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)

HO-221, N-[4-(5-Bromo-2-pyrimidinyloxy)-3-chlorophenyl]-N'-(2-nitrobenzoyl ) urea is a novel benzoylphenylurea derivative. We had interested in various pharmacological actions of benzoylphenylurea compounds. Therefore, many compounds were synthetized and tested in various screening systems. In the process with these tests, we found HO-221 which showed an excellent antitumor activity. The antitumor activity of HO-221 was judged from the survival time and the tumor weight of experimented tumor-bearing animals. HO-221 preparation was orally administered. The compound exhibited significant effects against various animal tumors (P388, L1210, M5076, LLC, C38, S180, W256), and especially effective against the solid tumors. HO-221 was also markedly effective to MX-1 and LX-1 implanted into nude mice. However, the effect against mouse B16 melanoma was moderate. In addition, HO-221 showed a schedule dependency and once every 4 or 7 days treatments were most effective. The antitumor activities of the compound against advanced L1210 and Lewis lung tumors were examined. Tegafur and ara-C were used as reference drug for the study. Three agents showed the antitumor activities against L1210. Against Lewis lung carcinoma, HO-221 showed both the increase of life span and the tumor growth inhibition. On the other hand, tegafur and ara-C were ineffective for the increase of life span.
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PMID:[Antitumor effect of a benzoylphenylurea derivative HO-221]. 226 Aug 71

A 65-year-old man underwent left-upper lobectomy for large cell carcinoma of the lung on November 8, 1984 (pT1N0M0: Stage I a). He was treated with MMC, Futraful, CDDP and CPM as adjuvant chemotherapy. In April 1985, he was re-admitted to our hospital because of progressive dyspnea. He was diagnosed as having drug-induced interstitial pneumonia, and so steroid therapy was started. In July 1985, he suffered from anemia, thrombocytopenia, proteinuria and azotemia progressively, and died due to pulmonary hemorrhage and edema. At necropsy, no cancer recurrence was found. It thus seemed that the cause of death was microangiopathic hemolytic anemia and renal failure induced by anti-neoplastic agents.
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PMID:[Microangiopathic hemolytic anemia (MAHA) and renal failure induced by anti-neoplastic agents--a case report]. 303 22

The Lewis lung carcinoma, implanted in the footpad of BDF1 mice, was used for testing a preoperative chemotherapeutic treatment in comparison to a postoperative one, or to surgery alone. We administered both drugs effective in this model (Cyclophosphamide, Ifosfamide, CCNU), as well as ineffective ones (Ftorafur, Methyl-GAG, Vincristine) in order to study all the possible influences on the treatment outcome. In nine different experiments one active and one inactive drug were always compared in various schedules. Groups with surgery alone at an early or later stage were used as controls. The results showed that preoperative adjuvant treatment with an active drug decisively improved the survival time and the number of cured animals compared to surgery alone. The administration of an inactive drug and postponement of surgery decreased the number of cures, while the lifespan of the animals dying from lung metastases was not influenced. An improved treatment outcome compared to surgery alone resulted in cases where the preoperative inactive treatment was replaced by postoperative treatment with an active drug-a procedure also common and applicable for clinical practice. The body weight of the animals, noted as a sign of toxicity, was lowered when a cytostatic drug was used in addition to removal of the primary tumor. There was no difference between pre- or postoperative and repeated administrations. Based on these results preoperative adjuvant cytostatic treatment with histological control of response and decision for postoperative adjuvant treatment is recommended for clinical practice.
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PMID:Preoperative (neoadjuvant) chemotherapy in the murine Lewis lung carcinoma and possible implications for clinical use. 359 36

The blood level of PH-FU following oral administration to rabbits and tumor-bearing mice was considerably lower than that of Tegafur, HCFU or 5'DFUR, and decreased more rapidly. The t1/2 beta was 0.48 h (rabbits) and 1.74-1.91 h (mice). The blood level of 5-FU derived from PH-FU was higher at an earlier time after administration than that derived from other 5-FU derivatives, but it disappeared more rapidly. The tissue level of PH-FU in S-180-and Lewis lung carcinoma-bearing mice was detected at a low level in various tissues of mice, except for a higher level in the digestive tract and a lower level in the brain and muscle. The tissue level of 5-FU in both types of mice was high in the digestive tract and kidney. The 5-FU level in the 2 kinds of tumor tissues was relatively high and persisted for several hours. After incubating PH-FU and tissue homogenates from humans and mice at 37 degrees C for 2 h, PH-FU was converted to 5-FU very strongly in the liver and kidney, and considerably strongly in the muscle, heart, tongue and testis. In conclusion, PH-FU seems to be characterized by a low blood and tissue level of unchanged drug, a high production of 5-FU and a short duration of the level.
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PMID:[Pharmacokinetics of 1-phthalidyl-5-fluorouracil (PH-FU)]. 371 64

FU-O-G, the O-glucuronide methylester of 5-fluorouracil (5-FU), is a compound with a unique chemical structure. It is an antitumor agent of the prodrug type which exerts its activity by enzymatically liberating 5-FU in tumor tissues. It has been reported that the antitumor activity of this compound is superior to those of 5-FU and Tegafur (FT-207) in the treatment of various transplantable tumors. In this study, long-term administration of FU-O-G to mice bearing relatively slow-growing tumors such as Lewis lung carcinoma, mammary tumor FM3 A and hepatoma MH-134 was carried out. Consequently, FU-O-G was shown to be remarkably effective against those tumors, whereas 5-FU and FT-207 were hardly effective. Long-term daily administration was shown to be more effective than intermittent dosage in the treatment of Lewis lung carcinoma. In combination therapies of FU-O-G with other antitumor drugs, FU-O-G exhibited a synergistic effect against Lewis lung carcinoma when combined with Carboquone (CQ) or Nimustine hydrochloride (ACNU).
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PMID:[Antitumor effect of FU-O-G, new antitumor agent, following long term administration]. 643 7

The antitumor activity of a glucuronide of 5-fluorouracil, methyl (5-fluoro-1H-2-oxo-4-pyrimidinyl beta-D-glucopyranosid) uronate (FU-O-G), which is a 5-fluorouracil (5-FU) derivative with remarkably low toxicity, was studied. The antitumor activity of this compound was superior to those of 5-FU and 1-(2-tetrahydrofuryl)-5-fluorouracil (Tegafur, Ftorafur) in the treatment of transplantable tumors, not only 5-FU-sensitive tumors such as adenocarcinoma 755, lymphosarcoma LS-1, and plasmacytoma X5563, but also 5-FU-resistant tumors such as Lewis lung carcinoma and Walker carcinosarcoma 256. Furthermore, in the treatment of Lewis lung carcinoma, which responds poorly to 5-FU and Ftorafur, daily administration of FU-O-G at a dose of 400 mg/kg for 30 days produced a 92% increase in life span without marked loss of body weight, though short-term administration (such as 5 days) was barely effective. Thus, it appears that FU-O-G is an antitumor agent suitable for long-term administration. These findings correspond with the results of an enzymological study which showed selective activation of FU-O-G by beta-glucosidase in tumor cells and indicated that the compound is a marked form of 5-FU.
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PMID:Antitumor activity of methyl (5-fluoro-1H-2-oxo-4-pyrimidinyl beta-D-glucopyranosid)uronate against various experimental tumors. 679 41

S-1, a new oral antitumor agent, is composed of 1-(2-tetrahydrofuryl)-5-fluorouracil (Tegafur, FT), 5-chloro-2,4-dihydroxypyridine (CDHP) and potassium oxonate (Oxo) in a molar ratio of 1:0.4:1. FT which is a masked compound of 5-fluorouracil (5-FU) acts as an effector, while both CDHP and Oxo which do not have antitumor activity themselves act as modulators. In this study, the antitumor activity and intestinal toxicity of S-1 were investigated using experimental tumor models in rats, and compared with those of other oral fluoropyrimidines, namely 5-FU, FT, FCD (1 M FT/0.4 M CDHP) and UFT (combination of FT and uracil). In rats bearing subcutaneous Yoshida sarcoma, S-1 inhibited tumor growth at the lowest dose (ED50 value: S-1 5, UFT 22, FT 82, FCD 5, and 5-FU 19 mg/kg per day), and induced the least host body weight suppression, leading to the highest therapeutic index (TI) (S-1 4.5, UFT 1.4, FT 1.8, FCD 2.0, and 5-FU 1.4). S-1 also showed a higher therapeutic effect than UFT against AH-130 and Sato lung carcinoma. After administration of S-1 and UFT at equitoxic doses, S-1 showed a higher and more prolonged concentration of 5-FU than UFT both in plasma (AUC0-infinity: S-1 28 nmolh/ml, UFT 15 nmol.h/ml) and in tumor tissue (AUC0-infinity: S-1 95 nmolh/g tissue, UFT 52 nmolh/g tissue), leading to a higher 5-FU level incorporated into the RNA fraction (F-RNA level) in tumor tissue (AUC0-24: S-1 7.0 nmolh/mg RNA, UFT 4.3 nmolh/mg RNA) and 5-8% higher thymidylate synthase (TS) inhibition in tumor tissue at every time-point through 24 h. Compared with other oral fluoropyrimidines after administration of the maximal tolerable dose (MTD), S-1 caused the lowest rates of intestinal toxicities, such as diarrhea and occult blood in feces. S-1 also showed a higher antitumor effect on Yoshida sarcoma implanted intracolonically than UFT at an equitoxic dose (tumor weight: S-1 64 +/- 30 mg, UFT 133 +/- 52 mg; P < 0.05). These results suggest that CDHP, which is a potent inhibitor of 5-FU degradation, increases the antitumor activity of FT, and that Oxo, which is an inhibitor of 5-FU phosphorylation, locally protects the gastrointestinal tract from 5-FU-induced toxicity without decreasing the antitumor activity.
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PMID:Antitumor activity and low intestinal toxicity of S-1, a new formulation of oral tegafur, in experimental tumor models in rats. 899 21