphologically, cells expressing small T antigen are indistinguishable from parental NIH 3T3 cells and have a microfilament pattern similar to that in parental NIH 3T3 cells. Cells expressing small T antigen form a flat monolayer but continue to grow beyond the saturation density observed for parental NIH 3T3 cells and eventually come off the culture plate as a result of overconfluency. There is some correlation between the level of expression of small T antigen and the growth rate of the cells. Small T-antigen-expressing cells form small colonies in soft agar. However, the proportion of cells which form these small colonies is rather small. A clone of these cells tested did not form tumors in nude mice within 3 months after inoculation of 10(6) cells per animal. Thus, present studies establish that the small T antigen of polyomavirus is a second nucleus-localized transforming gene product of the virus (the first one being large T antigen) and by itself has a function which is to stimulate the growth of NIH 3T3 cells beyond their saturation density in monolayer culture.     

Production of novel polyphosphoinositides in vivo is linked to cell transformation by polyomavirus middle T antigen.

Phosphatidylinositol 3-kinase associates with the polyomavirus middle T antigen (PyMTAg)-pp60c-src complex in polyomavirus-transformed cells. Here we show that anti-PyMTAg immunoprecipitates from PyMTAg-transformed NIH 3T3 cells have lipid kinase activities that phosphorylate phosphatidylinositol, phosphatidylinositol-4-bisphosphate, and phosphatidylinositol-4,5-bisphosphate at the D-3 position of the inositol ring to produce three new polyphosphoinositides: phosphatidylinositol-3-phosphate (PI-3-P), phosphatidylinositol-3,4-bisphosphate (PI-3,4-P2), and phosphatidylinositol trisphosphate (PIP3), respectively. PI-3-P was detected in intact parental and PyMTAg-transformed NIH 3T3 fibroblasts at both low and high cell densities. However, parental NIH 3T3 fibroblasts produced no detectable PI-3,4-P2 or PIP3 at high density. In contrast, growing, subconfluent cells and wild-type PyMTAg-transformed cells at high density had greatly enhanced incorporation of [3H]-inositol into these highly phosphorylated lipids. Cells transfected with a transformation-defective mutant of PyMTAg had undetectable levels of PI-3,4-P2 and PIP3 at high density. Thus, the synthesis of novel polyphosphoinositides by lipid kinase activity associated with PyMTAg correlates with cell growth and transformation.     

Construction of antibody/insulin receptor chimera for growth induction of mammalian cells

The insulin receptor (IR) is expressed ubiquitously in various tissues, where insulin exerts various biological effects on the target cells, such as cellular metabolic changes, cell proliferation and differentiation. Therefore, mimicry of insulin signaling would be a promising strategy to realize artificial control of such cellular fates. In this study, we constructed an antibody/insulin receptor chimera that enables to utilize any antigen as the ligand in principle. We constructed chimeric receptors consisting of anti-fluorescein single chain Fv (scFv), the extracellular D2 domain of erythropoietin receptor and the transmembrane/intracellular domains of IR (scFv-IR; S-IR). The function of S-IR was evaluated in terms of growth signal transduction in murine pro-B Ba/F3 cells and murine fibroblast NIH/3T3 cells. S-IR exerted IL-3-independent cell growth in Ba/F3 cells, while NIH/3T3 cells expressing S-IR acquired growth advantage over parental NIH/3T3 cells in a low-serum condition. S-IR induced phosphorylation of S-IR itself and key signaling molecules downstream of IR. Although antigen-independent activation was significantly observed, S-IR enabled specific amplification of the gene-transduced cells.     

Expression of retrovirus-related, cytotoxic T lymphocyte- and transplantation-defined antigens in NIH/3T3 transfectants after a single passage in nude mice

Transfection of T24c-Ha-ras oncogene into NIH/3T3 fibroblasts resulted in the establishment of a transformed cell line (pT) that was tumorigenic when injected s.c. both into Swiss outbred nude mice and normal NIH inbred mice. The passage into nude mice, however, led to the development of a tumor variant (pT-nude) able to subsequently grow into sublethally x-irradiated but not into immunocompetent NIH mice. NIH mice immunized with this tumor variant developed a strong specific CTL response against the immunizing cell line, whereas the parental transformed pT cell line was not lysed. Clones were derived by limiting dilution from anti-pT-nude bulk population and were tested on a panel of transformed NIH/3T3 lines before and after their growth as tumor into nude mice. All of these lines were lysed by the Lyt-2+ CTL clones as a sole consequence of one in vivo passage into nude mice. The cross-reactive Ag were shown to be related to endogenous retroviral products as assessed by 1) immunoprecipitations of gp70, p15E, and p30 viral proteins in the nude variants but not in parental lines, and 2) by the ability of retroviruses from irradiated pT-nude cells to infect NIH/3T3 or pT lines making them susceptible to lysis by anti-pT-nude CTL clones. These results show that a single passage in nude mice can induce retrovirus-related, cell-surface Ag in transplanted neoplastic cells.     

NIH 3T3 cells transfected with a yeast H+-ATPase have altered sensitivity to insulin,insulin growth factor-I,and platelet-derived growth factor-AA

The role of intracellular pH (pHⁱⁿ) in the regulation of cell growth in both normal and transformed cells is a topic of considerable controversy. In an effort to study this relationship NIH 3T3 cells were stably transfected with the gene for the yeast H⁺-ATPase, constitutively elevating their pHⁱⁿ. The resulting cell line, RN1a, has a transformed phenotype: The cells are serum independent for growth, clone in soft agar, and form tumors in nude mice. In the present study, we further characterize this system in order to understand how transfection with this proton pump leads to serum-independent growth, using defined media to investigate the effects of specific growth factors on the transfected and parental NIH 3T3 cells. While both cell lines show similar growth increases in response to platelet-derived growth factor (PDGF)-BB and epidermal growth factor (EGF), they respond differently to insulin, insulin-like growth factor-I (IGF-I) and PDGF-AA. RN1a cells exhibit increased growth at nanomolar concentrations of insulin but the parental cells had only a relatively minor response to insulin at 10 μM. Both cell lines showed some response to IGF-I in the nanomolar range but the response of RN1a cells was much larger. Differences in insulin and IGF-I receptor number alone could not explain these results. The two cell lines also respond differently to PDGF-AA. RN1a cells are relatively insensitive to stimulation by PDGF-AA and express fewer PDGF α receptors as shown by Northern blots and receptor-binding studies. We propose a unifying hypothesis in which the H⁺-ATPase activates a downstream element in the PDGF-AA signal transduction pathway that complements insulin and IGF-I signals, while leading to downregulation of the PDGF α receptor. © 1994 wiley-Liss, Inc.     

Identification of a PDGF-like mitoattractant produced by NIH/3T3 cells after transformation with SV40

It has previously been shown that fibroblastic cells transformed by SV40 exhibit a reduced requirement for PDGF for growth. In addition, NIH/3T3 cells lose both their chemotactic response to PDGF and specific cell surface binding of PDGF after transformation with SV40. We have now examined whether the SV40 transformed NIH/3T3 cells are producing a factor which acts similarly to PDGF. Our studies indicate that NIH/3T3 cells transformed with SV 40 produce a factor which shares many biological properties with PDGF. We were unable to detect this activity in conditioned media from nontransformed NIH/3T3 cells. The SV40/NIH/3T3 derived factor appears to possess both chemotactic and mitogenic activity for connective tissue cells but not endothelial or epithelial cells. Furthermore, in preliminary studies, this activity competes with 125I-PDGF for binding to smooth muscle cells. The biochemical properties of the SV40/NIH/3T3 derived factor are different from those of PDGF. The SV40 activity appears to reside in a heat labile acidic protein (pI less than 7.0) of MW less than 30,000 whereas PDGF is a heat stable basic protein (pI9.8) of 30,000 MW. Production of this factor may play a role in the decreased serum requirement for cell replication exhibited by SV40-transformed NIH/3T3 cells by supplying the cells with their own PDGF-like growth factor.