Cell transformation as aberrant differentiation：Environmentally dependent spontaneous transformation of NIH 3T3 cells

NIH 3T3 cells, a mouse fibroblast cell line used as routine target cells for transfection experiments, undergo spontaneous transformation in our experiments after they form a confluent sheet in medium containing fetal bovine serum (FBS) or lower coneentration of calf serum (CS). The transformation takes the form of foci of multiplying cells among the surrounding cells which have stopped cell division. However, no focus of transformed cells could be seen in medium containing high concentration (10％) of CS. Further experiments indicated that the frequency of transformation is highly dependent on the concentration of serum and the transformation in CS is changeable when the cells are passaged in FBS. 3~H-thymidine autoradiography has been proved to be a sensitive measurement indicator for focus formation. Our results suggest that the high frequency of transformation and its dependence on confluency as well as on medium composition are characteristics of cell differentiation rather than mutation. The role of the NIH 3T3 cell line as a cancer-initiated cell population and its accelerated transformation by ras oncogene might be considered as a form of tumor promotion is discussed.     

Galectin-3 mRNA level depends on transformation phenotype in ras-transformed NIH 3T3 cells

Summary— The increase in galectin-3 lectin content observed in tumours or in in vitro transformed cells suggests that this lectin is important in the transformation process. In the present study, we investigated the mRNA expression level of the galectin-3, galectin-I and macrophage mannose receptor in normal and ras-transformed NIH 3T3 cells in relation to their transformation state. The galectin3 mRNA content in ras-transformed cells is increased in fully transformed cells, with a maximum in ras-transformed cells that have lost their growth anchorage-dependence. Under the same conditions, the galectin-1 mRNA level which was high in normal cells, increased slightly in transformed cells. The mRNA for the macrophage mannose receptor was not detected in 3T3 cells or in their ras-transformed counterparts.     

Transformation of NIH 3T3 cells by enhanced PAR expression

Prostate androgen regulated (PAR) is a 1038bp novel gene located on chromosome 1 in epidermal differentiation complex. The gene is ubiquitously expressed in normal tissues and is overexpressed in most of their malignant counterparts. PAR cellular function is unknown. Here we report the effect of increased PAR expression induced by transfection of PAR cDNA on NIH3T3 cell phenotype. PAR-NIH3T3 transfectants expressing 3- to 4-fold higher PAR levels compared to controls grew faster in tissue cultures, formed colonies in soft agar, and exhibited a shortening of G1 and S phases of cell cycle and formed tumors in SCID mice. Transfection of NIH3T3 cells with increased ectopic PAR expression with a 22 mer oligonucleotide in antisense orientation with PAR mRNA abrogated their ability to form colonies in soft agar. The data presented here along with our previously reported results on DU145 cells transfected with antisense PAR cDNA suggest that PAR gene behaves like a proto-oncogene.     

AFM对3T3-L1前脂细胞及其骨架的可视化研究

目的:为脂肪细胞分化提供数据,加深对3T3-L1细胞分化机制的了解.方法:应用AFM对3T3-L1前脂细胞的形貌、超微结构、机械性能和细胞骨架进行了可视化研究.结果:3T3-L1细胞舒展,伪足丰富,膜表面有大小不一的斑块和突起.通过统计分析得出3T3-L1细胞的高低差,均方根粗糙度、平均粗糙度和平均高度分别为622.3nm、77.34nm、55.80nm、393.1nm;AFM针尖与细胞膜表面的相对粘弹力为95.10±19.41pN,平均硬度为2.36±0.39mN/m,杨氏模量为4.85±0.99kPa.AFM对3T3-L1细胞骨架成像,观察到骨架南排列整齐的大纤维束和细小的微纤维以及颗粒状蛋白组成,形成网络结构.结论:细胞形貌结合细胞的机械性能可知3T3-L1细胞生长状态良好,细胞的移动迁移能力强.     

Tissue inhibitor of metalloproteinase-1 promotes NIH3T3 fibroblast proliferation by activating p-Akt and cell cycle progression

Tissue inhibitor of metalloproteinase-1 (TIMP-1) plays various roles in cell growth in different cell types. However, few studies have focused on TIMP-1’s effect on fibroblast cells. In this study, we investigated the effects of TIMP-1 overexpression on NIH3T3 fibroblast proliferation and potential transduction signaling pathways involved. Overexpression of TIMP-1, by transfection of the pLenti6/V5-DESTTIMP-1 plasmid, significantly promoted NIH3T3 proliferation as determined by the BrdU array. Neither 5 nor 15 nM GM6001 (matrix metalloproteinase system inhibitor) affected NIH3T3 proliferation, but 45 nM GM6001 inhibited proliferation. TIMP-1 overexpression activated the p-Akt pathway, but not the p-ERK or p-p38 pathway. In TIMP-1-transfected cells, cyclinD1 was upregulated and p21CIP1 and p27^KIP1 were downregulated, which promoted cell entry into the S and G2/M phases. The PI3-K inhibitor LY294002 abolished the TIMP-1-induced effects. Overexpression of intracellular TIMP-1 stimulated NIH3T3 fibroblast proliferation in a matrix metalloproteinase (MMP)-independent manner by activating the p-Akt pathway and related cell cycle progression.     

Aspects of cellular physiology that influence DNA-mediated gene transfer in NIH3T3 cells

Cellular physiology has a significant influence on the efficiency of various gene transfer procedures, as shown by the fact that transfection efficiency varies dramatically among different cell lines. However, the aspects of cellular physiology which influence the transfection process remain substantially uncharacterized. In this study, NIH3T3 cells were treated with inhibitors of protein synthesis, DNA synthesis, and RNA synthesis to determine the importance of these processes in the calcium-phosphate transfection process. The results suggest that protein synthesis during the first 4 h after DNA addition enhances transfection. In contrast, inhibition of RNA synthesis has no effect on transfection during the first 24 h post-DNA addition. The DNA synthesis inhibitor results remain inconclusive due to a secondary inhibition of an unknown cellular factor. Secondly, agents that destabilize microtubules, microfilaments, and the golgi apparatus were used to determine whether these elements play a role in the transfection process. The results suggest that microtubules are not involved in the transfection process, microfilaments are important but not necessary for the transfection process, and a functional golgi apparatus is essential early in the transfection process. These studies provide a foundation from which further investigations into the cellular processes involved in the uptake and expression of exogenous DNA can proceed.     

Transformed phenotype conferred to NIH/3T3 cells by ectopic expression of heparin-binding growth factor 1/acidic fibroblast growth factor

Summary Heparin-binding growth factor 1 (HBGF-1), also known as acidic fibroblast growth factor, is a potent mitogen and angiogenic factor found in tissues such as brain, kidney and heart. The genomic and cDNA sequences indicate that HBGF-1 does not have a typical signal peptide sequence. HBGF-1 was shown to be localized to the extracellular matrix of cardiac myocytes, but the mechanism of secretion is not presently known. We have cloned the HBGF-1 cDNA which allowed us to directly test the biological activity, mechanism of secretion and transforming potential of the recombinant protein. A previous report showed that the truncated HBGF-1 confers partial transformed phenotype to the recipient fibroblasts. However, expression of full-length HBGF-1 has not been reported. The HBGF-1 coding sequence was cloned into the retroviral expression vector, SVX, and transfected into NIH/3T3 cells. Transfectants expressing full-length HBGF-1 protein at high levels form foci and grow to a higher cell density than the parental NIH/3T3 cells. Western blotting analysis showed that the recombinant HBGF-1 is a unique band of approximately 20 kDa and can be detected in the cell homogenate but not in the conditioned medium. NIH/3T3 cells were conferred anchorage independence when HBGF-1 was provided exogenously. We showed the transformed cells are capable of growing on soft agar even in the absence of exogenously-provided HBGF-1. Transfected cells expressing HBGF-1 also induced tumor formation when injected into nude mice. Thus, NIH/3T3 cells acquired a full spectrum of transformed phenotype when full length HBGF-1 was expressed at high levels. This work was supported by grants from the National Cancer Institute (RO1 CA45611), The March of Dimes Birth Defects Foundation (No. 6-549) and The Ohio Cancer Research Associates, Inc. I.-M.C. is a recipient of The Research Career Development Award (KO4 CA01369) from the National Institutes of Health.     

逆转录病毒载体介导的LacZ基因在NIH-3T3细胞中的稳定表达

精原干细胞(SSCs)介导的转基因技术很可能成为制作转基因动物及治疗雄性不育的一条新途径。为了研究逆转录病毒载体介导法转染体外培养SSCs的可行性,用脂质体介导法将携带LacZ基因的重组逆转录病毒载体pLNCL导入包装细胞PA317,用含G418的培养液筛选得到5株稳定转染的产毒细胞。收集这些克隆的产毒上清,过滤后进行倍比稀释,用NIH-3T3细胞通过X-gal染色测定其浓缩前病毒滴度。结果显示,PA3173培养上清中病毒的浓缩前滴度最高,达1.1×103CFU/mL。再将筛选到的稳定转染的NIH-3T3细胞培养至单层,进行X-gal染色检测β-半乳糖苷酶的表达。结果显示,大多数稳定转染的NIH-3T3细胞均为X-gal ,表明这些细胞成功表达了目的基因LacZ。本研究结果为后期工作中用该载体感染体外培养SSCs奠定了基础。     

慢病毒介导的小鼠PINK1基因RNAi载体的构建及在NIH3T3细胞中的筛选

目的:构建筛选靶向特异PINK1-siRNA慢病毒表达载体,感染小鼠胚胎细胞(NIH3T3)验证该病毒载体的敲减效率,为研究帕金森病的发病机制奠定基础。方法:构建2对靶向小鼠PINK1-siRNA序列(KD1和KD2),将这2对序列连接在GV118上,将重组载体和病毒包装的辅助质粒共转染293 T细胞,获得慢病毒颗粒,再将该病毒颗粒转染入NIH3T3细胞,用qRT-PCR验证细胞内PINK1 mRNA表达水平以验证敲减效果。结果:筛选出可以用于后续实验的高效靶向KD2序列,并成功转染到小鼠NIH3T3细胞中,在感染复数(MOI)为50时,KD2的沉默效果最好,敲减率达到66.4%。结论:成功构建了高效靶向小鼠PINK1-siRNA慢病毒载体,其可稳定转染小鼠NIH3T3细胞,可高效抑制PINK1 mRNA的表达。为下一步利用其感染神经细胞或注入动物脑内,进一步研究PINK1基因在帕金森病发病过程中的作用环节和机制提供了分子生物学的技术基础。     

pcDNA3.1/myc-His-DJ-1^M26I重组载体构建及其对NIH3T3细胞增殖和凋亡研究

目的构建pcDNA3.1/myc-His-DJ-1和pcDNA3.1/myc-His-DJ-1M26I重组表达载体,为研究DJ-1M26I突变与细胞增殖、凋亡的关系及建立转基因动物模型奠定基础。方法采用突变试剂盒将DJ-1蛋白第26位氨基酸进行突变,分别构建pcDNA3.1/myc-His-DJ-1和pcDNA3.1/myc-His-DJ-1M26I重组表达载体,并采用脂质体介导的方法分别将其转染入NIH3T3细胞,500μg/mL G418压力筛选稳定克隆,对2种转染细胞在DNA水平、RNA水平和蛋白质水平进行鉴定,采用MTT染色方法和AnnexinV-FITC试剂盒进行转染阳性克隆细胞的细胞活力与细胞凋亡检测。结果 pcDNA3.1/myc-His-DJ-1和pcDNA3.1/myc-His-DJ-1M26I重组质粒转染NIH3T3细胞经G418筛选后,PCR方法检测分别获得1个和3个阳性细胞克隆,RT-PCR及western blot方法进行DJ-1-His基因表达检测,结果均证明外源插入基因的表达,MTT实验结果初步证明转染DJ-1M26I基因的NIH3T3阳性细胞组细胞增殖速率低于正常NIH3T3细胞组（P〈0.05）,转染DJ-1基因的NIH3T3阳性细胞组细胞增殖速率与正常NIH3T3细胞相比无明显差别;细胞凋亡检测表明转染DJ-1M26I基因的NIH3T3阳性细胞组细胞凋亡率高于正常NIH3T3细胞,转染DJ-1基因的NIH3T3阳性细胞组细胞凋亡率低于正常NIH3T3细胞（P〈0.05）。结论成功构建pcDNA3.1/myc-His-DJ-1和pcDNA3.1/myc-His-DJ-1 M26I重组表达载体,成功筛选出稳定表达人DJ-1及DJ-1 M26I的NIH3T3细胞。DJ-1 M26I基因突变更易导致NIH3T3细胞的凋亡。     

The effect of 3-(5-nitro-2-thienyl)-9-chloro-5-morpholin-4-yl[1,2,4]triazolo[4,3-c]quinazoline on cell growth, cell cycle, induction of DNA fragmentation, and activity of caspase 3 in murine leukemia L1210 cells and fibroblast NIH-3T3 cells

Quinazolines are multitarget agents, which have broad spectrum of biological activity, and some of them are now in cancer clinical testing. 3-(5-nitro-2-thienyl)-9-chloro-5-morpholin-4-yl[1,2,4]triazolo[4,3-c]quinazoline is a new synthetically prepared derivative, which in our previous study showed cytotoxic effects on cancer cell lines HeLa and B16. Quinazoline, at micromolar concentrations, induced morphological changes and necrosis of B16 cells, and at nanomolar concentrations it produced changes of F-actin cytoskeleton. It did not cause changes in the cell cycle, did not induce apoptotic cell death in B16 cells, did not have a mutagenic effect, and did not even behave as a typical intercalating agent. Little significant reduction of tumor volume in intramuscular transplanted B16 cells was observed. The aim of the present study was to examine the cytotoxic effect of 3-(5-nitro-2-thienyl)-9-chloro-5-morpholin-4-yl[1,2,4]triazolo[4,3-c]quinazoline on murine leukemia L1210 cells and fibroblast NIH-3T3 cells. Induction of cell morphology and cell cycle changes, induction of apoptosis and caspase 3 activity were studied. Quinazoline acted cytotoxically on both cell lines. The sensitivity of leukemia L1210 cells to the quinazoline was higher than that of fibroblast NIH-3T3. The IC(100) was 12 microM for L1210 cells and 24 microM for NIH-3T3 cells. No effect of quinazoline on the cell cycle profile of L1210 and NIH-3T3 was detected, however, quinazoline induced an increase of the sub-G(0) cell fraction, apoptotic DNA fragmentation, and apoptotic morphological changes at a concentration of 12 microM. This quinazoline concentration induced caspase 3 activity. Our results demonstrated that induction of apoptotic cell death via activation of caspase 3 contributed to the cytotoxic effects of 3-(5-nitro-2-thienyl)-9-chloro-5-morpholin-4-yl[1,2,4]triazolo[4,3-c]quinazoline in murine leukemia L1210 cells.     

Differential expression of murine CGI-105 gene in 3T3-L1 cells by adrenocorticotropic hormones

The effects of adrenocorticotropic hormones on murine CGI-105 gene expression were investigated in 3T3-L1 cells. Expression was markedly increased in differentiated cells and it was up-regulated 2-fold in cells induced to differentiate with dexamethasone.     

Simulated microgravity influences circadian rhythm of NIH3T3 cells

Gravity heavily influences living organisms on earth including their circadian rhythm, which is fundamentally important for coordinately physiology in organisms as diverse as cyanobacteria, fungus and humans. Numerous researches have revealed that microgravity in outer space can affect circadian rhythm of astronauts and rodent animals, but the mechanism remains unknown. Using rotary cell culture system to simulate microgravity environment, we investigated the role of simulated microgravity in regulating the circadian rhythm of NIH3T3 cells. Our experiments found that simulated microgravity can not only influence the mRNA level of some core circadian genes, but also modify the circadian rhythm of Per1 and Per2 synchronized after phorbol myristate acetate treatment. Remarkably, MEK/ERK pathway was transiently activated after a 2-h simulated microgravity treatment, with a significant upregulation of Kras, Raf1 and p-ERK1/ERK2. Moreover, U0126, a selective inhibitor of MEK/ERK pathway, could disrupt the circadian rhythm of Per1 and Per2 synchronized after simulated microgravity treatment. Together, our results unveil that simulated microgravity could act like a zeitgeber to influence the circadian rhythm of NIH3T3 by acting on MEK/ERK pathway, indicating that MEK/ERK pathway may act as a bridge which connects cells mechanotransduction pathway and circadian rhythm regulation.     

Comparative study of a new composite biomaterial fluor-hydroxyapatite on fibroblast cell line NIH-3T3 by direct test

The number of biomaterials used in biomedical applications has rapidly increased in the past two decades. Fluorapatite (FA) is one of the inorganic constituents of bone or teeth used for hard tissue repairs and replacements. Fluor-hydroxyapatite (FHA) is a new synthetically prepared composite that in its structure contains the same molecular concentration of OH⁻ groups and F⁻ ions. The aim of this experimental investigation was to use the embryonal mouse fibroblast cell line NIH-3T3 for comparative study of basal cytotoxicity of fluoridated biomaterials FHA and FA discs. Hydroxyapatite (HA) disc, high-density polyethylene as negative control and polyvinyl chloride (PVC) containing organotin stabilizer as positive control were used as standard biomaterials. The appropriateness of the use of NIH-3T3 cells and their sensitivity for tested biomaterials were evaluated on the basis of five cytotoxic end points: cell proliferation, cell morphology, lactate dehydrogenase (LDH) released, protein and DNA cell content. The basal cytotoxicity of FHA, FA and HA discs was measured by direct contact method. FHA composite, FA and HA demonstrated in cell line NIH-3T3 nearly similar basal cytotoxicity increasing with the time of treatment. After 72 h of biomaterials treatment, about 25% inhibition of cell number, unchanged morphology of dividing cells, 6.31–0.16% increase of released LDH, about 10% inhibition of cell protein content and about 20% inhibition of DNA content was found. On the other hand, from the growth rates it resulted that NIH-3T3 cells, affected by tested biomaterials, divided about 20% slowlier than the control (untreated cells). Using the linear regression analysis we found out that deviations in measurements of cytotoxicity by four methods were as follows: less than 10% for cell number, protein and DNA content methods and 12.4% for released LDH method. Based on a good correlation of the cytotoxicity of biomaterials obtained from all end points we could conclude that fibroblast NIH-3T3 cell line was appropriate for measuring the basal cytoxicity of tested biomaterials.     

Generation of megakaryocytes and platelets from preadipocyte cell line 3T3-L1, but not the parent cell line 3T3, in vitro

Platelets are produced from megakaryocytes (MKs), although the pathway leading from stem cells to MK lineages are not yet fully understood. Recently, we reported to obtain abundant MKs and platelets from human subcutaneous adipose tissues. Adipose tissues contain various cell types, most of which are lineage cells from mesenchymal or adipocyte-derived stem cells, distinct from hematopoietic cells. To identify the cells responsible for the differentiation MK lineages in adipose tissues, this study examined whether the preadipocyte cell line 3T3-L1 and fibroblast cell line 3T3 differentiated into MK lineages in vitro. Cells were cultured in megakaryocyte lineage induction medium. By day 4, most of 3T3 cell-derived cells leaded to cell death. In contrast, 3T3-L1-derived cells on days 8 showed to have typical characterizations of MK lineages in analyses for specific marker, DNA ploidy, transmission electro micrograph. 3T3-L1-derived platelet-sized cells on day 12 could be stimulated by ADP and PAR4-activating peptide. This study clearly shows in vitro differentiation from 3T3-L1 cells, not from 3T3 cells, into MK lineages.     

Geranylgeranylated, but not farnesylated, RhoB suppresses Ras transformation of NIH-3T3 cells

RhoB is a low molecular weight GTPase that is both farnesylated (RhoB-F) and geranylgeranylated (RhoB-GG) in cells. Based on data from rodent cell models, it has been suggested that RhoB displays differential effects on cell transformation, according to the nature of its prenylation. To test directly this hypothesis, we generated GTPase-deficient RhoB mutants that are exclusively either farnesylated or geranylgeranylated. We show that in Ras-transformed murine NIH-3T3 cells, RhoB-F enhances, whereas RhoB-GG and RhoB (F/GG) suppresses anchorage-dependent and -independent cell growth as well as tumor growth in nude mice. We then demonstrate that Ras constitutive activation of the tumor survival pathways Akt and NF-kappa B are blocked by RhoB-GG, but not by RhoB-F, providing further support for the opposing role of RhoB-F and RhoB-GG in Ras malignant transformation in NIH-3T3 cells. In addition, both RhoB (F/GG) and RhoB-GG induce apoptosis in Ras-transformed NIH-3T3 cells whereas RhoB-F has no effect. Our data demonstrate that RhoB-F and RhoB-GG which differ only by a 5-carbon isoprene behave differently in rodent cells highlighting the important role of prenyl groups in protein function and emphasize the potency of RhoB to regulate negatively the oncogenic signal.     

Androgen-induced mineralization by MC3T3-E1 osteoblastic cells reveals a critical window of hormone responsiveness

Despite their clinical importance for skeletal growth and homeostasis, the actions of androgens on osteoblastic cells are not well understood. MC3T3-E1 cells, a nontransformed murine preosteoblastic cell line, that traverse the stages of osteoblastic differentiation within 30 days in vitro, were exposed to mibolerone (an androgen receptor (AR) agonist) or 5alpha-dihydroxytestosterone (DHT) from days 3 to 30 post-plating. Cells exposed to this hormonal regimen exhibited a significant increase in mineralization (calcium deposition) compared to vehicle-treated cells. Delaying treatment for 4-11 days (treatment still completed on day 30 post-plating) enhanced mineralization further. Within 2 days post-plating, AR protein increased 7.2-fold in androgen-treated cells and 2.5-fold in vehicle-treated cells. MC3T3-E1 cells transfected with an androgen- and glucocorticoid-responsive reporter construct on day 1 post-plating followed by a 2 day exposure to DHT, mibolerone, or dexamethasone (dex; a glucocorticoid receptor agonist) exhibited reporter gene activation only with dex treatment. In contrast, delaying transfection and treatment for at least 1 day resulted in comparable androgen- and dex-mediated reporter gene transactivation. Therefore, the ability of MC3T3-E1 cells to respond to androgens is dependent on the timing of androgen administration.     

MiR-185 inhibits 3T3-L1 cell differentiation by targeting SREBP-1

Adipogenesis involves a highly orchestrated series of complex events in which microRNAs (miRNAs) may play an essential role. In this study, we found that the miR-185 expression increased gradually during 3T3-L1 cells differentiation. To explore the role of miR-185 in adipogenesis, miRNA agomirs and antagomirs were used to perform miR-185 overexpression and knockdown, respectively. Overexpression of miR-185 dramatically reduced the mRNA expression of the adipogenic markers, PPARγ, FABP4, FAS, and LPL, and the protein level of PPARγ and FAS. MiR-185 overexpression also led to a notable reduction in lipid accumulation. In contrast, miR-185 inhibition promoted differentiation of 3T3-L1 cells. By target gene prediction and luciferase reporter assay, we demonstrated that sterol regulatory element binding protein 1 (SREBP-1) may be the target of miR-185. These results indicate that miR-185 negatively regulates the differentiation of 3T3-L1 cells by targeting SREBP-1, further highlighting the importance of miRNAs in adipogenesis.