Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0684249 (lung carcinoma)
 23,830 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tallysomycin S10b (TLM S10b), a structural analog of bleomycin (BLM), was evaluated and compared with BLM for antitumor activity in several murine tumor systems and for toxic effects in mice and rats. Neither TLM S10b nor BLM was effective against IP P388 and L1210 leukemias, whereas both drugs were active against IP P388/J leukemia (a BLM-sensitive subline). TLM S10b and BLM were both active against murine solid tumors, including SC B16 melanoma, IV Lewis lung carcinoma, SC Madison 109 lung carcinoma, SC CD8F1 mammary carcinoma and SC Colon 38 carcinoma. In human tumor xenograft models, TLM S10b was active against a colon tumor and had slight activity against breast and lung tumors. Compared with TLM S10b, BLM had less activity against the colon tumor, comparable activity against the breast tumor, and no effect against the lung tumor. A consensus of the antitumor data indicated that compared with BLM, TLM S10b had comparable or greater activity and was about twice as potent. TLM S10b and BLM had approximately equivalent LD50 values in mice. TLM S10b had minimal effects on WBC counts, blood urea nitrogen levels, and serum glutamic pyruvic transaminase levels in mice during the time periods monitored. These effects were comparable to or less pronounced than those of BLM. Both drugs caused dose-related increases in the whole-lung hydroxyproline content in mice, but the dose-response curves were not parallel. TLM S10b caused a larger increase than BLM at the lower doses and a smaller increase than BLM at the highest doses. In rats, TLM S10b and BLM caused comparable, significant decreases in lung mechanics; however, histopathological examination of the lungs indicated that TLM S10b caused less evidence of pulmonary toxicity than did BLM at comparable dose levels. TLM S10b was, therefore, generally comparable to BLM in causing pulmonary toxicity in mice and showed possibly less pulmonary toxicity in rats, while demonstrating approximately equivalent to four-fold greater potency, depending on the test system. It also appeared that TLM S10b caused less pulmonary toxicity than BLM in both mice and rats at doses approaching maximally tolerated levels. TLM S10b is currently undergoing phase I clinical evaluation.
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PMID:Tallysomycin S10b: experimental antitumor activity and toxicity. 620 48

The experimental antitumor activity of a new mitomycin derivative, 7-cysteaminomitosane (RR-150), was evaluated in mice. When administered i.p. to mice bearing i.p.-implanted tumors, RR-150 was superior to mitomycin C (MMC) in increasing the life span of animals bearing P388 leukemia, B16 melanoma, and a line of L1210 leukemia partially resistant to MMC. RR-150 appeared comparable to MMC in increasing life span of mice bearing Madison 109 lung carcinoma, Colon 26 carcinoma, or parental (nonresistant) L1210 leukemia. Mice immunosuppressed with 550 rads whole-body irradiation prior to i.p. implantation of B16 still benefited (e.g., 40% cure rate) following optimal RR-150 therapy when compared to nonirradiated, B16-implanted mice given RR-150 (e.g., 70% cure rate). RR-150 had inconsistent activity in the treatment of s.c.-implanted tumors. In toxicity evaluations, RR-150 was comparable to MMC in suppression of total while blood cell counts but appeared to be less neutropenic. RR-150 also caused less cumulative leukopenia than did MMC in a weekly chronic dose experiment. Based on serum chemistries, RR-150 did not have significant nephrotoxicity, but there was evidence of possible liver toxicity at doses near the 50% lethal dose. Because of the balance of favorable antitumor and toxicity properties of RR-150, work is under way to prepare a more bioavailable form for advanced evaluation.
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PMID:Antitumor activity and toxicity in animals of RR-150 (7-cysteaminomitosane), a new mitomycin derivative. 643 70

By designing optimal administration schedules, it was found that 4-carbamoylimidazolium 5-olate (SM-108) showed an excellent antitumor potency against a number of murine tumors. The optimal administration schedule of SM-108 was an intermittent multiple administration, in which the drug was multiply administered to mice at definite intervals of less than 3 hr for about 1 day on Days 1, 5, and 9 following tumor implantation. Although usual daily administration of SM-108 exhibited poor efficacy, the intermittent multiple administration of SM-108 exhibited potent antitumor activity against a wide variety of tumors, such as Ehrlich carcinoma, P388, 6-mercaptopurine-sensitive and -resistant L1210, Lewis lung carcinoma, Colon 26 adenocarcinoma, and Sarcoma 180. Among them, Ehrlich carcinoma showed the most prominent susceptibility to SM-108. With the intermittent multiple administration of SM-108, complete suppression was obtained in both the ascitic and solid forms of this tumor over a wide dose range. The schedule dependency of the antitumor effect of SM-108 described above was reasonably explained by its in vitro growth-inhibitory effects and pharmacokinetics in the mice.
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PMID:Optimal treatment schedule and antitumor spectrum of 4-carbamoylimidazolium 5-olate (SM-108) in murine tumors. 664 May 36

In synthetic studies on the chemical modification of the nucleoside antibiotic bredinin, two new derivatives, 5-carbamoyl-1H-imidazol-4-yl 1-adamantanecarboxylate and 5-carbamoyl-1H-imidazol-4-yl piperonylate, were found to possess a potent antitumor activity in several experimental tumor systems, even though bredinin itself shows only in vitro cytotoxicity and thus lacks therapeutic effectiveness. These two derivatives of bredinin exhibited antitumor activity against a wide variety of tumors, including leukemias L1210 and P388, Lewis lung carcinoma, B16 melanoma, Colon 26 and 38 adenocarcinomas. Ehrlich carcinoma, and Sarcoma 180. It is noteworthy that these agents showed good therapeutic effects not only against ascitic types of tumors but also against a number of slow-growing solid tumor lines, particularly the ascitic and solid forms of Ehrlich carcinoma. At their optimal doses, both compounds effected a complete cure of all or most of the mice treated. Although the mechanisms of action of these compounds remain unknown, they are able to suppress in vivo tumor growth, presumably by being slowly anabolized in vivo to an active form and inhibiting purine de novo synthesis as bredinin does.
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PMID:Antitumor activities of newly synthesized 5-carbamoyl-1 H-imidazol-4yl 1-adamantanecarboxylate and 5-carbamoyl-1H-imidazol-4yl piperonylate. 743 64

The antitumor effects of 6-O-(3-ethoxypropionyl)-3',4'-O-exo- benzylidenechartreusin (IST-622), a new synthetic derivative of chartreusin (CT), were investigated. Following oral administration, IST-622 showed marked antitumor effects against various mouse tumors such as P388 and L1210 leukemias, B16 melanoma, Lewis lung carcinoma, Colon 26 and Colon 38 adenocarcinomas, and M5076 reticulum-cell sarcoma. The best antitumor effects were obtained by five intermittent treatments given every 4 days. In addition, IST-622 showed a significant growth-inhibitory effect against two human tumor xenografts, a large-cell lung cancer (Lu-116) and a gastric adenocarcinoma (St-4), among the seven lines tested. IST-622, which was rapidly metabolized into 3',4'-O-exo-benzylidenechartreusin (A-132) and not into CT in vivo or in culture medium, exhibited remarkable growth-inhibitory activity against P388 leukemia in vitro, its 50% growth-inhibitory concentration (IC50) being over 20-fold lower than that of CT. IST-622 showed an in vivo antitumor effect superior to that of authentic A-132, possibly resulting from a higher absorption ratio of IST-622 through the gastrointestinal tract. IST-622 is now under clinical phase I study in Japan.
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PMID:Antitumor effects of IST-622, a novel synthetic derivative of chartreusin, against murine and human tumor lines following oral administration. 803 94

The antitumor activity of navelbine (vinorelbine ditartrate, KW-2307) against murine and human transplantable tumors was compared with those of other vinca alkaloids, vindesine (VDS), vincristine (VCR) or vinblastine (VLB). KW-2307 and VDS increased the life span of mice bearing ascitic tumors (P 388 leukemia, L 1210 leukemia, EL-4 lymphoma, Colon 26, FM 3 A mammary carcinoma and M 5076 sarcoma) slightly more than VCR or VLB. A significant difference was not found in the antitumor activities against 6 murine solid tumors (B 16 melanoma, Colon 26, FM 3 A mammary carcinoma, Lewis lung carcinoma, M 5076 sarcoma and Sarcoma 180). However, a remarkable difference was observed in the antitumor activities against 11 human tumors inoculated into nude mice. The activity of KW-2307 was more than those of other 3 drugs against 4 human non-small cell lung carcinomas (Lu-65, Lu-99, LC-6 and L-27) and 2 stomach carcinomas (St-4 and St-40). KW-2307 and VDS were also effective in inhibiting the growth of 2 human breast carcinomas (MX-1 and Br-10).
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PMID:[Antitumor activity of navelbine (vinorelbine ditartrate), a new vinca alkaloid analog]. 842 87

We synthesized a potent new antitumor podophyllotoxin derivative (4beta-aminoalkyl-4'-O-demethyl-4-desoxypodophyllotoxin; TOP-53) in our search for a drug that has strong activity against lung cancer and lung metastatic cancer. TOP-53 exhibited twice the inhibitory activity of etoposide (VP-16) against topoisomerase II and induced DNA strand breaks but showed no inhibitory activity against tubulin polymerization. The in vitro cytotoxic activity of TOP-53 assessed as IC50 was 0.016-0.37 microg/ml and 0.26-8.9 microg/ml against marine tumor and human non-small cell lung cancer (NSCLC) cell lines, respectively. TOP-53 exerted significant efficacy equivalent to that of VP-16 on s.c.-implanted murine solid tumors (Colon 26, B16-BL6, and Lewis lung carcinoma) at doses 3-5 times lower than that of VP-16. In human tumor xenografts using NSCLC, TOP-53 was active for four of five tumors, whereas VP-16 was active for two of five tumors. Potent inhibitory activity of TOP-53 was also found against a lung tumor (Lewis lung carcinoma) and four lung metastatic tumors (NL-22 and NL-17 colon cancer, UV2237M fibrosarcoma, and K1735M2 melanoma). TOP-53 appeared to be more active against four of them than VP-16. Thus, TOP-53 is not only active against s.c.-implanted lung cancers but also strongly active against lung localized tumor and metastatic tumors in the lungs. The high selectivity of TOP-53 was attributed to its high distribution into the lung and its persistence. TOP-53 is expected to be highly effective against lung cancer including NSCLC and various lung metastatic tumors in the clinical field.
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PMID:Antitumor activity of a novel podophyllotoxin derivative (TOP-53) against lung cancer and lung metastatic cancer. 866 18

The inhibitory effect of acyclothymidine[AcyT, 5-methyl-1-(2'-hydroxyethoxymethyl) uracil], a potent pyrimidine nucleoside phosphorylase (PyNPase) inhibitor, on 5'-deoxy-5-fluorouridine (5'-DFUR) phosphorolysis in human and mouse tumor cell homogenates was measured. Competitive inhibition was observed in MKN-74 and Lewis lung carcinoma (LLC), whereas non-competitive inhibition was observed in HeLa. The strength of the inhibitory effect by AcyT showed the following pattern: HeLa < human normal intestine < mouse normal intestine < Colon 26 < LLC < MKN-74 < DLD-1. From the kinetic parameter obtained, we simulated the inhibitory effect of AcyT on 5'-DFUR phosphorolysis in tumor cells and the intestine. These data indicated that AcyT was more sensitive in normal mouse intestine than in Colon 26 and LLC, and that orally administered AcyT can reduce the intestinal toxicity of 5'-DFUR without reducing the antitumor effect in the mouse. The present finding may have an important implication for attempts to introduce AcyT, a potent PyNPase inhibitor, into the clinic.
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PMID:Inhibition of 5'-deoxy-5-fluorouridine phosphorolysis by acyclothymidine in tumor cell homogenates. 930 Jan 47

Small-cell carcinoma of the rectum is an infrequent pathologic finding, and its precise incidence is unknown. Its incidence is less than 0.2 percent among all colorectal cancers. This tumor manifests highly aggressive behavior. The treatment of choice is combination chemotherapy similar to that used for small-cell carcinoma of the lung, but in small localized tumors surgery plus chemotherapy is an alternative. We present two cases of small-cell carcinoma of the lower rectum and a review of the literature.
Dis Colon Rectum 1999 Feb
PMID:Small-cell carcinoma of the rectum: report of two cases. 1021 9

We evaluated the postoperative adjuvant chemotherapy by UFT using the primary tumor amputation-pulmonary metastasis model. When Lewis lung carcinoma (LLC) primary tumors on the hind foot pad grew palpable, they were amputated on two different days. In experiment (A) (earlier amputation model), micrometastases were detected on the day of amputation only by the histopathological examination. In the experiment (B) (later amputation model), nodules could be determined even by necropsy. Long-term (60-day) consecutive administration of UFT (22 mg/kg/day), which produced no body weight loss, markedly prolonged the survival period in experiment (A) (ILS: over 118%), 1 of the 15 mice being cured. UFT had a relatively weak but significant effect (67% of ILS) in schedule (B). Using the same model, we examined the inhibitory effect of UFT (2-week administration) on the number of metastatic nodules. A significant decrease of metastatic nodules was observed by UFT with both amputation schedules, but its effect was superior with schedule (A). In the same model using Colon 26 PMF-15, UFT markedly prolonged the survival period of mice (150% of ILS) and significantly decreased the metastatic nodules (86% inhibition). The dose of UFT used was relatively low, and did not significantly inhibit the growth of large tumors. However, the sensitivity to the micrometastases was high. These findings suggest that the postoperative adjuvant chemotherapy by the long-term consecutive administration of UFT would be effective for clinical cancer especially in curatively resected cases.
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PMID:Experimental postoperative adjuvant chemotherapy by UFT using primary tumor amputation model. 1071 50


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