Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0598934 (tumor growth)
 58,965 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1-(2-Chloroethyl)-3-(beta-D-glucopyranosyl)-1-nitrosourea (GANU), a water-soluble nitrosourea, differs from 2-[3-(2-chloroethyl)-3-nitrosoureido]-D-glucopyranose (chlorozotocin) by the placement of the cytotoxic group on C-1 of glucose. Its biological and biochemical properties are compared with those of chlorozotocin. At a 10% lethal dose (10 mg/kg i.p.), GANU demonstrates minimal myelosuppression. This dose failed to depress normal bone marrow DNA synthesis, in contrast to a 96% inhibition in L1210 DNA synthesis. In L1210 cell suspension, equimolar doses of GANU and chlorozotocin produced equivalent degrees of inhibition in DNA synthesis. GANU has significant L1210 activity in BALB/c X DBA/2 F1 mice treated on Day 2 of tumor growth. A 117% increased life-span and 15% 45-day survivors are atained with 15 mg/kg i.p., a 50% lethal dose. However, in concurrent studies using randomly selected littermate groups of mice, GANU proved less active than chlorozotocin which produced a 306% increased life-span (15 mg/kg i.p.). GANU and chlorozotocin have similar in vitro alkylating activity but the in vitro carbamoylating activity of GANU is sevenfold that of chlorozotocin. On a molar basis, the lethal toxicity of GANU is twice that of chlorozotocin. The significant carbamoylating activity of GANU may contribute to its greater toxicity and therefore limit the mumoles of alkylating agent that can be administered to the tumor. These structure-activity studies further confirm that the addition of a glucose carrier to a cytotoxic nitrosourea moiety can selectively reduce bone marrow toxicity while retaining antitumor activity.
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PMID:Biological and biochemical properties of 1-(2-chloroethyl)-3-(beta-D-glucopyranosyl)-1-nitrosourea (NSC D 254157), a nitrosourea with reduced bone marrow toxicity. 13 78

The chemotherapeutic activity of thymidine (dThd) was tested against four human tumor xenografts growing in nude mice, including a melanoma, an oat cell carcinoma of the lung, a colon carcinoma, and a breast carcinoma. Tumor-bearing mice were given an infusion of dThd (1 g/kg/day) s.c. for 72 hr each week for three weeks. Tumor growth in the treated mice was compared to that in randomized concurrent control mice infused with media alone. A significant effect was found only for the melanoma, and it was cytostatic rather than cytotoxic. Even when melanomas of very small initial volume were treated, there were no complete regressions, and tumor growth resumed when dThd treatment was stopped. In culture, sustained dThd concentrations of greater than 3.2 mM were required to cause death of the melanoma cells; in the mice the dThd level during infusion ranged from 1 to 5 mM. This exposure to dThd, although failing to produce a tumor response, did produce significant toxicity in the nude mice in the form of myelosuppression and leukopenia. Flow cytometric analysis of marrow cells during the dThd infusion showed an accumulation of cells in S phase, but proliferation was not completely halted since cells with G2-M content of DNA were present in the marrow even after 72 hr of dThd exposure. This study failed to demonstrate a therapeutically useful effect of dThd on these tumors.
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PMID:Activity of thymidine as a chemotherapeutic agent against human tumor xenografts in nude mice. 47 23

The present investigations have assessed the effects of prolonged cyclophosphamide (CY) and Corynebacterium (CP) treatment on the production of bone marrow macrophage precursors [colony-forming cells (CFC)] and on the cytotoxicity of macrophages comprising colonies produced by the CFC. The findings have been correlated with tumor growth in animals receiving the immunochemotherapy. In addition, studies have been directed toward ascertaining whether the administration of CP with CY might lessen the myelosuppressive effects of the latter. Following each consecutive weekly dose of CY (even after as many as 11), there was a significant depression in the number of bone marrow cells (BMC's) but, by the next injection, marrow cellularity had returned to normal. When the number of BMC's was reduced, the proportion of the remaining cells, which consisted of CFC, was increased. Upon reconstitution of the marrow, the proportion of CFC returned to the level of the controls. The total number of CFC in marrow was at no time following CY therapy significantly less than the number in marrow of untreated mice. The addition of CP to the treatment regimen with CY resulted in an absolute as well as relative increase in CFC at all times during administration of the combined therapy, i.e., when there was a depression in total numbers of marrow cells, as well as when marrow restoration had occurred. Although CP stimulated the number of cells entering into differentiation, it failed to affect the total numbers of marrow cells, as well as when marrow restoration had occurred. Although CP stimulated the number of cells entering into differentiation, it failed to affect the total BMC's had been neither increased nor prevented from decreasing, by CP administration, indicating that the use of total cellularity as an index of the CP marrow-sparing effect is without merit. The present results relative to cytotoxicity of macrophages derived from the CFC concur with and extend our previous findings indicating that the cytotoxic property of macrophages originates in its ancestral stem cell or CFC and that factors responsible for increasing the CFC population do not selectively stimulate precursor cells responsible for production of the cytotoxic macrophage. Although the proportion of cytotoxic macrophages was not altered by CP when administered with CY, the absolute number of such cells was increased. Since the increase in macrophage colony production and, consequently, in cytotoxic macrophages correlates with increased inhibition of tumor growth when CP was used with CY, it is suggested that macrophage precursors are the cells of primacy in CP immunopotentiation. Their stimulation, resulting in enhanced cytotoxic macrophage formation, could be responsible for the inhibition of tumor growth observed in our model system. The findings also suggest that when myelosuppression is a limiting factor in the use of a chemotherapeutic agent, the concomitant use of CP may be advantageous.
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PMID:Correlation of antitumor chemoimmunotherapy with bone marrow macrophage precursor cell stimulation and macrophage cytotoxicity. 127 29

This study examined the effect of a trimodality therapy of the combination of recombinant human tumor necrosis factor alpha (TNF), whole-body hypertheria (WBH), and cis-diamminedichloroplatinum(II) (CDDP) or cis-diammine-1,1-cyclobutane dicarboxylate platinum(II) (CBDCA) on a fibrosarcoma and normal tissue in F344 rats. TNF (1 x 10(5) units/kg) increased the antitumor effect of both CDDP (1.5 mg/kg) + WBH (2 h at 41.5 degrees C) and CBDCA (30 mg/kg) + WBH. Tumor growth delay, which was 1.9 days for CDDP + WBH and 2.7 days for CBDCA + WBH (P less than 0.01 compared to control), was significantly increased to 2.9 days with TNF + CDDP + WBH and 5.4 days with TNF + CBDCA + WBH (P less than 0.05). WBH, TNF, CDDP or CBDCA alone, TNF + CDDP, TNF + CBDCA, or TNF + WBH had no significant effect on tumor growth. In contrast, administration of TNF did not enhance the CDDP- or CBDCA-mediated dose limiting normal tissue toxicity. CDDP + WBH-mediated acute renal injury and CBDCA + WBH-mediated acute myelosuppression, as determined by blood urea nitrogen and peripheral blood cell counts, respectively, were not increased with the addition of TNF to either dual modality therapy. Histopathologically, addition of TNF produced no significant alterations in the kidney and the bone marrow as compared to CDDP + WBH or CBDCA + WBH. These data show that TNF enhanced the platinum + WBH-mediated antitumor effect without increasing normal tissue toxicity, suggesting that TNF may increase the therapeutic efficacy of CDDP or CBDCA combined with WBH.
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PMID:Increased therapeutic efficacy induced by tumor necrosis factor alpha combined with platinum complexes and whole-body hyperthermia in rats. 163 21

Myelosuppression following intensive chemotherapy in cancer patients is associated with increased morbidity and mortality. Hematopoietic growth factors such as granulocyte colony-stimulating factor (G-CSF) and granulocyte-macrophage colony-stimulating factor (GM-CSF), alone or in combination with interleukin-1 (IL-1), have been shown to counteract myelosuppression resulting from some, but not all, chemotherapeutic regimens. In an attempt to apply these findings to intensive therapy with proliferation-dependent chemotherapeutic drugs such as fluorouracil (5-FU), we investigated combination biochemotherapy in a murine model. Female CD8F1 [(BALB/c X DBA/8)F1] mice bearing first-passage transplants of spontaneous CD8F1 breast tumors were treated intraperitoneally once a week for 3 successive weeks with a course of 5-FU alone or with a course of 5-FU in combination with recombinant human interleukin-1 beta (rHuIL-1 beta) alone or in combination with CSFs. rHuIL-1 beta alone or in combination with rHuG-CSF or recombinant murine GM-CSF significantly improved tumor growth inhibition (60% vs. 90%) and survival (20% vs. 90%-100%), increased the maximally tolerated dose of 5-FU, accelerated recovery of neutrophil counts in peripheral blood, and reduced duration of significant neutropenia and loss of body weight (29% vs. 10% loss). Clinical trials of IL-1 have been initiated in patients with advanced cancer receiving multiple courses of high-dose 5-FU.
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PMID:Hematologic effects of interleukin-1 beta, granulocyte colony-stimulating factor, and granulocyte-macrophage colony-stimulating factor in tumor-bearing mice treated with fluorouracil. 169 5

The use of [(+)-1,2-bis(3,5-dioxopiperazinyl-1-yl)]propane (ICRF-187) as a protective agent against normal tissue toxicity caused by combined Adriamycin (ADR) and whole body hyperthermia (WBH; 2 h at 41.5 degrees C) was assessed in a rat model. The effect of ICRF-187 on the antitumor response induced by the combination of ADR and WBH was also investigated in order to assess alterations in the therapeutic index of this combined therapeutic modality treatment. ICRF-187 significantly reduced ADR-mediated body weight loss, renal toxicity, and cardiomyopathy under both normothermic and hyperthermic conditions as shown by morphological and functional assays. ADR-induced neuropathy (seen only in normothermic rats) was also ameliorated by ICRF-187. Although this study did not show a pronounced effect of ICRF-187 on ADR-induced acute myelosuppression, ADR-mediated chronic anemia, leukocytosis, and thrombocytosis were reduced by ICRF-187 in both normothermic and WBH-treated rats. The effect of ICRF-187 on antitumor response was evaluated with a tumor growth delay assay using an in vivo transplantable fibrosarcoma. ICRF-187 caused no significant change in tumor growth delay induced by either ADR alone or ADR combined with WBH. Indeed, the only complete tumor regression following treatment resulted from the combination of ICRF-187 plus ADR plus WBH. Thus, ICRF-187 significantly increases the therapeutic index of the combined modality treatment of ADR and WBH by selectively reducing normal tissue toxicity without interfering with antitumor efficacy.
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PMID:Protective effect of ICRF-187 against normal tissue injury induced by adriamycin in combination with whole body hyperthermia. 190 99

Brequinar sodium is a quinoline carboxylic acid derivative that has shown antitumor activity in a number of in vivo murine and human tumor xenograft models. Its mechanism of action is blockade of de novo pyrimidine biosynthesis by inhibition of dihydroorotic acid dehydrogenase. In vitro and in vivo studies demonstrate the superiority of prolonged drug exposure in achieving tumor growth inhibition. This phase I study evaluated the administration of brequinar sodium by short, daily i.v. infusion for 5 days repeated every 4 weeks. Fifty-four subjects were enrolled in the study and received drug in doses ranging from 36-300 mg/m2. The dose-limiting toxicities were mucositis and diffuse skin rash. Other toxicities included myelosuppression, nausea, vomiting, malaise, and burning at the infusion site. The maximum tolerated dose on the "daily times 5" schedule was 300 mg/m2. The recommended phase II dose is 250 mg/m2. Pharmacokinetic analysis of the day 1 drug clearance curves in 51 subjects showed slight nonlinearity in the relationship between dose and area under the clearance curve (AUC). The dose versus AUC relationship was well described using a Michaelis-Menten model of brequinar elimination kinetics with Vmax = 45 (micrograms/ml)/h and Km = 123 micrograms. Analysis of the day 5 drug clearance curves revealed a diminution in Vmax to 30 (micrograms/ml)/h. As a consequence of the reduction in Vmax brequinar plasma concentrations on day 5 were higher than predicted from day 1 drug kinetics. Pharmacodynamic analysis of the day 1 kinetic parameters and the toxicities occurring during the first cycle of drug therapy revealed significant correlations between mucositis and dose, AUC, and peak brequinar concentration; between leukopenia and AUC and peak drug concentration; and between thrombocytopenia and beta elimination rate.
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PMID:Phase I and pharmacokinetic study of brequinar sodium (NSC 368390). 236 34

Since the introduction of Cisplatin (CDDP) into clinical practice in 1972, CDDP has assumed an important role in the treatment of various tumors. But its renal toxicity has been proved to be a dose limiting factor. Thus the total number of courses which may be given is limited. For this reason, efforts have been made to develop CDDP analogues with reduced toxicities, especially renal toxicity, and more enhanced antitumor activity, and they are now reaching the clinical testing phase. Among them Carboplatin (CBDCA), 254-S, DWA 2114R and NK 121 have been well studied. These analogues were noted to be less nephrotoxic, but more myelosuppressive than CDDP in preclinical analysis. As for cytotoxicity, their inhibitory effects on tumor growth in murine experimental system were similar or more to that of CDDP. Due to these data clinical trials have been carried out. Phase I studies have shown that these analogues are relatively free of renal toxicity as evaluated in preclinical studies and that their dose limiting factor is myelosuppression. Estimation of cross resistance to CDDP and antitumor spectrum have been studied at phase II trials which are ongoing. Interim reports have not shown that enhanced tumor activity or enlarged antitumor spectrum are expected.
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PMID:[Preclinical and clinical evaluation of toxicity and antitumor activity of cisplatin analogues]. 265 26

Solid tumor biopsies from 33 patients were tested in vitro to evaluate the growth modulatory effects of recombinant human granulocyte-macrophage colony-stimulating factor (GM-CSF). In 29 of 33 studies (88%), addition of GM-CSF either had no effect on in vitro growth, or induced growth inhibition. While significant growth inhibition was observed in 10 studies, marked inhibition was only observed in three studies. However, all dose-response curves were usually flat, suggesting indirect effects. Moderate growth stimulation was observed in four instances, which may have been due to residual granulocyte-macrophage progenitors within the biopsies. We conclude that GM-CSF has little or no growth-modulatory effect on most nonhematopoietic neoplasms. The primary role of GM-CSF in patients with solid tumors appears to be in prevention or reversal of myelosuppression associated with therapy. Thus, while GM-CSF seems unlikely to have a role in monotherapy of cancer, it is also unlikely to have its utility compromised by enhancement of tumor growth.
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PMID:Effects of granulocyte-macrophage colony-stimulating factor on in vitro growth of human solid tumors. 267 Dec 90

Effects of oral administration of Juzentaihoto, a herb drug, on the toxic side effects of cis-diammine dichloroplatinum (CDDP) and combination effects with CDDP on murine bladder tumor (MBT 2) were studied using C3H/He male mice. The following results were obtained; 1. When the mice were treated with the mixture diet of 1% or 0.5% Juzentaihoto before 2 weeks, adverse effects of high dose CDDP (15 or 17.5 mg/kg) which were included with lethal toxicity, renal and hepatic toxicity, and myelosuppression were protected significantly. The administration of 0.5% Juzentaihoto mixture diet markedly shifted the LD50 to the right. Furthermore, the effects of Juzentaihoto were clearly revealed on the histological findings of testis and kidney. 2. On murine bladder tumor, when the mice were treated with the mixture diet of 1% or 0.5% Juzentaihoto and injected CDDP (2.5 mg/kg/week) for 8 weeks, significantly greater inhibition of the tumor growth and prolongation of the survival rate were observed than those in the group of CDDP alone. These results indicates that Juzentaihoto lessens the toxic side effects of CDDP and that it enhances the effects of CDDP experimentally. Juzentaihoto, a kind of Chinese herb medicine, might come under the category of biological response modifiers.
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PMID:[Basal studies on combination of Chinese medicine in cancer chemotherapy: protective effects on the toxic side effects of CDDP and antitumor effects with CDDP on murine bladder tumor (MBT-2)]. 279 54


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