Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Since the lung receives blood supply from both the bronchial and pulmonary arteries, chemotherapeutic agents given through both channels would give higher local drug concentration and better therapeutic results in the treatment of lung cancer. In this study, 10 patients with advanced NSCLC were treated by dual arterial infusion (DAI) of carboplatin (300mg/m2) and VP-16 (200-300mg/m2) twice at 3-week interval. From DAI treatment, a response rate of 80% (CR 2, PR 6) was achieved. In 5 patients DAI treatment had made surgical resection of the lung cancer possible. The 1-, 2- and 3-year survivors were 8, 6 and 5 respectively, with a median survival time of 11.5 months.
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PMID:[Treatment of non-small-cell lung cancer by dual (bronchial and pulmonary) arterial drug infusion]. 765 9

We examined the levels of expression of the multidrug resistance-associated protein (MRP) gene quantified by Northern blot analysis in comparison with those of the MDR1 gene determined by reverse transcription-polymerase chain reaction (RT-PCR) in 104 non-small-cell lung cancer (NSCLC) specimens [59 adenocarcinoma (Ad), 40 squamous cell carcinoma (Sq), four large cell carcinoma (La) and one adeno-squamous carcinoma (AdSq)]. Thirty-three (31.7%) of the 104 NSCLC expressed the MRP gene at various levels. The NSCLC showing high (++) levels of MRP gene expression (19 out of 33, 57.6%) were predominantly squamous cell carcinomas (Ad, 5; Sq, 13; La, 1) (P < 0.05). Six of the eight NSCLCs expressing high levels of MRP mRNA and no MDR1 (MRP ++, MDR1-) were squamous cell carcinomas. Sixty-one of the 104 NSCLC patients received chemotherapy with MRP-related anti-cancer drugs [vindesine (VDS) and etoposide (VP-16)]. Twenty-three patients (37.7%) with tumour expressing high or moderate levels of MRP showed significantly worse prognoses than those with non- or low-MRP-expressing tumours (P < 0.05). These results suggest that the level of MRP gene expression is related to the histopathology and prognosis of NSCLC.
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PMID:Expression of the multidrug resistance-associated protein (MRP) gene in non-small-cell lung cancer. 766 60

A human cell subline (PC-9/VCR) resistant to vincristine was established from non-small cell lung cancer PC-9 cells by incremental exposure of the cells to vincristine. The resistant cells showed phenotypic resistance to vincristine (10-fold), colchicine (6.9-fold) and cisplatin (1.4-fold) but they showed sensitivity to other chemotherapeutic agents including melphalan and etoposide VP-16. The characteristics of the vincristine resistance was partially inhibited (5-7-fold) by co-treatment of PC-9/VCR cells with a nontoxic concentration of L-ascorbic acid (25 micrograms/ml). Co-treatment or 96 h pre-treatment with ascorbic acid resulted in potentiation of the vincristine effect on the resistant, but not on the sensitive, cell line. The growth inhibition due to vincristine treatment after 24 or 96 h growth in ascorbic acid-free medium was decreased in the resistant as well as in the sensitive cell line. In both cell lines, enhanced growth rate has been shown after ascorbic acid treatment. Similarly, cross-resistance of PC-9/VCR cells to colchicine could also be blocked by ascorbic acid. In addition, a nontoxic concentration of verapamil, a known multidrug resistance inhibitor, did not affect the resistant phenotype of PC-9/VCR cells. These findings suggest that an ascorbic acid-sensitive mechanism may be involved in drug resistance per se in the human lung cancer cells, which differs from the classical phosphoglycoprotein-mediated or previously reported non-phosphoglycoprotein-mediated multidrug resistance.
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PMID:Potentiation of growth inhibition due to vincristine by ascorbic acid in a resistant human non-small cell lung cancer cell line. 772 Jul 83

Many clinically important antineoplastic agents exert their cytotoxicity through interaction with the M(r) 170,000 topoisomerase II alpha, an essential nuclear enzyme. Resistance to these agents has been associated frequently with either a decrease in the levels of topoisomerase II alpha or a qualitative change that alters the interaction of this enzyme with a drug or DNA. Using a VP-16-selected lung cancer cell line, H209/V6, we have identified a third resistance mechanism which involves an aberrant subcellular location of the topoisomerase II alpha isoenzyme. We have shown previously that H209/V6 cells express two topoisomerase II alpha mRNAs (6.1 and 4.8 kilobases) but only a single catalytically active protein which has a M(r) of 160,000 and is located primarily in the cytoplasm (Mirski et al., Cancer Res., 53: 4866-4873, 1993; Feldhoff et al., Cancer Res., 54: 756-762, 1994). In the present study we have determined that this mutant M(r) 160,000 topoisomerase II alpha is encoded by the shorter 4.8-kilobase mRNA. The sequencing of reverse transcriptase-PCR products from H209/V6 cells and subsequent Northern blot analyses showed that a sequence of 988 nucleotides from the 3'-coding and 3'-noncoding region of the normal topoisomerase II alpha is absent from the 4.8-kilobase mRNA. This shorter mRNA is predicted to encode a topoisomerase II alpha protein that no longer contains the 109 COOH-terminal amino acids of the normal enzyme but instead contains 34 new amino acids encoded by a sequence that was previously in the 3'-noncoding region of the mRNA. Confirmation that the COOH terminus of topoisomerase II alpha is no longer present in the M(r) 160,000 protein in H209/V6 cells was obtained by immunoblot analysis. Sequence analyses indicate that 3 putative bipartite nuclear localization signals in the M(r) 160,000 protein are disrupted or lost. Our results suggest that sequences within the COOH-proximal domain of human topoisomerase II alpha serve an important nuclear localization function.
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PMID:Cytoplasmic localization of a mutant M(r) 160,000 topoisomerase II alpha is associated with the loss of putative bipartite nuclear localization signals in a drug-resistant human lung cancer cell line. 774 13

A 48-year-old man was admitted to our hospital because of upper abdominal pain, and a cervical tumor, on Oct. 23, 1992. Chest X-ray, CT scan and MRI revealed a tumor (left-S10) and enlarged mediastinal lymph nodes. A pathological diagnosis of small cell lung cancer was made by transbronchial biopsy. Ultrasonography showed liver metastases. He received four courses of chemotherapy (Carboplatin, Ifosfamide, Etoposide). Three days after the completion of chemotherapy, his serum transaminase level was markedly increased, and he was disorientated on March 4, 1993. In spite of plasma exchange, the patient died due to hepatic failure on March 6, 1993. Fulminant hepatitis in a patient with lung cancer receiving chemotherapy is rarely reported.
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PMID:[A case of small cell lung cancer associated with fulminant hepatitis B]. 779 62

As an approach to the rational design of combination chemotherapy involving the anti-cancer DNA topoisomerase II poison etoposide (VP-16), we have studied the dynamic changes occurring in small-cell lung cancer (SCLC) cell populations during protracted VP-16 exposure. Cytometric methods were used to analyse changes in target enzyme availability and cell cycle progression in a SCLC cell line, mutant for the tumour-suppressor gene p53 and defective in the ability to arrest at the G1/S phase boundary. At concentrations up to 0.25 microM VP-16, cells became arrested in G2 by 24 h exposure, whereas at concentrations 0.25-2 microM G2 arrest was preceded by a dose-dependent early S-phase delay, confirmed by bromodeoxyuridine incorporation. Recovery potential was determined by stathmokinetic analysis and was studied further in aphidicolin-synchronised cultures released from G1/S and subsequently exposed to VP-16 in early S-phase. Cells not experiencing a VP-16-induced S-phase delay entered G2 delay dependent upon the continued presence of VP-16. These cells could progress to mitosis during a 6-24 h period after drug removal. Cells experiencing an early S-phase delay remained in long-term G2 arrest with greatly reducing ability to enter mitosis up to 24 h after removal of VP-16. Irreversible G2 arrest was delimited by the induction of significant levels of DNA cleavage or fragmentation, not associated with overt apoptosis, in the majority of cells. Western blotting of whole-cell preparations showed increases in topoisomerase II levels (up to 4-fold) attributable to cell cycle redistribution, while nuclei from cells recovering from S-phase delay showed enhanced immunoreactivity with an anti-topoisomerase II alpha antibody. The results imply that traverse of G1/S and early S-phase in the presence of a specific topoisomerase II poison gives rise to progressive low-level trapping of topoisomerase II alpha, enhanced topoisomerase II alpha availability and the subsequent irreversible arrest in G2 of cells showing limited DNA fragmentation. We suggest that protracted, low-dose chemotherapeutic regimens incorporating VP-16 are preferentially active towards cells attempting G1/S transition and have the potential for increasing the subsequent action of other topoisomerase II-targeted agents through target enzyme modulation. Combination modalities which prevent such dynamic changes occurring would act to reduce the effectiveness of the VP-16 component.
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PMID:Etoposide-induced cell cycle delay and arrest-dependent modulation of DNA topoisomerase II in small-cell lung cancer cells. 794 97

A patient with secondary acute myelomonocytic leukemia after treatment with chronic oral etoposide (VP-16) for lung cancer is reported. The leukemic cells showed a t(9;11)(p22;q23) translocation. Southern blot analysis revealed the rearrangement of the MLL (ALL-1/HRX) gene at 11q23. Reverse transcriptase-polymerase chain reaction (RT-PCR) revealed a chimeric mRNA between the MLL gene at 11q23 and LTG9 (MLLT3/AF-9) gene at 9p22. The patient was successfully treated with a VP-16 based regimen. This case is instructive in the understanding of the leukemogenesis of VP-16-related leukemias.
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PMID:Acute myelomonocytic leukemia after treatment with chronic oral etoposide: are MLL and LTG9 genes targets for etoposide? 794 64

Two adenocarcinoma cell lines were established from metastatic lymph node of lung cancer patients. The cell lines were named NUTLC-1 and NUTLC-3. They were found to have the following biological characterization and sensitivity to anticancer agents by comparison with clinical effect of the drugs on each donor patient: 1) By chromosomal analysis, the tumor cells of two cell lines were human-origin cells. Number of chromosomes of these cell lines ranged from 67 to 77 in NUTLC-1 cells and from 61 to 66 in NUTLC-3 cells, with the modal numbers of 73 and 64, respectively. 2) The tumor cells of the two cell lines were heterotransplanted subcutaneously into nude mice, but, no natural distant metastasis was observed 2 months after transplantation. 3) Sensitivity to anticancer agents on NUTLC-1 and NUTLC-3 cells differed individually according to methylthiazol tetrazorium (bromide) (MTT) colorimetric assay. NUTLC-1 cells were sensitive to Mitomycin C (MMC) and Adriamycin (ADM), and insensitive to Cisplatinum (CDDP), 5-Fluorouracil (5-FU) and Etoposide (VP-16). Antitumor effect of CDDP and 5-FU on recurrent tumor of donor patient was not observed clinically. NUTLC-3 cells were sensitive to CDDP, MMC and ADM, and insensitive to 5-FU and VP-16. Sensitivity to CDDP and MMC on NUTLC-3 cells also correlated to clinical effect of the drugs on the donor patient. From these results, it appears that these new cell lines are useful materials for studies on lung cancer.
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PMID:Characteristics of the two newly established cell lines of human pulmonary adenocarcinoma and their sensitivity to anticancer agents. 802 20

To test the feasibility of a regimen of high-dose cisplatin, ifosfamide, and etoposide (VP-16; VIPP regimen), we registered 15 patients with advanced non-small-cell lung cancer in a phase I trial of the Northern California Oncology Group. One cycle of treatment consisted of high-dose cisplatin given at 100 mg/m2 i.v. on days 1 and 8, VP-16 given at 60-75 mg/m2 i.v. on days 1-3, plus ifosfamide given at 1.0-1.2 g/m2 i.v. on days 1-3; cycles were repeated every 28 days. There were 13 men and 2 women; the median age was 59 years (range, 47-72 years). The median Karnofsky performance status (KPS) was 90 (range, 70-100). All patients were assessable for toxicity and response. The median number of cycles delivered per patient was two (range, one to four). Hematologic toxicity was dose-limiting and required de-escalation of the ifosfamide and VP-16 doses. Ten patients developed a white blood count of < 1000/mm3 and seven patients developed a platelet count of < 50,000/mm3. The duration of cytopenia increased progressively with each subsequent cycle of therapy. Two patients required antibiotics for neutropenic fever with documented infections (pneumonia, bacteremia). Seven patients received red blood cell transfusions for a hemoglobin level of < 8 gm/dl. Grade III or IV non-hematologic toxicities were uncommon and involved one patient each with grade 3 ototoxicity and grade 3 neurotoxicity. Five patients developed laboratory evidence of renal salt wasting. The overall response rate was 33% (5/15) with a complete response being achieved by two patients (13%) and a partial response being attained by three (20%). The overall median survival was 44 weeks. We conclude that although this regimen demonstrated activity, hematologic toxicity limited its use in the palliative treatment of non-small-cell lung cancer. Using hemopoietic growth-factor support to permit dose escalation, this schedule of VIPP may be of interest in a number of different chemotherapy-sensitive tumor types.
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PMID:Phase I study of high-dose cisplatin, ifosfamide, and etoposide. 803

Etoposide has demonstrated highly significant clinical activity against a wide variety of neoplasms, including germ-cell malignancies, small-cell lung cancer, non-Hodgkin's lymphomas, leukemias, Kaposi's sarcoma, neuroblastoma, and soft-tissue sarcomas. It is also one of the important agents in the preparatory regimens given prior to bone marrow and peripheral stem-cell rescue. Despite its high degree of efficacy in a number of malignancies, the optimal dose, schedule, and dosing form remain to be defined. It is possible that continuous or prolonged inhibition of the substrate, i. e., topoisomerase II, may be the key factor for the cytotoxic effects of etoposide. Clinical studies have shown the activity of etoposide to be schedule-dependent, with prolonged dosing, best accomplished by the oral dosing form, offering a therapeutic advantage. This benefit awaits validation by prospective randomized studies, some of which are in progress. Recent clinical investigations have focused on the use of etoposide in combination with (a) cytokines to ameliorate myelosuppression, the dose-limiting toxicity of etoposide; (b) agents such as cyclosporin A and verapamil to alter the p-glycoprotein (mdr1) function; and (c) topoisomerase I inhibitors to modulate the substrate upon which it acts. There is continued interest in the development of etoposide to its maximal clinical dimensions and in the examination of alternative biochemical and mechanistic approaches to further our understanding of this highly active agent.
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PMID:Etoposide: current status and future perspectives in the management of malignant neoplasms. 807 20


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