UMLS:C0242379 - FACTA Search

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Query: UMLS:C0242379 (lung cancer)
71,905 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to develop a more effective method of immunotherapy we have transfected mouse interleukin-2 (IL2) or mouse interleukin-4 (IL4) cDNA into a spontaneous non-immunogenic murine lung cancer. Lewis lung carcinoma (LLC). IL2 cDNA transfection more strongly decreases tumorigenicity of LLC than IL4 cDNA transfection. Recombinant-human-IL2 treatment of mice that were transplanted with untransfected LLC could not prolong their survival. In contrast, vaccination with IL2-cDNA-transfected LLC (LLC-IL2) and LLC-IL2 mixed with IL4-cDNA-transfected LLC (LLC-IL4) could significantly suppress tumor growth of LLC in a tumor-specific manner. The vaccination with LLC-IL2 mixed with the same number of LLC-IL4 cells was more suppressive to the growth of LLC than that with LLC-IL2 cells alone, while LLC-IL4 vaccination alone was ineffective. Nude, severe-combined-immune-deficient (SCID) and beige mice were unable to reject LLC-IL2 cells. However, immunodeficient mice responded to LLC-IL2, but not to LLC, since their survival times after transplantation with LLC-IL2 cells were significantly longer than the survival time of normal or immunodeficient mice transplanted with untransfected LLC cells. We conclude that vaccination with IL2-producing tumors and, with more pronounced effect, in combination with IL4-producing tumors, is able to induce an immune response to this normally non-immunogenic tumor. Tumor rejection appears to be achieved by the combined activity of CTL and NK cells. This strategy has potential for new immunotherapeutic interventions in cancer patients.
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PMID:Combination effect of vaccination with IL2 and IL4 cDNA transfected cells on the induction of a therapeutic immune response against Lewis lung carcinoma cells. 842 97

Evidence that host immunologic function may influence the behavior of lung cancer is accumulating. Non-small-cell lung cancers are heavily infiltrated by host lymphocytes. The fact that monoclonal antibodies have been developed against lung cancer cells implies that such cells express surface antigens and are therefore vulnerable to immune recognition. Failure of the host defense mechanism to control tumor growth may involve (1) reduced natural killer cell activity, (2) inadequate lymphokine-activated killer cell function, or (3) tumor secretion of immunomodulating factors. Basic immunologic research studies of lung cancer are increasing the potential for clinical applications. New monoclonal antibodies have improved both the sensitivity and the specificity of immunohistopathologic analyses of pulmonary specimens. Links between immune function and prognosis in patients with lung cancer have been established. Finally, initial results from protocols that have used tumor-infiltrating lymphocytes, interleukin 2, and tumor vaccines suggest that immunobiologic treatment modalities may be increasingly applicable in patients with lung cancer.
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PMID:Bronchogenic carcinoma: immunologic aspects. 845

An orthotopic human lung cancer model in nu/nu mice was used to study the effect of an antisense K-ras (AS-K-ras) retroviral construct on tumor growth in vivo. A 2-kilobase genomic AS-K-ras DNA fragment linked to a beta-actin promoter was cloned into the LNSX retroviral vector. The recombinant construct was packaged into GP+envAm12 cells and titers greater than 10(6) colony-forming units/ml were obtained. Irradiated (350 cGy) nu/nu mice were first inoculated intratracheally with 10(5) H460a human large cell lung carcinoma cells which have a codon 61 mutation of the K-ras oncogene. Three days later they received intratracheal instillation of viral supernatant (5 x 10(6) colony-forming units/ml) from either LNSX, LNSX-AS-K-ras, LNSX-sense-K-ras producer cells, or medium daily for 3 days. At autopsy, 30 days after tumor cell inoculation, 90% of the control mice had tumors whereas 87% of mice treated with the LNSX-AS-K-ras viral supernatant were free of tumors. The efficacy of the viral supernatant was dose dependent. Intratracheal administration of retroviral LNSX-AS-K-ras supernatant prevents the growth of human lung cancer cells implanted orthotopically in nu/nu mice.
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PMID:Prevention of orthotopic human lung cancer growth by intratracheal instillation of a retroviral antisense K-ras construct. 846 90

Lung cancer arises as a focal transformation of chronically injured epithelium with cigarette smoke as one of its well-recognized causes. Apart from oxidants (free radicals), cigarette smoke contains such a multitude of (pre)carcinogens that it is astonishing that not every heavy smoker becomes a victim of malignancy. This points to the interindividual variability in susceptibility to carcinogens; several lines of evidence suggest that metabolic factors are involved in such variability. Metabolism of carcinogens as well as the subsequent (multi)steps of carcinogenesis are affected by host factors and governed by the balance between opposing forces, such as metabolic activation and detoxification, formation and scavenging of radicals, and DNA damage and repair, which seem to imply that carcinogenic compounds can initiate tumor growth only in amounts saturating detoxification mechanisms. In this context it is well known that glutathione (GSH) plays a crucial role in the detoxification of xenobiotics. N-Acetylcysteine (NAC), an aminothiol and synthetic precursor of intracellular cysteine and GSH, has been used for many years in Europe as a mucolytic drug. Clinically, it is a safe agent without major side effects and has been considered to have a place in cancer prevention, too. The antimutagenic and anticarcinogenic properties of NAC could be ascribed to multiple protective mechanisms, such as NAC nucleophilicity, antioxidant activity, its ability to act as a precursor of intracellular reduced GSH, modulation of detoxification, and DNA repair processes. On these grounds, NAC has emerged as a most promising cancer chemopreventive agent.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:N-acetylcysteine (NAC) and glutathione (GSH): antioxidant and chemopreventive properties, with special reference to lung cancer. 853 5

Carboplatin and etoposide were reported to be excellent radiation sensitizers. We encountered a patient with SVC syndrome due to lung cancer who was successfully treated by combination carboplatin, etoposide and hyperfractionation radiotherapy. A 72-year-old man was admitted to our hospital because of remarkable face edema. Computed tomography revealed a huge lung tumor and compressed SVC due to tumor growth. Acute tumor regression was essential for this case. We performed combination chemotherapy and radiation. The regime consisted of CBDCA 300 mg (day 1 1 hr drip infusion) and etoposide 50 mg/day for 21 days by oral administration. Two daily fractionations of 1.4 Gy were delivered 5 days-a-week, with a 4 h interval between fractions (total dose 49.8 Gy). Complete response of huge tumor was attained in this case. The major side effect associated with the therapy was myelosuppression. The patient's quality of life has been remarkably improved with this therapy.
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PMID:[A case of superior vena cava syndrome treated with combination radiation and CRE (CBDCA and VP-16) therapy]. 854 62

In the past several years, interest in the immunophysiological role of the pineal gland and melatonin has grown to the extent that now their immunoregulatory role is widely recognized. Melatonin has immunoenhancing properties and it is able to counteract the immunodepression induced by acute stress, drug treatment (i.e., anticancer drugs), and viral infections. Here we review the therapeutic efficacy of melatonin alone or in combination with interleukin-2 (IL-2) in cancer patients who did not respond to standard anticancer chemotherapies and/or refused any aggressive treatment. In this review, we summarize a series of reports from 1986 through 1994 in which patients affected by metastatic solid tumors, metastatic non-small-cell lung cancer, advanced solid neoplasms, myelodysplastic syndrome, hepatocellular carcinoma, and advanced endocrine tumors were studied. The conclusion drawn from these studies is that melatonin protects against IL-2 and synergizes with the IL-2 anticancer action. This combined strategy represents a well tolerated intervention to control tumor growth. In most cases performance status and quality of life seem improved.
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PMID:The clinical neuroimmunotherapeutic role of melatonin in oncology. 875 Mar 42

Successful lung cancer management has been hindered by the limited efficacy of dietary and pharmacologic interventions to prevent or reverse cancer-associated weight loss. The addition of total parenteral nutrition to chemotherapy in early trials was associated with survival detriment. Dietary counseling and enteral supplement use are common strategies that, when evaluated in randomized trials, do not improve anthropometrics or clinical outcome in lung cancer. Pharmacologic agents including corticosteroids, cyproheptadine, growth hormone, hydrazine sulfate, dronabinol, and pentoxyphylline also have failed to improve even anthropometric parameters in this condition. Megestrol acetate use is associated with appetite stimulation and non-fluid weight gain but, when evaluated in small cell lung cancer patients receiving defined chemotherapy, failed to improve global quality of life, and survival and was associated with toxicity. New strategies for nutrition-based interventions in lung cancer cachexia must consider their potential influence on tumor growth as well as on nutritional status. Recent lung cancer prognostic analyses have identified gender differences in outcome and weight loss that suggest potential targets for combined hormonal and nutrition interventions. Emerging information regarding the influence of specific fatty acids on tumor growth and cachexia development have identified additional approaches for future evaluation.
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PMID:Recent implications of weight loss in lung cancer management. 885 Feb 20

A more effective gene therapy strategy for lung cancer using sequential cisplatin administration and adenovirus-mediated p53 gene transfer was developed on the basis of our previous observation of enhanced expression of a reporter gene in malignant cells exposed to cisplatin before gene transfer. Transfer of the normal (wildtype) p53 gene into cisplatin-treated H1299 cells, in which p53 is homozygously deleted, resulted in up to a 60% further inhibition of cell proliferation in vitro than p53 transfer into untreated H1299 cells. The cisplatin plus p53 gene transfer strategy yielded significantly greater apoptosis and tumor growth suppression in an animal model of subcutaneous H1299 tumor nodules than wildtype p53 gene transfer alone. The timing of cisplatin administration and p53 gene transfer was shown to be critical: cisplatin administration simultaneous with or subsequent to p53 gene transfer was less effective than cisplatin-first sequential treatment. Moreover, the in vivo inhibition of tumor growth was maintained by repeated cycles of treatment. This gene therapy strategy has been incorporated into a phase I clinical trial for the treatment of lung cancer and provides a basis for the development of improved therapeutic protocols.
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PMID:Gene therapy for lung cancer: enhancement of tumor suppression by a combination of sequential systemic cisplatin and adenovirus-mediated p53 gene transfer. 891 37

The activity of lipoprotein lipase (LPL), a key regulatory enzyme for triglyceride (TG) clearance from plasma, is reported to decrease as the tumor burden increases in tumor-bearing animals and patients with lung cancer; therefore, it is believed to play a key role in inducing cancer cachexia. We attempted to reverse cancer cachexia by stimulating LPL activity with an antihypertriglyceridemic drug, bezafibrate. Bezafibrate, which reduces circulating TG levels by stimulating tissue LPL activity, has been used clinically in patients with hypertriglyceridemia. Bezafibrate was administered subcutaneously to 24 rats at a dose of 30 mg/kg per day from the 8th day after tumor inoculation with methylcholanthrene-induced sarcoma until they were killed on either the 25th or 33rd day, at the precachectic and cachectic stages, respectively. The animals were divided into the following three groups: treated tumor-bearing rats (treated TBR group), untreated TBRs (untreated TBR group), and a control (CTR) group. LPL activities in both the adipose tissue and cardiac muscle were measured by the method of Nilsson-Ehle and Schotz. Both TG and nonesterified fatty acid (NEFA) became elevated as the size of the tumor increased in the TBRs; however, this increment was quantitatively less in the treated TBR group than in the untreated TBR group. The administration of bezafibrate resulted in preservation of the epididymal fat pad mass at the cachectic stage. A significant decrease in LPL activity in the epididymal fat was observed in the untreated TBR group at the cachectic stage, but this was prevented in the treated TBR group, the values being 2.97 +/- 1.37 U/whole tissue in the untreated TBR group, 4.03 +/- 1.11 in the treated TBR group, and 10.15 +/- 6.61 in the CTR group. Thus, tumor growth in the treated TBR group at the cachectic stage was significantly suppressed compared with that of the untreated TBR group. These results suggest that the decreased LPL activity that occurs in the tumor-bearing state can be stimulated by the antihyperlipidemic drug bezafibrate, which may modulate some of the tumor-bearing state can be stimulated by the antihyperlipidemic drug bezafibrate, which may modulate some of the tumor-induced metabolic alterations leading to cancer cachexia.
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PMID:Stimulation of decreased lipoprotein lipase activity in the tumor-bearing state by the antihyperlipidemic drug bezafibrate. 891 77

We investigated whether local production of macrophage colony-stimulating factor (M-CSF), responsible for migration and activation of monocytes/macrophages at a tumor growth site, affected the metastatic pattern of lung cancer. For this, highly metastatic human squamous (RERF-LC-AI) or small (H69/VP) cell lung carcinoma cells were transduced with the human M-CSF gene inserted into pRc/CMV-MCSF to establish M-CSF-producing clones (MCSF-AI-9-18, MCSF-AI-9-24, and MCSF-VP-5). M-CSF gene transduction had no effect on the expression of surface antigen or on in vitro proliferation. After s.c. injection into SCID mice, the growth rates of M-CSF-producing cells were slower than those of parent or mock-transduced cells. In the metastatic model in SCID mice depleted of natural killer cells, RERF-LC-AI cells formed metastases mainly in the liver and kidneys, whereas H69/VP cells metastasized mainly to the liver and systemic lymph nodes. The numbers of metastatic colonies of MCSF-AI-9-18 and MCSF-AI-9-24 cells in the liver but not the kidneys were significantly reduced. The development of lymph node metastases of MCSF-VP-5 cells was also less than that of parent or mock-transduced cells. Treatment of SCID mice with anti-human M-CSF antibody resulted in a significant increase in liver metastases of their M-CSF gene transfectants. No significant differences were observed in the distributions in mice or in the in vitro invasive potentials of MCSF-AI-9-18 cells and Neo-AI-3 cells. These findings indicate that the antimetastatic effect of M-CSF may be specific to particular organs, suggesting the influence of heterogeneity of organ microenvironments on the metastasis of lung cancer.
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PMID:Macrophage colony-stimulating factor gene transduction into human lung cancer cells differentially regulates metastasis formations in various organ microenvironments of natural killer cell-depleted SCID mice. 904 61

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