TGFα反义寡聚核苷酸对膀胱癌BIU 87细胞株的作用

报道了23碱基组成的TGFα反义寡聚核苷酸和对照寡聚核苷酸对人膀胱移行细胞癌BIU87细胞增殖及其TGFα mRNA表达的作用,结果表明:TGFα反义寡聚核苷酸抑制体外培养的BIU87细胞的增殖、DNA合成和TGFα mRNA的表达,进一步证明了TGFα在BIU87细胞恶性增殖中的重要作用.     

转化的小鼠肝细胞能表达TGFαmRNA

转化生长因子α(TGFα)可以由许多细胞、尤其是转化细胞产生。细胞转化能启动并维持TGFαmRNA的表达及其多肽产物的生成。TGFα与表皮生长因子(EGF)的受体结合,以自分泌的方式刺激细胞生长。曾有报道,EGF可诱导体外培养正常角化细胞的TGFαmRNA聚集,雌激素对大鼠乳癌细胞也有此种作用,说明     

~3H-TdR放射线转化C3H/10T1/2细胞株转化生长因子α的研究

本文通过斑点印渍杂交技术和放射免疫分析方法,首次证实,~3H-TdR放射线转化C3H/10T1/2细胞株可高表达TGFα mRNA,并可向细胞外分泌具有免疫活性的TGFα分子,而非转化对应细胞中虽有TG FαmRNA的弱表达,但其无血清培养上清中未测到TGFα的分泌。表明TGFα参与了放射线对细胞的转化以及维持转化细胞增殖的过程。提示TGFα在三大致癌因素转化细胞中的存在可能具有普遍意义。同时,c-myc与c-fos两种癌基因mRNA在转化细胞中的表达水平显著高于非转化对应细胞,而c-sis癌基因mRNA的表达水平在两种细胞中无显著差异。     

肺泡型细胞内表皮生长因子和转化生长因子α、β_1及其受体基因表达的研究

分离培养成年大鼠的肺泡 型细胞 ,通过斑点杂交、原位杂交和免疫组织化学染色 ,研究肺泡 型细胞内表皮生长因子 (EGF)、转化生长因子 α和 β1 (TGFα、TGFβ1 )及其受体基因的表达。结果显示肺泡 型细胞可表达 EGF、TGFα和TGFβ1 ,也可表达相应的 EGF受体 (EGFR)、TGFβ受体 型和 型 (TβR 、TβR )。表明肺泡 型细胞是合成和分泌 EGF、TGFα和 TGFβ1 的细胞之一 ;细胞凭借其 EGFR、TβR的存在 ,其增殖与分化可能受 EGF、TGFα和 TGFβ1 的旁分泌和自分泌两种途径调控。     

胃肠道肿瘤TGF－α基因表达的研究

用分子杂交技术及流式细胞方法研究了转化生长因子α(TGFα)在人胃肠道肿瘤组织中的表达.结果表明,胃癌、结肠癌和直肠癌组织较相应癌旁组织TGFαmRNA水平增高.佛波脂(TPA 100μg/L)作用胃癌细胞MGc80-3后4h,可使细胞中TGFαmRNA水平增高,作用6h可使S期细胞百分比明显增加.这些结果提示:TGFα在胃肠道肿瘤中起重要作用,其表达可受TPA的调节.     

肺泡Ⅱ型细胞表皮生长因子和转化生长因子α、β1及其受体表达的研究

分离培养成年大鼠的肺泡Ⅱ型细胞,通过斑点杂交、原位杂交和免疫组织化学染色,研究肺泡Ⅱ型细胞内表皮生长因子（EGF）、转化生长因子α和β1（TGFα、TGFβ1）及其受体基因的表达。结果显示肺泡Ⅱ型细胞可表达EGF、TGFα和TGFβ1,也可表达相应的EGF受体（EGFR）、TGFβ受体Ⅰ型和Ⅱ型（TβRⅠ、TβRⅡ）。表明肺泡Ⅱ型细胞是合成和分泌EGF、TGFα和TGFβ1的细胞之一;细胞凭借其EGFR、TβR的存在,其增殖与分化可能受EGF、TGFα和TGFβ1的旁分泌和自分泌两种途径调控。     

转化生长因子α

转化生长因子α(transforming growth factor α,TGFα)是50个氨基酸的单链多肽,由160个氨基酸的前体加工而成。由于表皮生长因子(EGF)受体是 TGFα的功能性膜受体,因此,TGFα的许多生物学效应与 EGF 相似。TGFα最主要的功能是通过自分泌机制维持转化细胞的恶性生长。     

Forskolin对放射性转化细胞TGF基因及部分癌基因表达的影响

3~H-TdR放射性转化细胞(TC3H/10)经1×10~(-5)mol/L Foskolin处理24 h后,TGFα、c-myc、c-K-ras基因的mRNA表达下降,TGFβ、c-fos基因表达无明显变化。非转化细胞(NC3H/10)经相同条件处理,TGFα、TGFβ、c-myc及c-K-ras基因表达无显著改变。提示:Forskolin介导的转化细胞的生长抑制作用与TGFa、cmyc、c-K-ras基因的转录表达下降有关。     

胰岛素增强EGF和TGF_α的促胃粘膜细胞生长作用

上皮生长因子(EGF)和转移生长因子(TGFα)是两种调节胃上皮细胞生长的因子。EGF/TGFα的mRNA已用免疫定位于胃腺上皮细胞。它们可能以局部或旁分泌方式作用于邻近的胃粘膜细胞。另外一些资料显示,胰岛素或胰岛素样生长因子在刺激胃肠道生长中起直接的或允许作用。     

大蒜素对小鼠脾细胞雌激素和雄激素受体影响的实验研究

本研究旨在探讨大蒜素对小鼠脾细胞雌激素和雄激素受体的影响。将健康ICR清洁小鼠,按性别随机分成三组实验组和三组对照组。实验组分别连续灌服大蒜素14、21和28 d,对照组同期分别灌服等量生理盐水。采用RT-PCR法检测雌性各组小鼠脾细胞雌激素受体(ERα和ERβ)的mRNA表达水平和雄性各组小鼠脾细胞雄激素受体(AR)的mRNA水平。实验结果显示,雌性小鼠连续灌服大蒜素第14和21 d时实验组ERαmRNA表达水平明显高于对照组(P0.05),第14 d时ERβmRNA表达水平明显高于对照组(P0.05)。雄性小鼠连续灌服大蒜素第14、21和28 d时实验组AR mRNA表达水平均明显高于对照组(P0.05)。综上提示大蒜素可增强小鼠脾细胞雌激素受体(ERα和ERβ)和雄激素受体(AR)mRNA的表达水平。     

Modulation of transforming growth factor alpha-dependent expression of epidermal growth factor receptor gene by transforming growth factor beta, triiodothyronine, and retinoic acid

We have investigated the actions of transforming growth factor (TGF) type alpha on epidermal growth factor (EGF) receptor mRNA expression in MDA-468 human mammary carcinoma cells in serum-free media. We found that exposure of MDA-468 cells to TGF alpha results in elevated levels of EGF receptor mRNA. This increase in mRNA accumulation showed time and dose dependence. Addition of TGF beta 1 enhanced the accumulation of EGF receptor mRNA induced by TGF alpha in a time- and dose-dependent manner. We also found that triiodothyronine at physiological concentrations exerts synergistic control on the action of TGF alpha alone, or in association with TGF beta 1, on EGF receptor mRNA expression. Similarly, retinoic acid treatment also enhanced in a time- and dose-dependent manner the TGF alpha-dependent response of EGF receptor mRNA and acted synergistically with TGF beta 1. The results described here suggest that optimum regulation of EGF receptor gene expression by TGF alpha is a complex process involving synergistic interactions with heterologous growth factors and hormones.     

Anti-sense transforming growth factor alpha oligonucleotides inhibit autocrine stimulated proliferation of a colon carcinoma cell line.

Many carcinoma cells secrete transforming growth factor alpha (TGF alpha). A 23 base anti-sense oligonucleotide that recognizes the TGF alpha mRNA inhibits both DNA synthesis and the proliferation of the colon carcinoma cell line LIM 1215. The effects of the anti-sense TGF alpha oligonucleotide are reversed by epidermal growth factor (EGF) at 20 ng/ml. When the LIM 1215 cells are grown under serum free conditions, the anti-sense TGF alpha oligonucleotides have their greatest effects at high cell density (2 x 10(5) cells/cm2), indicating that the secreted TGF alpha is acting as an exogenous growth stimulus. In addition, at higher cell densities, the kinase activity of the EGF receptor is activated and the receptor is down-modulated. The cell density dependent activation of the EGF receptor is inhibited by the application of the antisense TGF alpha oligonucleotides.     

Transforming growth factor-beta (TGF beta) inhibits TGF alpha expression in bovine anterior pituitary-derived cells.

Transforming growth factor-beta 1 (TGF beta 1) is a multifunctional regulator of cell growth and differentiation. We report here that TGF beta 1 decreased the proliferation of nontransformed bovine anterior pituitary-derived cells grown in culture. We have previously demonstrated that these cells express both TGF alpha and its receptor [the epidermal growth factor (EGF) receptor] and that expression can be stimulated by phorbol ester (TPA) and EGF. TGF beta 1 treatment over a 2-day period decreased the proliferation of pituitary cells. This decreased growth rate was accompanied by a decrease in the TGF alpha mRNA level. The effect of TGF beta 1 on TGF alpha mRNA down-regulation was both dose dependent (maximal effect observed at 1.0 ng/ml TGF beta 1) and time dependent (minimum of 2-day treatment with TGF beta 1 was required before a decrease in TGF alpha mRNA was observed). Studies on TGF alpha mRNA stability indicated that TGF beta 1 did not alter the TGF alpha mRNA half-life. Treatment of the TGF beta 1 down-regulated cells with EGF resulted in the stimulation of TGF alpha mRNA levels; thus, the TGF beta 1-treated cells remained responsive to EGF. The decreased proliferation in response to TGF beta 1 could be only partially reversed by simultaneous treatment of the cells with EGF (10(-9)M) and TGF beta 1 (3.0 ng/ml). Qualitatively, the TGF beta 1-induced reduction of TGF alpha mRNA content was independent of cell density. TGF beta 1 treatment of the anterior pituitary-derived cells also reduced the levels of c-myc and EGF receptor mRNA. These results represent the first demonstration of the down-regulation of TGF alpha synthesis by a polypeptide growth factor and suggest that TGF beta 1 may be a physiological regulator of TGF alpha production in vivo.     

高糖膳食对大鼠载脂蛋白AⅠ、CⅡ和CⅢ基因表达的影响

 我们以Sprague-Dawley大鼠为实验对象,研究高糖膳食对大鼠肝脏及小肠载脂蛋白(apo)AⅠ、CⅡ和CⅢmRNA相对含量的影响。摄取高糖膳食6天后,大鼠空腹血清TG含量和胰岛素水平均显著升高,cAMP含量则显著下降。同时,用RNA斑点杂交技术分析表明,摄取高糖膳食6天后,肝脏apoAⅠCⅡ和CⅢmRNA相对含量均显著下降(P<0.01,P<0.05);小肠apoAⅠ和CⅡmRNA相对含量也显著下降(P<0.05,P<0.01),但小肠apoCⅢmRNA相对含量无改变。     

Regulation of the synthesis and activity of urokinase plasminogen activator in A549 human lung carcinoma cells by transforming growth factor-beta

Transforming growth factor-beta (TGF beta) is a regulator of cellular proliferation which can alter the proteolytic activity of cultured cells by enhancing the secretion of endothelial type plasminogen activator inhibitor and affecting the secretion of plasminogen activators (PAs) in cultured fibroblastic cells. We used the TGF beta- responsive malignant human lung adenocarcinoma cell line A549 to study the relationships between the known TGF beta-induced growth inhibition and the effects of TGF beta on the secretion of PA activity by A549 cells. PA activity was quantitated by caseinolysis assays, and characterized by urokinase mRNA analysis, immunoprecipitation, and zymography assays. PA-inhibitor production was observed in autoradiograms of SDS-polyacrylamide gels and reverse zymography assays. It was found that TGF beta enhanced the production of PA activity by these cells, in accordance with an enhancement of urokinase mRNA levels. A concomitant stimulation of type 1 PA-inhibitor production was also observed in A549 cells in response to TGF beta. In contrast to the observations of A549 cells, TGF beta caused a decrease in the expression of both urokinase and the tissue-type PA mRNA in human embryonic WI-38 lung fibroblasts indicating opposite regulation of the expression of PAs in these cells. The results suggest that TGF beta may play a role in the regulation of the invasive, proteolytically active phenotype of certain lung carcinoma cells.     

Regulation of transforming growth factor alpha and transforming growth factor beta messenger ribonucleic acid abundance in T-47D, human breast cancer cells

Both transforming growth factor beta (TGF beta) and TGF alpha mRNA are expressed in human breast cancer cell lines. We have investigated the relationship of mRNA abundance for these growth modulators to the proliferation rate of a number of human breast cancer cell lines. Furthermore, we have investigated the relationship of regulation of TGF beta and TGF alpha mRNA to growth inhibition caused by progestins and nonsteroidal antiestrogens in T-47D human breast cancer cells. The abundance of TGF beta and TGF alpha mRNA in human breast cancer cell lines was not related directly to proliferation rate of the cells in culture or estrogen receptor positivity or negativity. The relationship of TGF beta and TGF alpha mRNA to growth inhibition caused by antiestrogens and progestins was investigated in T-47D human breast cancer cells. We observed that in T-47D human breast cancer cells the abundance of TGF beta mRNA is decreased in a time- and dose-dependent fashion by progestins but remains unaltered by nonsteroidal antiestrogens. Treatment of T-47D cells for 24 h with 10 nM medroxyprogesterone acetate (MPA) reduced the level of TGF beta mRNA to one third that present in untreated cells. The same treatment increased TGF alpha mRNA 3-fold above untreated controls in a time- and dose-dependent fashion and nonsteroidal antiestrogens caused a small decrease. The regulation of both TGF alpha and TGF beta mRNA was not directly related to inhibition of growth by progestins and antiestrogens in T-47D cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Growth stimulation and differential regulation of transforming growth factor-beta 1 (TGF beta 1), TGF beta 2, and TGF beta 3 messenger RNA levels by norethindrone in MCF-7 human breast cancer cells.

Transforming growth factor-beta (TGF beta) is a potent growth inhibitor in most epithelial cells. We evaluated the effects of norethindrone (which in combination with estrogen is commonly used in oral contraceptives) and other progestins [medioxyprogesterone acetate (MPA) and R5020, which are not used in oral contraceptives] on cell growth and the expression of TGF beta 1, TGF beta 2, and TGF beta 3 mRNAs in MCF-7 human breast cancer cells. Growth of MCF-7 cells was stimulated by norethindrone (10(-8)-10(-5) M), with maximal growth stimulation at 10(-7) M norethindrone after 7 days of treatment. However, the growth of MCF-7 cells was not affected by MPA (10(-8) M) or R5020 (10(-8) M). Treatment with the antiestrogen 4-hydroxytamoxifen at a concentration of 10(-7) M blocked the growth stimulation induced by norethindrone. The norethindrone-induced growth stimulation was accompanied by a dramatic decrease in TGF beta 2 and TGF beta 3 mRNA levels, whereas the level of TGF beta 1 mRNA was not affected by any of the compounds tested. In addition, treatment with MPA or R5020 did not affect TGF beta 2 and TGF beta 3 mRNA levels. The inhibitory effect of norethindrone on TGF beta 2 and TGF beta 3 mRNA levels could be blocked by the addition of 10(-7) M 4-hydroxytamoxifen. Norethindrone as well as estradiol decreased estrogen receptor mRNA levels and increased progesterone receptor mRNA levels. This is the first report which demonstrates that norethindrone stimulates estrogen-responsive human breast cancer cell growth and inhibits the expression of TGF beta 2 and TGF beta 3 mRNAs. These results suggest that the differential regulation of TGF beta expression by norethindrone may be at least partly responsible for the growth stimulation induced by norethindrone. Thus, the norethindrone component of some oral contraceptives may be sufficiently estrogenic to facilitate the development of breast cancer.     

8-Chloro-cAMP inhibits transforming growth factor alpha transformation of mammary epithelial cells by restoration of the normal mRNA patterns for cAMP-dependent protein kinase regulatory subunit isoforms which show disruption upon transformation.

Differential regulation of the regulatory subunits of cAMP-dependent protein kinase isozymes correlates with the growth inhibitory effect of site-selective 8-Cl-cAMP demonstrated in cancer cell lines (Ally, S., Tortora, G., Clair, T., Grieco, D., Merlo, G., Katsaros, D., Ogreid, D., D?skeland, S.O., Jahnsen, T., and Cho-Chung, Y.S. (1988) Proc. Natl. Acad. Sci. U. S. A. 85, 6319-6322). Such selective modulation of protein kinase isozyme regulatory subunits was also found in the 8-Cl-cAMP-induced inhibition of both transformation and transforming growth factor alpha (TGF alpha) production in Ki-ras-transformed rat kidney fibroblasts (Tortora, G., Ciardiello, F., Ally, S., Clair, T., Salomon, D. S., and Cho-Chung, Y. S. (1989) FEBS Lett. 242, 363-367). In this work, we have demonstrated that 8-Cl-cAMP antagonizes the TGF alpha effect in TGF alpha-transformed mouse mammary epithelial cells (NOG-8TFC17) at the level of gene expression for cAMP receptor protein isoforms, RI and RII (the regulatory subunits of protein kinase isozymes). Northern blot analysis demonstrated that in the transformed NOG-8TFC17 cells, compared with the nontransformed counterpart NOG-8 cells, the mRNA levels for the RI alpha cAMP receptor protein markedly increased, whereas the mRNA levels for the RII alpha and RII beta cAMP receptor proteins decreased. 8-Cl-cAMP, which induced growth inhibition and phenotypic reversion in NOG-8TFC17 cells, caused an inverse change in the mRNA patterns of the cAMP receptor proteins; RI alpha cAMP receptor mRNA sharply decreased to levels comparable with that of the nontransformed NOG-8 cells, whereas RII beta mRNA increased to a level even greater than that in the NOG-8 cells. In addition, one mRNA species of RII alpha increased, whereas the other RII alpha mRNA species decreased during the treatment. The mRNA level for the catalytic subunit of protein kinase, however, did not change during 8-Cl-cAMP treatment. In addition, 8-Cl-cAMP brought about a reduction in both TGF alpha mRNA and protein levels. These coordinated changes in the expression of the cAMP receptor proteins and TGF alpha were not observed during cis-hydroxyprolineor TGF beta-induced growth inhibition of the NOG-8TFC17 cells. Thus, the antagonistic effect of 8-Cl-cAMP toward TGF alpha-induced transformation involves modulation of the expression of a specific set of cellular genes.