Induction of cell cycle progression by adenovirus E1A gene 13S- and 12S-mRNA products in quiescent rat cells.

Rat 3Y1 cell lines that express either adenovirus type 12 E1A 13S mRNA or 12S mRNA in response to dexamethasone treatment were established by introduction of recombinant vector DNA containing the E1A 13S- or 12S-mRNA cDNA placed downstream of the hormone-inducible promoter of mouse mammary tumor virus. These cell lines were growth arrested, and the induction of cell cycle progression was analyzed by flow cytometry after switch on of the cDNA by the addition of dexamethasone. The results indicate that the 13S- or 12S-mRNA product alone has the ability to cause progression of the cell cycle at a similar rate. The simultaneous addition of epidermal growth factor accelerated the rate of cell cycle progression in the transition from the G0/G1 phase to the S phase.     

Mechanism of induction of cellular DNA synthesis by the adenovirus E1A 12S cDNA product

The mechanism of induction of DNA synthesis in quiescent rat 3Y1 cells by the adenovirus E1A gene was investigated using the 3Y1 derivative cell lines g12-21, gn12RB1, and gn12RB2. The g12-21 cells express the E1A 12S cDNA and the latter two cells express both the E1A 12S cDNA and the human retinoblastoma susceptibility (Rb) gene at different levels in response to dexamethasone (dex). The cDNA sequences of E1A-inducible cell cycle-dependent genes, clone 3 and clone 16, were isolated by differential screening of a cDNA library constructed from dex-treated g12-21 cells. The quiescent 3Y1 cells induced c-fos and c-myc expression within 2 h after serum stimulation and expressed clone 16 and clone 3 transiently at around 8 h before the onset of DNA synthesis (10 h). In contrast, the quiescent g12-21 cells treated with dex expressed a high level of E1A at 6 to 8 h after treatment and expressed clone 16 and clone 3 at around 8 h without stimulation of c-fos and c-myc expression, suggesting that E1A bypasses the cell cycle early in G1. The half-maximal rate of DNA synthesis was reached in a much shorter time in dex-treated g12-21 cells (12 h) than in serum-treated 3Y1 cells (18 h), suggesting that E1A also bypasses the cell cycle at the G1/S boundary. The gn12RB1 and gn12RB2 cells were unable to induce DNA synthesis in response to dex presumably due to lower levels of E1A expression, although gn12RB2 but not gn12RB1 cells could express clone 16 and clone 3. These results suggest that the level of E1A required for bypass at the G1/S boundary is higher than that required early in G1.     

Highly efficient focus formation by Rous sarcoma virus on adenovirus type 12 E1A-transformed rat 3Y1 cells.

When rat 3Y1 cells were infected with Rous sarcoma virus (RSV) variant SR-RSV-D(H), many 3Y1 cells acquired a stable provirus but only few of them formed transformed foci. In contrast, 12E1AY cells (3Y1 cells expressing the adenovirus type 12 [Ad12] E1A protein) formed transformed foci upon RSV infection with the same high frequency as did chicken embryo fibroblast cells. This enhancement of focus-forming efficiency was specifically observed in 3Y1 cells expressing Ad12 E1A protein but was not observed in 3Y1 cells expressing simian virus 40 T, c-myc, p53, c-fos, or v-fos protein. This enhancement was not evident in 5E1AY cells (3Y1 cells expressing the Ad5 E1A protein). Judging from the experiment using Ad12-Ad5 hybird E1A DNAs, the N-terminal half of the Ad12 E1A protein was responsible for this enhancement. The promoter activity of the RSV long terminal repeat measured by pLTR-CAT did not correlate to the efficiency of focus formation by RSV in these 3Y1 cells. Moreover, RSV containing the neo gene instead of the src gene produced G418-resistant cells equally efficiently among 3Y1, E1AY, and chicken embryo fibroblast cells. These results suggest that the enhancement of focus formation by RSV is not due to the increased expression of the src gene by the E1A protein. src mRNA and src protein were lower in RSV-transformed E1AY (RSVE1AY) cells than in RSV-transformed 3Y1 (RSV3Y1) cells. The phosphotyrosine-containing proteins were also less abundant in RSVE1AY cells than in RSV3Y1 cells, suggesting that E1AY cells require a lower threshold dose of p60v-src for transformation than do 3Y1 cells. E1AY cells were found to be more sensitive to lysis by detergents. The results suggest that the enhancement is due to changes in membrane structures in E1AY cells.     

Analysis of cellular expression of gangliosides by gene transfection. I: GD3 expression in myc-transfected and transformed 3Y1 correlates with anchorage-independent growth activity

Transfection of c-myc DNA into rat fibroblastic 3Y1 cell line resulted in the neosynthesis of GD3 ganglioside, as has been previously shown to occur after transfection of 3Y1 cells with adeno El (Nakakuma, H., Sanai, Y., Shiroki, K., and Nagai, Y. (1984) J. Biochem. 96, 1471-1480); in both cases, the products are expressed intranuclearly. Moreover, a clear correlation was identified between levels of GD3 expression and colony-forming activity (in soft agar) of myc-transformed 3Y1 cells, implying that GD3 plays some specific role in myc-induced transformation of 3Y1 cell line.     

Regulated expression system for GD3 synthase cDNA and induction of differentiation in Neuro2a cells

It was reported recently by our group that the transfectionof GD3 synthase cDNA into Neuro2a cells, a neuroblastoma cellline, caused cell differentiation with neurite sprouting (Kojimaet al, 1994; J. Biol Chem., 269, 30451–30456). To furtherexplore this phenomenon in detail, we applied tet-racycline-regulatedsystem to control the expression of GD3 synthase cDNA in Neuro2acells. Under this system, the process of Neuro2a cell differentiationwas rather slow, about 3 weeks of cell culturing in the absenceof tetracy-cline was required for most cells to extend the neurite-likestructures. The RNase protection assay indicated that the mRNAof GD3 synthase gene was first detected between 4 h and 8 hafter the gene was activated and kept at approximately the samelevel through the process. Furthermore, time-course analysisof total ganglioside expressions has shown that GD3 and GT1bgangliosides appeared on the cell surface early in the processand reached the maximum level around day 6. We also found thatthe amounts of GD3 and GT1b on the cell surface started to decreaseafter day 6 and returned gradually to the basal values after3 weeks. On the other hand, GQ1b and GD1b were started to besynthesized at early stage and the amounts were continuouslyto increase through the whole Neuro2a morphological change process.In addition, time-course analysis by flow cytometry method forGD3 and GQ1b suggested that the conversions of simple gangliosidesto more complex gangliosides may be required to induce the Neuro2adifferentiation. Our results indicated that the combinationof cDNA transfection and regulated gene expression is a powerfultool to study the function of glycolipids and should have ageneral application to the glycobiology field. Neuro2a GD3 synthase gene tetracycline regulated system ganglioside neurite-like structures     

Lytic and transforming functions of individual products of the adenovirus E1A gene.

To distinguish the individual roles of the 13S, 12S, and 9S adenovirus E1A gene products, we isolated the corresponding cDNA clones and recombined them into both plasmids and viruses. Only the expected E1A mRNA products were made from the corresponding 12S and 13S viruses. The 9S mRNA was detected when the 9S virus was coinfected with the 13S virus but not when either virus was infected alone. The 13S virus formed plaques equally well in 293 cells, HeLa cells, and A549 cells, a human lung oat cell carcinoma line. Plaque titers of the 12S virus were much reduced in HeLa and A549 cells compared with 293 cells, although the 12S virus is multiplicity-dependent leaky in both HeLa and A549 cells. A549 cells were significantly more permissive than HeLa cells for growth of the 12S virus. In A549 cells even at low multiplicities of infection the final yield of 12S virus eventually approached the maximum yield from 293 cells. Expression from the adenovirus early region 2 and early region 3 promoters in HeLa cells was activated in the presence of a 13S cDNA E1A region but not in the presence of a 12S E1A cDNA region. Although defective for lytic growth in HeLa cells, the 12S virus immortalized BRK cells at very high efficiency, whereas infection of these cells with 13S virus, as with wild-type E1A virus, resulted mainly in cell death. The 13S product does have an immortalization function, however, revealed in the absence of adenovirus lytic functions when a plasmid containing the E1A 13S cDNA region was transfected into BRK cells. The 9S virus failed to immortalize infected BRK cells or to interfere with focus formation when coinfected with the 12S virus.     

Influence of the deprivation of a single amino acid on cellular proliferation and survival in rat 3Y1 fibroblasts and their derivatives transformed by a wide variety of agents

We compared proliferation and survival of various syngeneic transformed cell lines under conditions of depletion of 15 amino acids in Dulbecco-Eagle's medium. We used a normal fibroblast line 3Y1 and 22 transformed sublines of 3Y1 which had been induced by one of seven transforming agents--simian virus 40, mouse polyomavirus, adenovirus type 12, E1A gene of adenovirus type 12, cDNA of Harvey murine sarcoma virus, Rous sarcoma virus, or N-methyl-N'-nitro-N-nitrosoguanidine. Unlike other untransformed cells examined (mouse BALB/c-3T3 line, mouse NIH-3T3 line, and primary Fischer rat embryo fibroblasts), 3Y1 ceased to proliferate and accumulated in a viable state with a G1-phase DNA content under 14 singular deprivations of amino acid. None of the transformed 3Y1 lines completely arrested in the G1 phase of the cell cycle and each showed different levels of survival, depending on each transforming agent. As for transformed 3Y1 cells induced by a given virus or a given transforming gene, any one of the three sublines shared the same trend with respect to proliferation and survival. Transformed derivatives induced by N-methyl-N'-nitro-N-nitrosoguanidine showed almost the same trend in proliferation, but the patterns of survival were not uniform. Our observations suggest that the unique responses of 3Y1 to amino acid depletion are differently modified by different transforming agents.     

GD3 synthase gene expression in PC12 cells results in the continuous activation of TrkA and ERK1/2 and enhanced proliferation

A rat pheochromocytoma cell line (PC12) transfected with ganglioside GD3 synthase gene showed a marked change in the ganglioside profile and enhanced proliferation and no response of neurite extension to nerve growth factor (NGF) stimulation. In these transfectant cells, a continuous phosphorylation of TrkA and the activation of ERK1/2 without NGF treatment were observed. Proliferation inhibition experiments with kinase inhibitors such as herbimycin A, K-252a, and PD98059 revealed that the enhanced proliferation was actually due to the activation of the Ras/MEK/ERK pathway. A TrkA dimer was detected in the GD3 synthase transfectant cells regardless of NGF treatment by cross-linking and immunoblotting. The increased expression of GD1b and GT1b in these transfectant cells might induce the conformational change of TrkA to form a dimer and to be activated continuously. These results may indicate regulatory roles of gangliosides in cell proliferation under physiological and malignant processes.     

神经节苷脂GD3与肿瘤的血管生成作用(英文)

 血管生成作用 (angiogenesis)是实体瘤 (solidtumor)生长和扩散的必要条件 .实体瘤的微血管密度与肿瘤的恶性程度成正相关 ,而且也与病人的预后密切相关 .因此 ,对抗血管生成作用是一种很有吸引力的肿瘤疗法 .神经节苷脂GD3在多种类型的肿瘤中超常表达 .一般认为 ,神经节苷脂GD3有增强肿瘤本身及邻近组织中的血管生成作用 ,从而促进肿瘤的演进和转移 .最近的研究工作为这一假设提供了有力的实验证据 .应用GD3合酶的反意DNA转染肿瘤细胞从而抑制细胞中的GD3合酶的表达 ,极大地降低了细胞的内源GD3含量 .进一步的研究证明 ,抑制肿瘤细胞的GD3合成明显地降低了该肿瘤细胞的血管内皮生长因子 (VEGF)的水平 ,并使血管生成作用降至最小限度 .这些实验说明GD3在肿瘤的血管生成中具有重要的作用 .此外 ,GD3作为肿瘤的一种相关抗原 ,它与血管生成因子的协同效应将在未来的联合基因疗法中起到重要的作用     

Gene-linked shift in ganglioside distribution influences growth and vascularity in a mouse astrocytoma

Brain tumor growth and progression is dependent upon vascularity, and is associated with altered ganglioside composition and distribution. In this study, we examined the influence of gangliosides on growth and vascularity in a malignant mouse astrocytoma, CT-2A. Ganglioside distribution was altered in CT-2A tumor cells using an antisense construct to beta-1,4-N-acetylgalactosaminyltransferase (GalNAc-T), a key enzyme that uses the simple ganglioside GM3 as a substrate for the synthesis of the more complex gangliosides, GM2, GM1 and GD1a. GalNAc-T gene expression was significantly lower in CT-2A cells stably transfected with the antisense GalNAc-T plasmid, pcDNA3.1/TNG (CT-2A/TNG) than in either non-transfected CT-2A or mock-transfected (CT-2A/V) control tumor cells. GM3 was elevated from 16% to 58% of the total ganglioside distribution, whereas GM1 and GD1a were reduced from 17% and 49% to 10% and 17%, respectively, in CT-2A/TNG tumor cells. Growth, vascularity (blood vessel density and Matrigel assay) and vascular endothelial growth factor (VEGF) expression was significantly less in CT-2A/TNG tumors than in control CT-2A brain tumors. In addition, the expression of VEGF, hypoxia-inducible factor 1alpha (HIF-1alpha) and neuropilin-1 (NP-1) was significantly lower in CT-2A/TNG tumor cells than in control CT-2A tumor cells. These data suggest that gene-linked changes in ganglioside composition influence the growth and angiogenic properties of the CT-2A astrocytoma.     

The analysis of gene-regulatory mechanism of ganglioside metabolism by gene transfection

To investigate the genetic control on ganglioside metabolism, various oncogenes were directly transfected to rat 3Y1 cells, and the subsequent alteration in the ganglioside pattern was analysed. So-called "intranuclear" type oncogenes, the products of which are mainly expressed intranuclearly, ex. adeno E1 and myc, brought about specifically GD3 ganglioside with concomitant decrease in GM3. On the other hand, so-called "extranuclear" type oncogenes, the products of which are expressed extranuclearly (either on the cell membrane or in the cytoplasm), ex. ras and src, brought about SPG gangliosides but no GD3 expression was recognized. This result indicates that intracellular metabolic activities of oncogenes strongly affect the ganglioside metabolism, and that the sensitive points in the pathway of the ganglioside metabolism (synthesis) are not so various but rather restricted.     

Ganglioside composition of growth cone-deficient nerve cell cultures

The ganglioside concentration and composition in growth cone-deficient nerve cells, induced by inclusion of cytochalasin B (CB) are compared with those of 2-day-old control cells from primary cultures of embryonic rat cerebral cortex. Ganglioside GM1 and GD1a are the major gangliosides in the growth cone. Ganglioside GM1 may be one of the membrane components of growth cones that function in neural recognition during development.