A selective small molecule inhibitor of c-Met, PHA665752, inhibits tumorigenicity and angiogenesis in mouse lung cancer xenografts

The c-Met receptor tyrosine kinase is emerging as a novel target in many solid tumors, including lung cancer. PHA-665752 was identified as a small molecule, ATP competitive inhibitor of the catalytic activity of the c-Met kinase. Here, we show that treatment with PHA665752 reduced NCI-H69 (small cell lung cancer) and NCI-H441 (non-small cell lung cancer) tumorigenicity in mouse xenografts by 99% and 75%, respectively. Reduction in tumor size was also observed by magnetic resonance imaging of tumors in mice. PHA665752 inhibited c-Met phosphorylation at the autophosphorylation and c-Cbl binding sites in mouse xenografts derived from non-small cell lung cancer cell lines (NCI-H441 and A549) and small cell lung cancer cell line (NCI-H69). PHA665752 also inhibited angiogenesis by >85% in all the abovementioned cell lines and caused an angiogenic switch which resulted in a decreased production of vascular endothelial growth factor and an increase in the production of the angiogenesis inhibitor thrombospondin-1. These studies show the feasibility of selectively targeting c-Met with ATP competitive small molecule inhibitors and suggest that PHA665752 may provide a novel therapeutic approach to lung cancer.     

肺癌细胞株APC基因启动子甲基化对其转录的影响

背景与目的:抑癌基因家族性腺瘤样结肠息肉病易感基因(adenomatous polyposis coli,APC)启动子区的高甲基化在很多肿瘤中被发现,与这些肿瘤的发生发展相关.本实验室在肺癌患者肿瘤组织中检测到APC甲基化率达47%,为了研究其在肺癌细胞株中的甲基化情况,并进一步了解甲基化对其转录的影响,本研究检测了3株肺癌细胞的抑癌基因APC启动子甲基化状态及其对该基因转录水平的影响.方法:提取3株肺癌细胞株(肺腺癌细胞株SPC-A1、小细胞肺癌细胞株NCI-H446、大细胞肺癌细胞株NCI-H460)的DNA,以经转甲基处理和未做处理的脐带血DNA为阳性、阴性对照,亚硫酸氢盐化学修饰后,用甲基化特异性基因扩增(methylation specific-polymerase chain reaction,MSP)和甲基化基因芯片对APC基因启动子1A CpG岛甲基化进行研究,并用实时荧光定量PCR(real time-polymerase chain reaction)技术,以Sybr-GreenⅠ为荧光染料,β-actin基因为内参照,检测mRNA转录;对甲基化阳性的NCI-H460细胞,分别用1、5、10、15 μmol/L的5'-杂氮-2'-脱氧胞嘧啶(5-aza-2-deoxycytidine,5-aza-dC)试剂进行脱甲基化,提取RNA,荧光定量检测其转录变化.结果:SPC-A1和NCI-H446细胞APC甲基化阴性,NCI-H460细胞APC甲基化阳性;甲基化芯片检测NCI-H460细胞在APC启动子1A 5个CpG位点均存在甲基化(687、707、714、719、726),SPC-A1和NCI-H446甲基化阴性,荧光定量结果NCI-H460的APC转录较SPC-A1和NCI-H446有明显的下降,仅为二者平均的30.04%;经5-aza-dC脱甲基化作用后,NCI-H460细胞的APC表达增加了约5～10倍,其中10 μmol/L浓度作用下,APC表达增加最多.结论:肺癌细胞株NCI-H460中存在APC基因高甲基化,5-aza-dC脱甲基化试剂可以激活其转录.     

Antiproliferative effects of the Ca2+/calmodulin antagonist B859-35 and the Ca(2+)-channel blocker verapamil on human lung cancer cell lines.

We have recently demonstrated that the dihydropyridine-derivative B859-35 has a selective chemotherapeutic effect on experimentally induced neuroendocrine lung tumors in hamsters. These tumors resembled human atypical lung carcinoids morphologically and expressed mammalian bombesin, calcitonin and neuron-specific enolase. In the hamster model, B859-35 had no antiproliferative effect on pulmonary adenomas of Clara cell origin. In this study, we have tested the antiproliferative effects of B859-35 and of the Ca(2+)-channel blocker Verapamil in vitro on three human lung cancer cell lines. The neuroendocrine cell line NCI-H727 is derived from a lung carcinoid and expresses mammalian bombesin and calcitonin. Two non-neuroendocrine cell lines are derived from peripheral pulmonary adenocarcinomas, with line NCI-H322 expressing features of Clara cells while line NCI-H358 expresses features of alveolar type II cells. B859-35 was a potent antiproliferative agent in the neuroendocrine line NCI-H727 at concentrations as low as 0.001 pM, while it inhibited cell proliferation in the two other cell lines at concentrations of 100 nM and above. Verapamil inhibited cell proliferation in the neuroendocrine line NCI-H727 at concentrations of 1 nM and above.     

Irradiated nude rat model for orthotopic human lung cancers

The development of improved animal models for biological and preclinical studies of human lung cancer is important because lung cancer is the leading cause of cancer death in the United States. To determine whether the Rowett nude rat could serve as an orthotopic (organ-specific) model of this disease, nude rats (CR: NIH-RNU), with and without 500 rads of prior gamma-irradiation, were implanted intrabronchially with 10(7) cultured cells from 3 human lung cancer lines. Without irradiation, the NCI-H460 large-cell undifferentiated carcinoma had a 54% take-rate, whereas the NCI-H125 adenosquamous carcinoma and A549 adenocarcinoma had take-rates of 7 and 33%, respectively; irradiation increased the respective take-rates to 100, 83, and 90%. In irradiated rats, tumor age versus weight measurements showed progressive growth for all three tumors, with growth rates in the order: NCI-H460 greater than A549 greater than NCI-H125, requiring approximately 3, 5, and 9 weeks, respectively, for average tumor sizes to exceed 500 mg. The small-cell carcinoma cell line NCI-H345 was implanted only into irradiated rats and resulted in more slowly growing tumors. Histopathological study showed all model tumor types to have histological characteristics consistent with the clinical tumors from which the cell lines were derived. Each tumor type had a different growth pattern, with some of the the A549- and NCI-H125-derived tumors metastasizing to contralateral lung and/or regional lymph nodes. There was no evidence for immunological rejection in irradiated, tumor-bearing rats. Nonirradiated, implanted rats without gross tumor exhibited peribronchiolar mononuclear cell infiltration with or without fibrosis, suggesting prior immunological rejection. The successful orthotopic growth of these 4 human lung cancer cell lines in irradiated nude rats suggests that this model could be useful for biological and preclinical studies of human lung cancer, both in intact rats and via ex vivo perfusion of their tumor-bearing lungs.     

Development of an orthotopic model to study the biology and therapy of primary human lung cancer in nude mice.

PURPOSE: This study was conducted to develop biologically relevant animal models of human lung cancer that are reproducible, inexpensive, and easy to perform. EXPERIMENTAL DESIGN: Human lung adenocarcinoma (PC14PE6), bronchioloalveolar carcinoma (NCI-H358), squamous cell carcinoma (NCI-H226), poorly differentiated non-small cell lung cancer (NCI-H1299 and A549), or small cell lung cancer (NCI-H69) cells in Matrigel were injected percutaneously into the left lungs of nude mice. The growth pattern of the different lung cancer tumors was studied. For PC14PE6 and NCI-H358, the growth pattern in the subcutis and the response to paclitaxel were also studied. RESULTS: As is observed for human primary lung cancer, tumors formed from a single focus of disease and progressed to a widespread and fatal thoracic process characterized by diffuse dissemination of lung cancer in both lungs and metastasis to intra- and extrathoracic lymph nodes. When the lung cancer cell lines were implanted s.c., systemic therapy with paclitaxel induced tumor regression. However, only a limited therapeutic response to paclitaxel was observed when the same cells were implanted orthotopically into the lung. Immunohistochemical analysis of tumor tissue revealed increased expression of the proangiogenic factors interleukin 8, basic fibroblast growth factor, and vascular endothelial growth factor/vascular permeability factor. CONCLUSIONS: Our orthotopic models of human lung cancer confirm the "seed and soil" concept and likely provide more clinically relevant systems for the study of both non-small cell lung cancer and small cell lung cancer biology, and for characterizing novel therapeutic strategies.     

Comparison of intrapulmonary, percutaneous intrathoracic, and subcutaneous models for the propagation of human pulmonary and nonpulmonary cancer cell lines in athymic nude mice

The propagation efficiencies, growth patterns, histological appearances, and roentgenographic demonstration of tumors derived from six continuous human pulmonary tumor cell lines implanted intrathoracically (i.t.) and intrabronchially (i.b.) were compared with the conventional s.c. implantation method at three different tumor cell inocula (N = 184, i.b.; N = 185, i.t.; N = 180, s.c.). A tumor-related mortality of 100% was noted when the six different human lung tumor cell lines, including A549 adenocarcinoma, NCI-H125 adenosquamous carcinoma, NCI-H460 large cell undifferentiated carcinoma, NCI-H69 small cell carcinoma, and NCI-H358 and NCI-H322 bronchioloalveolar cell carcinomas, were implanted i.b. at a 1.0 x 10(6) tumor cell inoculum. A similar (92%) tumor-related mortality was observed when these same lung tumor cell lines were implanted i.t. at a 1.0 x 10(6) tumor cell inoculum (P greater than 0.10), whereas minimal (5%) tumor-related mortality was noted when cells from the six different cell lines were implanted s.c. (P less than 0.001). In addition, a dose-dependent, tumor-related mortality was noted for either i.t. or i.b. implantation when lower (1.0 x 10(5) or 1.0 x 10(4] tumor cell inocula were employed. Histological characteristics and growth patterns of tumors propagated employing the three implantation techniques were closely comparable for all three propagation methods and, in all instances, histological appearances of the tumors were representative of the current tumor cell lines from which they were derived. Approximately 30% of the lung tumors propagated i.t. grew in the chest wall and/or in the lung parenchyma as well as in the pleural space. In contrast, tumors propagated i.b. grew predominantly in the lung parenchyma. When five nonpulmonary human tumor cell lines (including U251 glioblastoma, LOX amelamontic melanoma, HT-29 colon adenocarcinoma, OVCAR 3 ovarian adenocarcinoma, and adriamycin-resistant MCF-7 breast adenocarcinoma) were propagated i.b. or i.t., there was considerable site-specific variability in tumor-related mortality depending on the tumor type. These data demonstrate that both the i.b. and i.t. models should be useful for the in vivo propagation and study of certain human pulmonary and nonpulmonary carcinomas as well as being advantageous for future studies of cancer biology and developmental therapeutics.     

Activation of the hedgehog pathway in a subset of lung cancers

Activation of the hedgehog pathway is reported in lung cancer, but its frequency remains unknown. We examine activation of this pathway in lung cancers by in situ hybridization and immunohistochemstry, and find that less than 10% of the tumors have elevated hedgehog target gene expression. We further identify a cell line NCI-H209 and two primary tumors with no detectable Su(Fu), a negative regulator of the pathway. Ectopic expression of Su(Fu) in NCI-H209 cells down-regulates hedgehog target gene expression and leads to inhibition of cell proliferation. These data indicate that activation of the hedgehog pathway is activated through Shh over-expression or Su(Fu) inactivation in only a subset of lung cancers.     

Treatment of R-3327 prostate tumors with a somatostatin analogue (somatuline) as adjuvant therapy following surgical castration

This study addresses, in an animal tumor model, the clinical problem of "escape from castration inhibition." Somatuline (BIM-23014C), an octapeptide analogue of somatostatin with enhanced potency and longer duration of biological activity was administered as a therapeutic agent, over a period of 90 and 197 days, to male Copenhagen rats bearing syngeneic Dunning R-3327-H prostate tumors. Androgen sensitivity was confirmed by the response of tumors to castration and by the significant inhibition of tumor growth in intact animals by treatment with a luteinizing hormone-releasing hormone antagonist (BIM-21009). Inhibition of tumor growth resulting from castration persisted for 102 days, after which progressive regrowth occurred, indicating an escape from castration inhibition. When Somatuline treatment was initiated as an adjuvant therapy 5 days after castration, the rate of tumor regrowth during escape was significantly retarded. During the period of 197 days postcastration, tumors in the vehicle-treated, intact controls grew to an average diameter of 38.6 +/- 7.6 mm and tumors in vehicle-treated castrate controls grew to an average diameter of 23.3 +/- 4.1 mm (60% test/control). Treatment with the luteinizing hormone-releasing hormone antagonist induced no significant additional tumor inhibitory effects in castrated animals which developed tumors having an average diameter of 30.2 +/- 8.2 mm (78% test/control). Treatment of tumors in castrate animals with Somatuline, on the other hand, induced a significant (P less than 0.01) tumor-inhibitory effect that was greater than that produced by castration alone, developing an average tumor diameter of only 14.3 +/- 2.6 mm, (37% test/control). A growth inhibitory effect was also inducible in animals having tumors that had already escaped castration inhibition. The relative nontoxicity of a somatostatin analogue such as Somatuline suggests that chronic or maintenance therapy of slow-growing prostate cancers may be both feasible and acceptable in a clinical setting.     

Genetic alteration of the beta-catenin gene (CTNNB1) in human lung cancer and malignant mesothelioma and identification of a new 3p21.3 homozygous deletion.

The beta-catenin gene (CTNNB1) has been shown to be genetically mutated in various human malignancies. To determine whether the beta-catenin gene is responsible for oncogenesis in thoracic malignancies, we searched for the mutation in 166 lung cancers (90 primary tumors and 76 cell lines), one blastoma and 10 malignant mesotheliomas (two primary tumors and eight cell lines). Among the lung cancers, including 43 small cell lung cancers (SCLCs) and 123 non-small cell lung cancers (NSCLCs), we identified four alterations in exon 3, which is the target region of mutation for stabilizing beta-catenin. One primary adenocarcinoma had a somatic mutation from C to G, leading to an amino acid substitution from Ser to Cys at codon 37. Among the cell lines, SCLC NCI-H1092 had a mutation from A to G, leading to an Asp to Gly substitution at codon 6, NSCLC HCC15 had a mutation from C to T, leading to a Ser to Phe substitution at codon 45, and NSCLC NCI-H358 had a mutation from A to G, leading to a Thr to Ala substitution at codon 75. One blastoma also had a somatic mutation from C to G, leading to a Ser to Cys substitution at codon 37. Among the 10 malignant mesotheliomas, we identified a homozygous deletion in the NCI-H28 cell line. Cloning of the rearranged fragment from NCI-H28 indicated that all the exons except exon 1 of the beta-catenin gene are deleted and that the deletion junction is 13 kb downstream from exon 1. Furthermore, Northern blot analysis of 26 lung cancer and eight mesothelioma cell line RNAs detected ubiquitous expression of the beta-catenin messages except NCI-H28, although Western blot analysis showed that relatively less amounts of protein products were expressed in some of lung cancer cell lines. Our findings suggest that the beta-catenin gene is infrequently mutated in lung cancer and that the NCI-H28 homozygous deletion of the beta-catenin gene might indicate the possibility of a new tumor suppressor gene residing in this region at 3p21.3, where various types of human cancers show frequent allelic loss.     

Inactivation of p16INK4a expression in malignant mesothelioma by methylation

The molecular mechanisms of oncogenesis in mesothelioma involve the loss of negative regulators of cell growth including p16(INK4a). Absence of expression of the p16(INK4a) gene product is exhibited in virtually all mesothelioma tumors and cell lines examined to date. Loss of p16(INK4a) expression has also been frequently observed in more common neoplasms such as lung cancer as well. In a wide variety of these malignancies, including lung cancer, p16(INK4a) expression is known to be inactivated by hypermethylation of the first exon. In a survey of ten mesothelioma cell lines, one cell line (NCI-H2596) was identified as possessing loss of p16(INK4a) gene product following gene methylation. This methylation in these mesothelioma cells could be reversed, resulting in re-expression of p16(INK4a) protein, following the treatment of the cells with cytidine analogs, which are known inhibitors of DNA methylation. In previous clinical trials in mesothelioma, the cytidine analog dihydro-5-azacytidine (DHAC) has been found to induce clinical responses in approximately 17% of patients with mesothelioma treated with this drug, including prolonged complete responses. In addition, we identified evidence for methylation of p16(INK4a) in three of 11 resected mesothelioma tumor samples. When both cell lines and tumors are combined, inactivation of p16(INK4a) gene product expression following DNA hypermethylation was found in four of 21 samples (19%). We are further exploring the clinical significance of inhibition of methylation in mesothelioma by cytidine analogs. This may provide a potential treatment target in some mesothelioma tumors by inhibition of methylation.     

Anti-tumor Efficacy of Paclitaxel against Human Lung Cancer Xenografts

We examined paclitaxel for anti-tumor activity against human lung cancer xenografts in nude mice and compared its efficacy with that of cisplatin, currently a key drug for lung cancer chemotherapy. Five non-small cell lung cancers (A549, NCI-H23, NCI-H226, NCI-H460 and NCI-H522) and 2 small cell lung cancers (DMS114 and DMS273) were chosen for this study, since these cell lines have been well characterized as regards in vitro and in vivo drug sensitivity. These cells were exposed to graded concentrations of paclitaxel (0.1 to 1000 nM ) for 48 h. The 50% growth-inhibitory concentrations (GI₅₀) for the cell lines ranged from 4 to 24 n M , which are much lower than the achievable peak plasma concentration of paclitaxel. In the in vivo study, 4 cell lines (A549, NCI-H23, NCI-H460, DMS-273) were grown as subcutaneous tumor xenografts in nude mice. Paclitaxel was given intravenously as consecutive daily injections for 5 days at the doses of 24 and 12 mg/kg/day. Against every xenograft, paclitaxel produced a statistically significant tumor growth inhibition compared to the saline control. Paclitaxel at 24 mg/kg/day was more effective than cisplatin at 3 mg/kg/day with the same dosing schedule as above, although the toxicity of paclitaxel was similar to or rather lower than that of cisplatin, in terms of body weight loss. In addition, paclitaxel showed potent activity against 2 other lung cancer xenografts (NCI-H226 and DMS114). Therefore, paclitaxel showed more effective, wider-spectrum anti-tumor activity than cisplatin in this panel of 6 lung cancer xenografts. These findings support the potential utility of paclitaxel in the treatment of human lung cancer     

Cyclic adenosine monophosphate-dependent cell type-specific modulation of mitogenic signaling by retinoids in normal and neoplastic lung cells

BACKGROUND: Lung cancer is the leading cause of cancer death worldwide. A diet rich in fruit and vegetables has been shown to reduce the lung cancer risk. However, clinical trials with beta-carotene and retinoids have disappointed, resulted in increased mortality from lung cancer and cardiovascular disease. METHODS: We have investigated the effects of the two major retinol metabolites, 9-cis-retinoic acid (9-Cis-RA), and 13-cis-retinoic acid (13-Cis-RA), on cell proliferation (MTT assays), intracellular cAMP (cAMP immunoassays), PKA activation (non-radioactive PKA activation assays), and ERK1/2 phosphorylation (Western blots) in immortalized human small airway epithelial cells, HPL1D, a human lung adenocarcinoma cell line, NCI-H322, immortalized human bronchial epithelial cells, BEAS-2B, and in the human small cell lung carcinoma cell line, NCI-H69. RESULTS: Both retinoids increased intracellular cAMP and PKA activation in all cell lines. In BEAS-2B and NCI-H69 cells, the stimulation of cAMP/PKA reduced the phosphorylation of ERK1/2 and inhibited cell proliferation whereas phosphorylation of ERK1/2 and cell proliferation were increased in HPL1D and NCI-H322 cells. CONCLUSIONS: Our data have identified a novel mechanism of action of 9-Cis-RA and 13-Cis-RA: activation of PKA in response to increased cAMP. The observed stimulation of cAMP/PKA may inhibit the development of small cell lung carcinoma and other tumors derived from large airway epithelia whereas it may selectively promote the development of lung tumors derived from small airway epithelial cells, such as adenocarcinoma.     

Effects of transforming growth factor beta (TGF-beta) receptor on lung carcinogenesis

Transforming growth factor beta (TGF-beta) type-II receptor mutations have been reported in several epithelial-type human malignancies. To elucidate the role of TGF-beta RII in lung cancer progression, we prepared gene-modified clones of the human lung cancer cell line NCI-H23. NCI-H23, a human non-small-cell lung adenocarcinoma cell line which has a frameshift mutation in, and reduced expression of, the TGF-beta type-II receptor (TGF-beta RII), exhibits resistance to growth inhibition by TGF-beta(1) in vitro. Transfection of NCI-H23 with a retroviral vector expressing wild-type TGF-beta RII restored the responsiveness of cells to exogenous TGF-beta(1) with reduced cell proliferation. Immunocytochemical analysis demonstrated nuclear translocation of Smad3 after TGF-beta(1) treatment in RII-restored NCI-H23 cells. Underphosphorylation of the retinoblastoma protein accompanying p21 up-regulation was observed after TGF-beta(1) treatment of NCI-H23-RII cells. Receptor restoration also changed the levels of VEGF mRNA induced by TGF-beta(1). However, impairment of TGF-beta signalling did not alter microvessel formation in vivo in transplanted tumours. Instead, in vivo tumorigenesis experiments revealed a remarkable difference in the number and sizes of the tumours derived from NCI-H23-RII cells and dominant negative NCI-H23-dnRII cells (P < 0.01). Collectively, these observations suggest that impairment of TGF-beta signal transduction contributes significantly to tumour progression, mainly by cell proliferation rather than by modulation of angiogenesis in human NCI-H23 lung carcinoma cells.     

Synergistic cytotoxicity of bcl-2 antisense oligodeoxynucleotides and etoposide, doxorubicin and cisplatin on small-cell lung cancer cell lines.

Expression of Bcl-2 is life-sustaining for small-cell lung cancer cells and associated with drug resistance. In the present study, the interactions between the bcl-2 antisense oligodeoxynucleotide 2009 and the chemotherapeutic agents etoposide, doxorubicin and cisplatin were investigated on small-cell lung cancer cell lines to search for synergistic combinations. The cell lines NCI-H69, SW2 and NCI-H82 express high, intermediate-high and low basal levels of Bcl-2, respectively, which are inversely correlated with the sensitivities of the cell lines to treatment with oligodeoxynucleotide 2009 and the chemotherapeutic agents alone. Moreover, differences were found in the responsiveness of the cell lines to treatment with combinations of oligodeoxynucleotide 2009 and the chemotherapeutic agents. In the cell lines NCI-H69 and SW2, all combinations resulted in synergistic cytotoxicity. In NCI-H69 cells, maximum synergy with a combination index of 0.2 was achieved with the combination of oligodeoxynucleotide 2009 and etoposide. In SW2 cells, the combination of oligodeoxynucleotide 2009 and doxorubicin was the most effective (combination index = 0.5). In the cell line NCI-H82, which expresses a low basal level of Bcl-2, most of the combinations were slightly antagonistic. Our data suggest the use of oligodeoxynucleotide 2009 in combination with chemotherapy for the treatment of small-cell lung cancer that overexpresses Bcl-2.     

Antitumor activity of IHL-305, a novel pegylated liposome containing irinotecan, in human xenograft models

The antitumor effect of IHL-305, a novel pegylated liposome containing irinotecan, was investigated in human xenograft models. After subcutaneous transplantation of several human cancer cell lines (colorectal, non-small cell lung, small cell lung, prostate, ovarian and gastric cancer cells) to nude mice, IHL-305 or CPT-11 was administered intravenously 3 times at 4-day intervals. In all xenograft models tested, IHL-305 showed superior antitumor activity to that of CPT?11 and a comparable tumor-growth-inhibitory effect at one-eighth or less of the dose of CPT-11, even against HT-29 colorectal and NCI-H460 non-small cell lung cancer cell lines, which show intrinsic resistance to CPT-11. A single injection or 2 injections of IHL-305 on several dosing schedules also resulted in a significant antitumor effect compared to that of vehicle control in a dose-dependent manner and showed comparable antitumor activity at about one-fifth the dose of the maximum tolerated dose of CPT-11. The analysis of the concentrations of irinotecan and SN-38, an active metabolite of CPT-11, in plasma and tumors revealed that irinotecan was maintained at high concentrations, and the prolonged presence of SN-38 in plasma and tumors in IHL-305 treated mice compared with CPT-11-treated mice. Therefore, the stronger tumor inhibitory effect of IHL-305, as compared to CPT-11, was associated with the difference in the concentration of irinotecan in plasma or tumors after each agent was administered and with the maintainance of a higher concentration of SN-38. These results indicate that IHL-305 demonstrated superior antitumor activity against a wide range of tumors at lower doses than CPT-11.     

AKT2-siRNA对肺癌细胞NCI-H446沉默作用的研究

背景与目的 肺癌是目前发病率较高的恶性肿瘤之一,其病死率居恶性肿瘤的首位,随着分子生物学研究的不断进展,人们越来越清楚地认识到肺癌的发生和发展是一个多基因参与的多步骤的过程,RNAi作为基因治疗中一种新的效率高、特异性强的治疗手段愈来愈多地受到人们的重视.本研究应用RNA干扰(RNAi)技术,以AKT2为靶基因,设计并构建重组真核表达载体,转染肺癌细胞NCI-H446,观察其对AKT2基因的沉默作用.方法利用已知AKT2的mRNA基因序列设计并合成具有短发夹结构的两条寡核甘酸序列及一条无关对照序列,与pGEM-TEasy载体连接后以T7和SP6为引物进行PCR鉴定,对表达载体pRNAT-U6.2及阳性克隆产物进行双酶切,将得到的基因及线性化的表达载体再次连接,利用PCR的方法进行重组体的筛选鉴定及测序分析,利用脂质体转染肺癌细胞NCI-H446,RT-PCR检测AKT2-mRNA沉默效果.结果 将合成的DNA序列克隆到表达载体上,经PCR扩增筛选鉴定和测序鉴定证实为所需序列,转染肺癌细胞NCI-H446后,AKT2-mRNA表达明显降低.结论 成功构建的靶向AKT2-RNA的干扰重组表达载体可有效抑制肺癌细胞NCI-H446 mRNA的表达.     

Histology and sensitivity to anticancer drugs of two human non-small cell lung carcinomas implanted in the pleural cavity of nude mice.

We have established two metastatic models of human non-small cell lung carcinoma (NSCLC)-the NCI-H460 large-cell carcinoma and the A549 adenocarcinoma-by inoculating tumor cells into the pleural space of nude mice. The objectives of this work were as follows: (a) to study the histological characteristics and growth and dissemination patterns of these tumors in nude mice; (b) to assess their sensitivity to drugs that have demonstrated significant clinical therapeutic effect in the treatment of NSCLC; and (c) to investigate the antitumor activity of S 16020-2, a new olivacine derivative, currently in Phase II clinical evaluation. In each of the two models, all animals developed lung tumors, resulting in 100% mortality. Histopathological study showed that these two tumors spread locally to contiguous structures, including the mediastinal pleura and diaphragm, with histological characteristics consistent with the human pathology. Anticancer drugs used for the treatment of NSCLC, such as cisplatin, doxorubicin, vinblastine, and etoposide, enhanced the life span of treated mice in the two models and were more active in the NCI-H460 than in the A549 model. The increases of survival time as compared to control groups were from 60 (P < or = 0.05) to 83% (P < or = 0.01) and from 21 to 40% for NCI-H460 and A549, respectively. Vinorelbine, paclitaxel, and irinotecan showed similar activities in the two models and increased the survival of treated mice by between 38 and 79% (P < or = 0.001) and between 58 (P < or = 0.01) and 78% in the NCI-H460 and A549 models, respectively. However, none of these drugs was curative, reflecting the resistance of this disease to chemotherapy. S 16020-2 exhibited a remarkable antitumor activity, increasing the survival by 82% (P < or = 0.01) for NCI-H460 and by 126% (P < or = 0.001) for A549. This drug was among the most active compounds in these models, thereby indicating its potential for the chemotherapy of this disease.     

Metabolic activation and cytotoxicity of 4-ipomeanol in human non-small cell lung cancer lines

In the normal lungs of many animal species, 4-ipomeanol is transformed to a highly reactive metabolite preferentially in pulmonary bronchiolar Clara cells and to a lesser extent in alveolar type II cells, potentially leading to damage or destruction of these cell types. Since Clara cells and type II cells are suspected sites of origin of certain "non-small cell" lung cancers, the metabolic activation of 4-ipomeanol (measured by the metabolism-dependent covalent binding of 4-ipomeanol to cellular macromolecules) was compared in two human non-small cell carcinoma derived cell lines (NCI-H322 and NCI-H358) and two human small cell carcinoma derived cell lines (NCI-H128 and NCI-H69). Metabolic activation of 4-ipomeanol was evident in the non-small cell lines; the production of covalently bound metabolite was somewhat greater in NCI-H322 (morphology related to Clara cells) compared to NCI-H358 (morphology related to alveolar type II cells), but was entirely undetectable in the small cell lines. The activation pathway was concentration (4-ipomeanol) and time dependent and followed Michaelis-Menten kinetics. Metabolism to the reactive intermediate required oxygen and was strongly inhibited by carbon monoxide. Covalent binding was enhanced in the non-small cell lines by prior incubation with beta-naphthoflavone and by supplementation of the incubate with exogenous reduced nicotinamide adenine dinucleotide phosphate. 4-Ipomeanol was more cytotoxic to the non-small cell lines than to the small cell lines under the in vitro growth conditions used. These studies indicate that certain human non-small cell lung cancers have metabolic characteristics of normal bronchiolar Clara cells and alveolar type II cells; these results would therefore be consistent with an origin of these tumors from Clara cells or type II cells, respectively. The present studies indicate that the further preclinical testing and development of 4-ipomeanol is warranted, with a view toward possible clinical evaluation against human lung cancers.