表皮生长因子对鼠胚成纤维细胞细胞周期的调节作用

本文观察了表皮生长因子（ＥＧＦ）对小鼠胚胎成纤维细胞Ｃ３Ｈ／１０Ｔ１／２ＣＬ８（简称Ｃ３Ｈ／１０）细胞周期的影响。结果表明：ＥＧＦ使Ｓ期提前,细胞周期缩短。进一步探讨了ＥＧＦ对细胞周期影响的机制,发现ＥＧＦ可活化在细胞周期调节中起重要作用的Ｐ３４＾ｃｄｃ２激酶（简称ＣＤ２Ｋ）,使ＣＤ２Ｋ在周期中活性高峰出现的时间提前,提示ＥＧＦ对细胞周期的影响可能通过作用于ＣＤ２Ｋ实现的。     

南方鲇碱性磷酸酶的分离纯化及部分性质的研究

用正丁醇抽提,硫酸铵分级沉淀,ＤＥＡＥ－纤维素和ＳｅｐｈａｃｒｙｌＳ－２００柱层析,从南方鲇（Ｓｉｌｕｒｕｓ　ｍｅｒｉｄｉｏｎａｌｉｓ　Ｃｈｅｎ）肠粘膜中提取出碱性磷酸酶（ＡＫＰ）。提纯倍数为３９．５０倍,比活为６８．３５μ／ｍｇ蛋白,提取酶液经ＰＡＧＥ和ＳＤＳ－ＰＡＧＥ只呈现一条区带。该酶的分子量为１３２１４０,Ｎ末端氨基酸为门冬氨酸,最适ｐＨ为１０．１０,７．５＞ｐＨ＞１１．５时不稳定,最适温度为４０℃左右,对热不很稳定,以磷酸苯二钠为底物其Ｋ_ｍ值为１．７２×１０~（－３）ｍｏｌ／Ｌ。Ｍｇ~（２＋）、Ｍｎ~（２＋）为该酶的激活剂,ＫＨ_２ＰＯ_４、Ｌ－ＣｙＳ、ＭＥ、ＤＦＰ、ＥＤＴＡ－Ｎａ_２为抑制剂。选用ＫＨ_２ＰＯ_４和ＤＦＰ作抑制类型的判断,结果表明,ＫＨ_２ＰＯ_４属竞争性掏剂,其抑制常数为２．３ｍｍｏｌ／Ｌ;ＤＦＰ为非竞争性抑制剂,抑制常数为１．０５ｍｍｏｌ／Ｌ。     

细胞松驰素B促微丝解聚对DNA合成的作用

利用微丝（ｍｉｃｒｏｆｉｌａｍｅｎｔ,ＭＦ）解聚药物细胞松驰素Ｂ（ｃｙｔｏｃｈａｌａｓｉｎＢ,ＣＢ）处理Ｇ_０期小鼠Ｃ_３Ｈ_（１０）Ｔ_（１／２）成纤维细胞,对Ｇ_０至Ｓ期ＤＮＡ合成,胸腺嘧啶核苷激酶（ｔｈｙｍｉｄｉｎｅｋｉｎａｓｅ,ＴＫ）活性、ＴＫ基因表达、钙调素（ｃａｌｍｏｄｕｌｉｎ,ＣａＭ）水平和一些细胞周期早期基因的表达进行了观察,Ｇ_０期细胞经３ｍｇ／ＬＣＢ处理２ｈ,促ＭＦ解聚增强了血清对Ｓ期细胞ＴＫ活性、ＴＫ基因表达和ＤＮＡ合成的刺激作用,并促进细胞提前进入Ｓ期．血清刺激Ｇ_０期细胞进入晚Ｇ_１期和Ｓ期时,ＣａＭ水平明显升高,而ＣＢ预处理则使ＣａＭ含量进一步增加,特别是ＣＢ处理促使Ｓ期ＣａＭ增加向核内转移．ＣＢ处理明显增强血清对ｃ－ｊｕｎ、ｃ－ｆｏｓ和ｃ－ｍｙｃ基因表达的刺激作用,而ＰＫＣ抑制剂Ｈ_７则抑制ＣＢ处理对这些基因转录的刺激作用,说明ＣＢ使Ｇ_０期细胞ＭＦ解聚刺激ｃ－ｊｕｎ、ｃ－ｆｏｓ和ｃ－ｍｙｃ的转录活性与ＰＫＣ的作用有关．结果表明Ｇ_０至Ｓ期早期ＭＦ的重组可促进细胞进入Ｓ期,增强ＤＮＡ合成．     

丙型肝炎病毒C33_c单克隆抗体的研制和鉴定

用丙型肝炎病毒重组蛋白Ｃ３３_ｃ抗原免疫ＢＡＬＢ／ｃ小鼠,运用杂交瘤技术成功地建立了７株能稳定分泌抗Ｃ３３_ｃ单克隆抗体的杂交瘤细胞１Ｈ６Ｄ２、２Ｇ１Ａ６、３Ａ４Ａ８、３Ｅ３Ｅ７、４Ｇ１２Ｃ１０、４Ａ１０Ｃ２、５Ｆ４Ｂ６．试验结果表明,７株ＭｃＡｂｓ具有良好的ＨＣＶ特异性,间接ＥＬＩＳＡ法测得小鼠腹水ＭｃＡｂ效价为１：１０￣４－１：４×１０￣４;竞争抑制实验和相加指数测定证实７株ＭｃＡｂｓ识别相关的抗原表位;７株ＭｃＡｂｓ中１株为ＩｇＭ（５Ｆ４Ｂ６）,其它６株为ＩｇＧ（２ａ）。     

细胞松弛素B促微丝解聚对DNA合成的作用

利用微丝（ＭＦ）解聚药物细胞松弛素Ｂ（ＣＢ）处理Ｇ０期小鼠Ｃ３Ｈ１０Ｔ１／２成纤维细胞,对Ｇ０至Ｓ期ＤＮＡ合成,胸腺嘧啶核苷激酶（ＴＫ）活性、ＴＫ基因表达、钙调素（ＣａＭ）水平和一些细胞周期早期基因的表达进行了观察。Ｇ０期细胞经３ｍｇ／ＬＣＢ处理２ｈ,促ＭＦ解聚增强了血清对Ｓ期细胞ＴＫ活性、ＴＫ基因表达和ＤＮＡ合成的刺激作用,并促进细胞提前进入Ｓ期。血清刺激Ｇ０期细胞进入晚Ｇ１期和Ｓ期时,ＣａＭ     

内皮素和bFGF对MC的促增殖作用及胰岛素的协同效应

采用３Ｈ－ＴｄＲ参入法,测定碱性成纤维细胞生长因子（ｂＦＧＦ）、胰岛素和内皮素－１（ＥＴ－１）对体外培养的大鼠肾小球系膜细胞（ＭＣ）增殖的影响,以及胰岛素与ｂＦＧＦ或ＥＴ－１促ＭＣ增殖的协同作用。结果表明,不同浓度的ｂＦＧＦ（５－２００ｎｇ／ｍｌ）和胰岛素（０．１－２．４Ｕ／ｍｌ）均显著升高ＭＣ的３Ｈ－ＴｄＲ参入值（ｃｐｍ值）（Ｐ＜０．０１）。ＥＴ－１对ＭＣ的ｃｐｍ值的影响依剂量不同呈现两种不同的效应,在１０－９－１０－７ｍｏｌ／Ｌ时,随着浓度的升高,ＭＣ的ｃｐｍ值明显升高（Ｐ＜０．０１）,并以１０－８ｍｏｌ／Ｌ作用最强;当升高到１０－６ｍｏｌ／Ｌ时,ＭＣ的ｃｐｍ值出现降低趋势。胰岛素与ｂＦＧＦ或低浓度ＥＴ－１（≤１０－８ｍｏｌ／Ｌ）共同作用于ＭＣ时,ＭＣ的ｃｐｍ值明显高于二者单独作用之和（Ｐ＜０．０１）,与高浓度ＥＴ－１（＞１０－７ｍｏｌ／Ｌ）共同作用于ＭＣ时,ＭＣ的ｃｐｍ值小于二者单独作用之和（Ｐ＞０．０５）。上述结果说明,胰岛素、ｂＦＧＦ和ＥＴ－１均能显著促进ＭＣ增殖;胰岛素与ｂＦＧＦ或低浓度的ＥＴ－１促ＭＣ增殖具有正协同作用,与高浓度ＥＴ－１呈现负协同作用。     

CO2浓度倍增对小麦生育性状和产量构成的影响

ＣＯ_２浓度倍增对小麦生育性状和产量构成的影响王修兰,徐师华,李佑祥（中国农业科学院农业气象研究所,北京,１０００８１）ＴＨＥＥＦＦＥＣＴＳＯＦＣＯ_２ＤＯＵＢＬＩＮＧＯＮＧＲＯＷＩＮＧＡＮＤＤＥＶＥＬＯＰＩＮＧＣＨＡＲＡＣＴＥＲＳＡＮＤＹＩＥＬＤＦＯ...     

表皮生长因子对细胞核转录活性的直接作用

表皮生长因子（ＥＧＦ）对纯化的鼠胚成纤维细胞（Ｃ_３Ｈ_１０Ｔ_１／２Ｃ１８）胞核~３Ｈ－ＵＴＰ掺入有明显的促进作用。这一作用在ＥＧＦ与细胞核共同培养９０ｍｉｎ时达到高峰。该作用是ＥＧＦ浓度依赖性的。ＥＧＦ对β射线转化的上述细胞的纯化细胞核,亦同样有促进转录作用。本实验所用的细胞核经光镜,电子显微镜观察,细胞膜、细胞浆标志酶检测及放射性同位素示踪法鉴定,未检出有核外成份的污染。本实验结果为膜受体信号传递途径以外的ＥＧＦ对核直接作用途径的存在提供了证据。     

DDPH对猪肺动脉平滑肌细胞PDGF·BB和bFGF表达的影响：免疫细胞化学研究

ＤＤＰＨ［１－（２．６－二甲基苯乙氧基）－２－（３．４二甲氧基苯乙胺基）丙烷盐酸盐］是南京药科大学合成的降压新化合物,也具有降低肺动脉高压和抑制肺动脉平滑肌细胞增殖作用。本实验用细胞培养、免疫细胞化学、图像分析、３Ｈ－ＴｄＲ、细胞周期测定等方法,进一步探讨ＤＤＰＨ对缺氧性肺动脉平滑肌细胞（ＰＡＳＭＣＳ）增殖的抑制机制。结果：缺氧促进肺动脉内皮细胞（ＰＡＥＣｓ）的ＰＤＧＦ·ＢＢ和ｂＦＧＦ两种生长因子的表达（积分光密度ＯＤ值）增高。缺氧内皮细胞条件培养液（ＨＥＣＣＭ）能促进ＰＡＳＭＣＳ的ＰＤＧＦ·ＢＢ的ＯＤ值增高,ｂＦＧＦ的ＯＤ值无明显改变。加药组（ＨＥＣ－ＣＭ＋ＤＤＰＨ）的ＰＤＧＦ·ＢＢ和ｂＦＧＦ的ＯＤ值均显著降低,尤以ＰＤＧＦ·ＢＢ的ＯＤ值减少最多．提示：ＤＤＰＨ能抑制ＨＥＣＣＭ引起ＰＡＳＭＣＳ的ＰＤＧＦ·ＢＢ和ｂＦＧＦ表达增多和细胞增殖。结果与大鼠实验观察相符。     

采用一种新介质纯化神经生长因子

采用一种新闻子交换介质Ｅｘｐｒｅｓｓ－ＩｏｎＣ（简称ＩｏｎＣ）使鼠神经生长因子（ｍＮＧＦ）能得到规模纯化。以鼠颌下腺为原料,匀浆后,经Ｅｘｐｒｅｓｓ－ＩｏｎＣ纯化得单一组分的ｍＮＧＦ,用ＳＤＳ－ＰＡＧＥ测定其相对分子质量约为１３．７×１０＾３,比活约２．３×１０＾５Ｕ／ｍｇ。结果表明ＩｏｎＣ可替代ＣＭ－５２,且更适于工因子的规模化生产。     

表皮生长因子对P34^cdc2激酶活性的影响

表皮生长因子对Ｐ３４~（ｃｄｃ２）激酶活性的影响蔡家新,童坦君（北京医科大学生物化学教研室,１０００８３）关键词表皮生长因子：Ｐ３４~（ｃｄｃ２）激酶;细胞周期表皮生长因于（ＥＧＦ）在细胞增殖和分裂过程中起重要作用。近期研究表明其作用过程与核内多种成分...     

Cell kinetic characterization of the epidermal growth factor dependent BALB/MK line using flow cytometric analysis of DNA content and iododeoxyuridine incorporation

Epidermal hyperproliferation (psoriasis, wound repair) is the result of quiescent (G₀) keratinocytes being recruited into the cell cycle. A detailed characterization of the cell cycle kinetic parameters of the mouse keratinocyte line (Balb/MK) has been carried out with the aid of bivariate iododeoxyuridine (IdUrd) and DNA analysis using flow cytometry, in order to establish whether it might provide a useful model for the study of the biochemical events controlling recruitment into the cell cycle. Balb/MK keratinocytes were cultured using low Ca²⁺ Dulbecco's modified Eagle's medium/F12 in the presence of 10% dialysed fetal bovine serum and 4 ng/ml epidermal growth factor (EGF). IdUrd labelling followed by flow cytometric analysis of trypsinized cells showed that about 95% of the population were actively cycling, with a cell cycle time of around 14 h and no significant contact inhibition. Omission of serum and EGF followed by IdUrd pulse-labelling indicated that the cells progressively withdrew from the cycle and, after 16h, less than 10% incorporated IdUrd. Subsequent restimulation with serum resulted in a synchronized cohort of cells being recruited. Entry into the S phase of the cell cycle (IdUrd incorporation) started at 8 h and was maximal between 12 h and 16 h after stimulation. Restimulation with EGF alone reached a growth fraction of 87% after 24 h continuous labelling compared with 97% using serum together with EGF. Epidermal growth factor already showed a significant stimulation at 10 pg/ml compared with the controls. There is a broad plateau centred on 5 ng/ml, followed by a slight decline above this level. We conclude that the use of a cell line with defined cell cycle kinetic parameters which can be switched between the quiescent and cycling states in a fully defined medium will provide an ideal model for biochemical studies of the relevant signal transduction pathways in keratinocytes.     

Cell Death of MCF-7 Human Breast Cancer Cells Induced by EGFR Activation in the Absence of Other Growth Factors

The Epidermal Growth Factor (EGF) Receptor (EGFR) plays an important role in the growth and progression of breast cancer. Overexpression of EGFR or the high activity of EGFR signal pathway has been related with increases in cell proliferation and a poor prognosis in patients with breast cancer. Several human breast cancer cell lines depend on estrogen for their proliferation. EGF may bypass the requirement of estrogen for the proliferation of breast cancer cells. To evaluate this hypothesis, MCF-7 breast cancer cells were stimulated with EGF and the effects on cell proliferation, signal pathways, and cell cycle progression were determined. The results demonstrate that EGF stimulation in the absence of others growth factors induced a modest effect on cell proliferation and the induction of a cellular arrest in the G1 phase of the cell cycle. Although phosphorylation of AKT and ERK proteins were detected, this phosphorylation was insufficient to support of cell cycle progression. Cellular arrest in G1 phase was accompanied by an increase in p21CIP1 protein, down regulation of the BCL-2 protein, induction of caspase-8, and ARHI/NOEY2 an imprinted tumor suppressor gene. These results indicate that EGFR activation by itself is not sufficient for the proliferation of breast cancer cells and suggest the existence of a mechanism that induces apoptosis upon EGFR activation.     

Cell cycle parameters of adult rat hepatocytes in a defined medium. A note on the timing of nucleolar DNA replication

Hepatocytes, isolated from adult (250-350 g) rats, attached and survived well in primary culture on highly diluted (less than 1 microgram/cm2) collagen gel in a synthetic medium without serum or hormones. About 20% of the cells "spontaneously" entered S phase during the first 4 days of culturing, and mitoses were easily demonstrated at the near physiological concentration (1.25 mM) of Ca++ prevailing in the medium. Cultures given 9 nM epidermal growth factor (EGF) and 20 nM insulin 20 h after inoculation showed vigorous DNA synthesis and mitotic activity. Autoradiography of such cells exposed to [3H]thymidine allowed the determination of the following cell cycle parameters: Lag period from EGF/insulin stimulation till onset of increased DNA synthesis, 17 h; rate of entry into S phase (kG1/S), 0.028/h; duration of S phase, 8.4 h; duration of G2 phase, 2.7 h. The peak DNA synthesis (pulse labelling index, 24%) and peak mitotic activity (mitotic index, 1.7%) occurred 35 and 43 h, respectively, after the stimulation with EGF/insulin. These values are comparable to those reported during the in vivo compensatory hyperplasia following partial hepatectomy of adult rats. A marked variation of the intranuclear [3H]thymidine pulse labelling pattern was noted: During the first 1.5 h of the S phase, the labelling was extranucleolar and during the last 1.5 h chiefly nucleolar. The cells survived well in the absence of glucocorticoid, whose effect on cell cycle parameters therefore could be studied. Dexamethasone (25-250 nM) did not appreciably affect the durations of S phase and G2 phase or the pattern of preferential extranucleolar and nucleolar DNA synthesis within the S phase.     

表皮生长因子对人二倍体成纤维细胞p21~(WAF-1)基因表达的双向性影响

p2 1 WAF-1又称 sdi- 1 ,是细胞周期蛋白依赖性蛋白激酶 ( CDK)的抑制物基因 ,与细胞增殖调控及细胞衰老密切相关 .本研究为了解正常细胞中 p2 1 WAF-1对生长因子的反应性 ,以及其在细胞衰老时的表现 .我们以不同代龄的人胚肺二倍体成纤维细胞 ( 2 BS细胞株 )为实验对象 ,通过 Northern杂交术 ,观察表皮生长因子 ( EGF)对年轻 (低代龄 )细胞与衰老 (高代龄 )细胞 p2 1 WAF-1基因表达的影响 .结果显示 :p2 1 WAF-1在衰老 2 BS细胞中高表达 .EGF对年轻细胞 p2 1 WAF-1的表达有诱导作用 ,对衰老细胞有轻微诱导作用 ,在刺激后 3h左右达高峰 ,3～ 6h逐渐回落 ,并持续下降 .作用后 1 2h,其表达水平反而远低于作用前 .此作用在年轻细胞较为明显 .由此可见 :( 1 ) EGF对人二倍体成纤维细胞 p2 1 WAF-1的表达有双向性影响 ,先是一过性诱导 ,随后转为阻抑 ;( 2 )衰老细胞 p2 1 WAF-1对EGF的反应性有所降低     

Growth inhibition of mitogen-stimulated fibroblasts induced by double-stranded RNA depends on cell density

Polyinosinic-polycytidylic acid [poly(I:C)], a synthetic double-stranded RNA, is an inhibitor of mitogen-induced proliferation of normal fibroblasts. We show that this inhibition depends strongly on cell density. While cultures with densities at or above confluence are completely inhibited by poly(I:C) in their proliferative response to epidermal growth factor (EGF), the proliferation of sparse (subconfluent) cultures is only delayed. Conditioned medium from dense fibroblasts exposed to poly(I:C) inhibits EGF stimulation of sparse cells, indicating that the inhibition is, at least in part, mediated by a factor released from the cells. Preincubation of quiescent cultures with poly(I:C) renders the cells refractory to the inhibitory effects of poly(I:C). This desensitization correlates with a decreased production of the inhibitor. Since the inhibition of mitogenic stimulation by poly(I:C) is completely overcome by antisera recognizing interferon-beta (IFN-beta) and interleukin-6 (IL-6), we tested the effect of IL-6 and IFN-beta on EGF mitogenicity. None of the available IL-6 preparations had any effect on cell cycle entry. IFN-beta caused a dose-dependent delay of cell division but did not affect the density-dependent proportion of cells entering the cell cycle in response to EGF. Thus, IFN-beta cannot be the sole mediator of the poly(I:C)-induced inhibition. In the presence of dexamethasone, poly(I:C) did not inhibit EGF mitogenis. Indeed, the combined presence of poly(I:C) and dexamethasone did more than just restore the density-dependent control levels of EGF stimulation; most cells entered the cell cycle even at extremely high cell densities. Thus, poly(I:C) in combination with dexamethasone could deactivate the cell density-dependent negative control of proliferation.     

Beta Cell Mass Restoration in Alloxan-Diabetic Mice Treated with EGF and Gastrin

One week of treatment with EGF and gastrin (EGF/G) was shown to restore normoglycemia and to induce islet regeneration in mice treated with the diabetogenic agent alloxan. The mechanisms underlying this regeneration are not fully understood. We performed genetic lineage tracing experiments to evaluate the contribution of beta cell neogenesis in this model. One day after alloxan administration, mice received EGF/G treatment for one week. The treatment could not prevent the initial alloxan-induced beta cell mass destruction, however it did reverse glycemia to control levels within one day, suggesting improved peripheral glucose uptake. In vitro experiments with C2C12 cell line showed that EGF could stimulate glucose uptake with an efficacy comparable to that of insulin. Subsequently, EGF/G treatment stimulated a 3-fold increase in beta cell mass, which was partially driven by neogenesis and beta cell proliferation as assessed by beta cell lineage tracing and BrdU-labeling experiments, respectively. Acinar cell lineage tracing failed to show an important contribution of acinar cells to the newly formed beta cells. No appearance of transitional cells co-expressing insulin and glucagon, a hallmark for alpha-to-beta cell conversion, was found, suggesting that alpha cells did not significantly contribute to the regeneration. An important fraction of the beta cells significantly lost insulin positivity after alloxan administration, which was restored to normal after one week of EGF/G treatment. Alloxan-only mice showed more pronounced beta cell neogenesis and proliferation, even though beta cell mass remained significantly depleted, suggesting ongoing beta cell death in that group. After one week, macrophage infiltration was significantly reduced in EGF/G-treated group compared to the alloxan-only group. Our results suggest that EGF/G-induced beta cell regeneration in alloxan-diabetic mice is driven by beta cell neogenesis, proliferation and recovery of insulin. The glucose-lowering effect of the treatment might play an important role in the regeneration process.     

Epidermal Growth Factor–induced Contraction Regulates Paxillin Phosphorylation to Temporally Separate Traction Generation from De-adhesion

Directed cell migration is mediated by cycles of protrusion, adhesion, traction generation on the extracellular matrix and retraction. However, how the events after protrusion are timed, and what dictates their temporal order is completely unknown. We used acute epidermal growth factor (EGF) stimulation of epidermal keratinocytes to initiate the cell migration cycle to study the mechanism of the timing of adhesion, traction generation, and de-adhesion. Using microscopic and biochemical assays, we surprisingly found that at ∼2 min after EGF stimulation protrusion, activation of myosin-II, traction generation, adhesion assembly, and paxillin phosphorylation occurred nearly simultaneously, followed by a 10-min delay during which paxillin became dephosphorylated before cell retraction. Inhibition of myosin-II blocked both the EGF-stimulated paxillin phosphorylation and cell retraction, and a paxillin phosphomimic blocked retraction. These results suggest that EGF-mediated activation of myosin-II acts as a mechanical signal to promote a cycle of paxillin phosphorylation/dephosphorylation that mediates a cycle of adhesion strengthening and weakening that delays cell retraction. Thus, we reveal for the first time a mechanism by which cells may temporally segregate protrusion, adhesion, and traction generation from retraction during EGF-stimulated cell migration.     

Heparin suppresses specific second messenger pathways for protooncogene expression in rat vascular smooth muscle cells.

We investigated the molecular mechanisms underlying the ability of heparin to inhibit vascular smooth muscle cell (VSMC) growth. Previous experiments have shown that heparin inhibits induction of c-fos and c-myc protooncogene mRNA in rat VSMC stimulated by phorbol 12-myristate 13-acetate (PMA) but not when stimulated by epidermal growth factor (EGF) (Pukac, L. A., Castellot, J. J., Wright, T. C., Caleb, B. L., and Karnovsky, M. J. (1990) Cell Regul. 1, 435-443). The present experiments show that these mitogens activate distinct second messenger pathways in VSMC, because PMA but not EGF induction of c-fos and c-myc mRNA was suppressed in protein kinase C (PKC) down-regulated VSMC; this suggests that EGF does not act through a PKC-dependent pathway for induction of these genes. Heparin inhibited serum stimulation of c-fos mRNA in control VSMC, but heparin did not inhibit the smaller but significant serum stimulation of c-fos mRNA in PKC down-regulated VSMC, indicating that heparin may selectively inhibit PKC-dependent, but not PKC-independent, stimulation of gene expression. To further determine if heparin inhibits non-PKC pathways, VSMC were treated with dibutyryl cAMP, 3-isobutyl-1-methyl-xanthine, and Ca2+ ionophore A23187; stimulation of c-fos mRNA by this treatment was not inhibited by heparin. DNA synthesis and cell proliferation were inhibited in rat VSMC exposed briefly to heparin during the G0/G1 phase of the cell cycle. These experiments indicate heparin can act early in the cell cycle and suggest PKC-dependent but not PKC-independent signaling pathways for gene expression are selectively sensitive to heparin inhibition.     

Epidermal growth factor receptor, c-erbB2 and c-erbB3 receptor interaction, and related cell cycle kinetics of SK-BR-3 and BT474 breast carcinoma cells

BACKGROUND: Receptors belonging to the epidermal growth factor receptor (EGFR) family transfer extracellular signals by homotypic and heterotypic receptor interaction and cross-activation. Cell differentiation, death, and proliferation are regulated via these receptor-tyrosine-kinases. However, the initial mechanisms that lead to signal specificity and diversity, which cause a defined cellular response, are incompletely understood. We investigated the recruitment of receptor complexes in two c-erbB2-overexpressing breast carcinoma cell lines, SK-BR-3 and BT474, after ligand binding and its effects on intracellular signal transduction and cell cycle regulation. METHODS: In order to analyze the coaggregation of receptors on the cell surface induced by specific growth factor treatment, we used the flow cytometric Foerster-type fluorescence resonance energy transfer (FRET) technique. Cell cycle kinetics were monitored flow cytometrically via the anti-BrdU technique and acitivation of intracellular signal cascades was analyzed by Western blotting. RESULTS: After stimulation with EGF BT474, but not SK-BR-3, cells formed EGFR/c-erbB2 receptor complexes. Neither EGF nor heregulin (HRG) induced c-erbB2/c-erbB3 receptor complexes in BT474. However, SK-BR-3 cells exhibited a high amount of c-erbB2/c-erbB3 heterodimers even without growth factor stimulation which could be elevated after prolonged EGF and HRG treatment. In both cell lines, mitogen-activated protein kinase (MAPK) phosphorylation was detectable after short-term and prolonged EGF and HRG treatment. However, only SK-BR-3 cells showed a constitutive activation of both protein kinase B (PKB)/Akt and MAPK signaling pathways. Growth factor treatment caused an amplified PKB/Akt activation in this cell line. The induction of EGFR/c-erbB2 complexes in BT474 was associated with shortening of the G1-phase of the cell cycle. In contrast, the concurrent activation of MAPK and PKB/Akt by EGF treatment led to an inhibition of proliferation in SK-BR-3 and can be attributed to missing EGFR/c-erbB2 heterodimers. HRG was a strong stimulator of proliferation in both cell lines. CONCLUSIONS: We show that in the presence of identical amounts of c-erbB2 receptors, the ligand-induced cellular response differs significantly. These differences were mediated by variances in signal transduction, most likely due to different recruitment of heterotypic receptor complexes. Overall, there is strong evidence that c-erbB2 receptor overexpression in breast cancer cells is an insufficient marker to determine cellular response in terms of cell proliferation. 2001.