UMLS:C0598934 - FACTA Search

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Query: UMLS:C0598934 (tumor growth)
58,965 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thirty-two murine monoclonal antibodies (MAbs) against the external domain of the human transferrin (Tf) receptor have been obtained using human Tf receptor glycoprotein produced in a baculovirus expression system as immunogen. The MAbs were tested separately, and in combination, for their ability to inhibit growth of CCRF-CEM leukemic T-cells in tissue culture. One MAb, D65.30, an IgG1, inhibited growth of CCRF-CEM cells as effectively as the anti-Tf receptor MAb 42/6, an IgA, previously found to have the highest antiproliferative activity in this assay. Some combinations of two or more MAbs inhibited the in vitro growth of CCRF-CEM much more effectively than single MAbs. Eleven IgG1 anti-Tf receptor MAbs, when combined individually with D65.30, increased the inhibition of CCRF-CEM growth from approximately 65% to greater than 90% in a 7-day growth assay. Similarly, many IgG MAbs in combination with 42/6 also inhibited CCRF-CEM growth by greater than 90%. The growth-inhibitory effects of certain combinations of MAbs were clearly synergistic, because either one or both MAbs tested separately were inactive. These pairs of MAbs also inhibited the growth of HL-60 and KG-1 leukemic cells by greater than 90% and partially inhibited the growth of K562 erythroleukemia and M21 melanoma cells, which are resistant to MAb 42/6. However, not all combinations of anti-Tf receptor MAbs were more effective; eight MAbs markedly antagonized the antiproliferative effects of D65.30, whereas 12 others had little or no effect. Preincubation of HL-60 cells with three different pairs of MAbs, D65.30 and A27.15, B3/25 and 42/6, and B3/25 and TR3A, inhibited subsequent colony formation by greater than 95%, demonstrating that their action is cytotoxic, not cytostatic. The antiproliferative activity of these pairs of MAbs correlates with their ability to block Tf-mediated 59Fe uptake and perturb Tf receptor expression. Treatment of nude mice bearing established s.c. CCRF-CEM tumors with a combination of MAbs D65.30 and A27.15 inhibited tumor growth and in some animals led to complete tumor regression. Each MAb administered separately was much less effective. We conclude that combinations of two or more anti-Tf receptor MAbs can interact synergistically to inhibit cell growth in vitro and tumor growth in vivo.
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PMID:Combinations of anti-transferrin receptor monoclonal antibodies inhibit human tumor cell growth in vitro and in vivo: evidence for synergistic antiproliferative effects. 240 Sep 93

The growth of human CCRF-CEM T-cell lymphoblastic leukemia was studied in mice immune deprived by different techniques, and in CD-nu/nu athymic mice. Female CBA/CaJ mice were immune deprived by infant thymectomy, priming with 1-beta-D-arabinofuranosylcytosine (200 mg/kg) 48 h prior to total body irradiation (925 cGy) designated theta ara-C gamma; or after thymectomy the mice received 925 cGy total body irradiation with marrow reconstitution (4 x 10(6) nucleated cells), designated theta gamma BM. Only in mice immune deprived by theta gamma BM, subsequently given a single dose of cyclophosphamide (100 mg/kg) 18-24 h before transplantation of CCRF-CEM, was there progressive reproducible engraftment and tumor growth. For mice immune deprived in this manner the tumor engraftment rate was 100 and 80% of tumors achieved greater than or equal to 1 cm3 within 46 days. In immune-deprived CBA/CaJ mice, but not CD-nu/nu athymic mice, tumor transplanted to the s.c. site metastasized to paraaortic and axillary nodes. Metastatic spread to lymph nodes was confirmed by immunophenotyping and by karyotyping. In contrast to the CCRF-CEM cells in culture, which expressed cytoplasmic CD3 (T3) but not surface CD3, both s.c. and metastatic CCRF-CEM line was exposed to phorbol-12-myristate 13-acetate in vitro to mimic the apparent differentiation which occurred in the xenografted cells, and a similar expression of surface CD3 after treatment was seen. This surface expression of CD3 was accompanied by production of mRNA for the T-cell receptor alpha chain and surface expression of the T-cell receptor. Identical T-cell receptor beta and gamma chain gene rearrangements were found for the CCRF-CEM line in vitro and the xenografted cells in vivo, demonstrating that only one clone was present and that differences in immunophenotyping were not the result of clonal selection. These results suggest that host (mouse) hematopoietic factors could affect human leukemic cell differentiation.
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PMID:Growth and differentiation of a human T-cell leukemia cell line, CCRF-CEM, grafted in mice. 255 61

The lipophilic antitumor alkaloid acronycine (ACRO) was solubilized in the cosolvent system used for etoposide. ACRO in this etoposide diluent (VPD) was found to be cytotoxic (less than or equal to 50% colony formation in soft agar) in fresh human tumors from patients with renal cell cancer, ovarian cancer, uterine cancer, and metastatic tumors of unknown primary. In P-glycoprotein-positive, multidrug-resistant (MDR) cell lines, ACRO in VPD was active in MDR Chinese hamster ovary cells but not against MDR L1210 murine leukemia cells, 8226 human myeloma cells, or human CCRF-CEM lymphoblasts. In mice, ACRO in VPD was active in two solid tumor models and an i.p. MOPC-315 plasmacytoma model. ACRO i.p. in 10% VPD (v/v%) produced significant tumor growth delays in (a) nude mice bearing human MCF-7 breast cancer xenografts and (b) C57BL mice bearing colon 38 tumor. In MOPC-315-bearing mice, a single i.p. ACRO dose of 25 mg/kg was as effective as melphalan (15 mg/kg) at prolonging life span. Finally, ACRO pharmacokinetics was evaluated in mice given single 25-mg/kg doses i.p. or p.o. The oral bioavailability of an ACRO solution in VPD was only 50% but both i.p. and p.o. regimens achieved plasma levels greater than 1.0 micrograms/ml. The plasma half-life was just under 2 h. These results show that parenteral ACRO in VPD comprises a cytotoxic antitumor agent with improved bioavailability over p.o. administration. ACRO is active in vitro against several human solid tumors but is cross-resistant in 3 of 4 MDR tumor cell lines. The prior clinical activity of p.o. ACRO in myeloma and the new results in MOPC-315 plasmacytomas in mice suggest that ACRO in VPD could have activity against human multiple myeloma.
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PMID:Antitumor activity and murine pharmacokinetics of parenteral acronycine. 291 Apr 53

In vivo immunochemotherapy of human solid tumors was studied in a nude mouse model. Large tumors (3 to 6 cm3) were induced by s.c. injection of the acute lymphoblastic leukemia T-cell line CEM. Transient tumor inhibition could be achieved by intratumoral injection of an intact-ricin immunotoxin that specifically recognizes a determinant CD5 (T,p67) expressed on the cell surface. Injection of the in vitro active cyclophosphamide congener mafosfamid had little effect on the progression of tumor growth. A combination regimen of immunotoxin and mafosfamid induced the most dramatic antitumor effect; a 72 to 100% reduction in tumor volume was observed within 3 to 4 days posttreatment. However, tumors relapsed within 5 to 13 days. Persistent, tumor regression was observed only when protocols using successive injections of combined immunotoxin/mafosfamid were used. All seven mice undergoing this treatment had a precipitous decrease in tumor size, and 86% survived greater than 30 days posttreatment. No residual tumor was detectable on Day 30 in five of seven mice. Regression was partly attributed to the selective activity of immunotoxin, since successive injections of an irrelevant control immunotoxin coupled to ricin in combination with mafosfamid did not reduce tumor size. Thus, we have demonstrated that a combination of anticancer chemotherapy and immunotoxin therapy yielded a greater antitumor effect than either therapy alone.
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PMID:Combined immunochemotherapy of human solid tumors in nude mice. 349 78

The microbial product wortmannin has previously been shown to be a potent inhibitor of phosphatidylinositol-3-kinase. In view of the potential role of this enzyme in transduction of mitogenic signals, we determined the cytotoxic activity of wortmannin against several human tumor cell lines in vitro. The most sensitive lines included GC3 colon carcinoma, IGROV1 ovarian carcinoma, and CCRF-CEM leukemia (IC-50s ranging from 0.7-2.1 microM). The cytotoxicity of wortmannin was decreased approximately 10-fold by serum-free conditions. Wortmannin was generally less active in low passage human breast cancer cell lines that overexpress either epidermal growth factor receptor or Her2/neu. Wortmannin was also tested for in vivo antitumor activity against seven murine tumor and ten human tumor xenograft models. Activity (> 60% inhibition of tumor growth) was observed in only the C3H mammary carcinoma and the human BxPC-3 pancreatic carcinoma xenograft. In vivo antitumor activity did not correlate with in vitro sensitivity to wortmannin cytotoxicity.
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PMID:In vitro and in vivo antitumor activity of the phosphatidylinositol-3-kinase inhibitor, wortmannin. 765 91

Interleukin-11(rhIL-11) is a cytokine that has been shown to enhance the recovery of bone marrow and intestinal crypt cells after cytotoxic insult with radiation or anticancer drugs. The current study examined the effects of rhIL-11 on the response of CEM human lymphoblastic leukemia cells and on the EMT-6 murine mammary carcinoma in vivo to cytotoxic anticancer therapies. Exposure of CEM cells to rhIL-11 for 24 hr did not alter the cytotoxicity of melphalan or radiation, increased the cytotoxicity of CDDP (100 muM) and 4-hydroperoxycyclophosphamide (50 betaM) and decreased the cytotoxicity of 5-fluorouracil and ara-C toward the cells. Treatment of mice bearing the EMT-6 tumor with rhIL-11 twice daily for 4 days prior to and the day of cytotoxic therapy resulted in no significant change in the tumor cell killing or bone marrow CFU-GM killing by melphalan, cyclophosphamide, thiotepa, CDDP, radiation, 5-fluorouracil or ara-C. Administration of rhIL-11 twice per day on days 7-18 to EMT-6 tumor bearing animals receiving high dose chemotherapy (melphalan, thiotepa or cyclophosphamide) as a single dose on day 7 followed by mobilized peripheral blood cells on day 8 and rhG-CSF on days 8-20, tended to prolong the tumor growth delay produced by the drugs. This rhIL-11 treatment also resulted in a more rapid recovery of white blood cells and granulocytes in the animals. Furthermore, animals treated with rhIL-11 had improved survival rates compared with animals receiving all other normal tissue support without rhIL-11.
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PMID:Interaction of interleukin-11 with cytotoxic therapies in vitro against CEM cells and in vivo against EMT-6 murine mammary carcinoma. 882 60

Lometrexol, a tight-binding antifolate inhibitor of the purine de novo enzyme glycinamide ribonucleotide formyltransferase (GARFT), was the first GARFT inhibitor to be investigated clinically. Unexpected observations of delayed cumulative toxicity prompted a search for a second generation antimetabolite with a more favorable biochemical, pharmacological and toxicological profile. LY309887, 6R-2',5'-thienyl-5, 10-dideazatetrahydrofolic acid, had 9-fold greater potency to inhibit GARFT (Ki = 6.5 nM) compared to lometrexol. Like lometrexol, LY309887 was activated by folpolyglutamate synthetase, however, it had a lower first order rate constant. In vitro and in vivo data were consistent with these observations: polyglutamation of LY309887 was less extensive compared to lometrexol and livers of mice accumulated fewer polyglutamates of LY309887 than polyglutamates of lometrexol. The affinities of these two compounds for isoforms of human folate receptors (FR) were compared. Lometrexol had a 6-fold higher affinity for FR alpha than LY309887 and both compounds had higher affinity for the alpha isoform compared to the beta isoform. The selectivity of LY309887 for FR alpha (beta (Ki)/ alpha (Ki) = 10.5) was twice that of lometrexol's (beta / alpha = 5.0). Lometrexol and LY309887 were potent cytotoxic compounds against the human leukemia cell line CCRF-CEM with IC50's of 2.9 nM and 9.9 nM, respectively. In vivo, LY309887 was more potent than lometrexol at inhibiting tumor growth in the C3H mammary murine tumor model and several tumor xenografts. Excellent efficacy was achieved by both compounds in several colon xenografts. In two pancreatic human xenografts, LY309887 achieved greater efficacy than lometrexol. In summary, the biochemical and pharmacological properties of lometrexol and LY309887 support the hypothesis that these antifolates will have clinical activity against human solid tumors. LY309887 is a second generation GARFT inhibitor with biochemical and pharmacological properties which distinguish it from lometrexol and suggest that it will have broad antitumor activity, a different pharmacokinetic profile and produce less toxicity than lometrexol in cancer patients.
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PMID:Biochemistry and pharmacology of glycinamide ribonucleotide formyltransferase inhibitors: LY309887 and lometrexol. 895 84

Originally designed as an antitumor agent, zidovudine (AZT) has exhibited only marginal tumor growth inhibitory activity. Recently, three abstracts have described positive clinical outcomes for a small number of patients with advanced breast cancer treated with weekly infusions of either methotrexate or cisplatin and AZT. Consequently, we conducted a preclinical study of the anti-breast cancer and anti-mammary tumor activity of AZT. Here we have demonstrated that AZT, alone, has a preferential in vitro and in vivo effect on breast and mammary cancer cells. It is 1000 times as potent as an inhibitor of the in vitro growth of the human breast cancer cell line MCF-7 (IC50 = 10 +/- 5 nM) than of the growth of the T-cell leukemia cell line CEM (IC50 = 14 +/- 2 microM). A novel mechanism for this preferential effect on growth is indicated by the 3-4-fold increase in production of phosphorylated AZT (mono-, di-, and triphosphate) in MCF-7 relative to CEM. We extended these in vitro observations to in vivo studies in rats and found that AZT is a potent in vivo inhibitor of the growth of methylnitrosourea-induced rat mammary tumors without any apparent toxic effects on internal organs. These preclinical results demonstrate, for the first time, that AZT has significant anti-breast cancer activity and strongly suggest that the clinical usefulness of this drug is worthy of investigation.
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PMID:Potent growth inhibitory activity of zidovudine on cultured human breast cancer cells and rat mammary tumors. 919 4

Some new phenothiazines have been synthesized on the basis of previous studies. The anticancer activity of "half-mustard type" phenothiazines was investigated on sixty different cancer cell lines in vitro. The percentage of growth (PG), 50% inhibition of growth (GI50), the tumor growth inhibition (TGI) and the concentration required for 50% lethality of cells (IC50) were examined and calculated in the presence of various (from 10(-4) to 10(-8) M) concentrations of phenothiazine alkylurea derivatives. The following cell lines were involved in the study: 6 leukemia, 9 non-small-cell lung cancer, 7 colon cancer, 6 central nervous system cancer, 8 melanoma, 6 ovarian cancer, 8 renal cancer, 2 prostate and 8 breast cancer cell lines. The antileukemic activity of four chloroethyl-substituted phenothiazine-alkylureas was shown by considerable growth inhibition, in the 10(-5) M range, of the six different leukemia cell lines. The 50% inhibition of growth was nearly the same for the four compounds on all cell lines. Tumor growth inhibition (TGI) and IC50 value to cells varied from -4.0 to -4.66. The two derivatives with the butylene bridge were more effective than propylene linked compounds against the CCRP-CEM, HL60 (TB), K-562 and MOLT-4 cell lines. However, the anti-leukemic activity of the derivatives was nearly the same for RPMT 8226 and SR cell lines. The substituent at the 2- position of phenothiazine ring and the length of the linker between the side chain nitrogen and the phenothiazine ring system are apparently important for antileukemic activity. Four of the 9 non-small-cell lung cancer cell lines were sensitive, while the other 5 cell lines were not. The compounds had a slight growth inhibitory effect on colon cell carcinoma and melanoma cells in which case the butylene linker seemed to be more effective than the propylene linker. At the same time, all of the compounds were weak or mostly inactive on cancer cells from the central nervous system. One ovarian cancer line of the 6, the IGROVI was sensitive to butylurea phenothiazines, however, the other five were not sensitive at all. The difference in the sensitivity of various renal cell carcinomas was significant: 5 lines were not sensitive, three of them (786-0, RXF-393 and TK-10) were sensitive to only butylene-substituted phenothiazine-ureas, propylene substitution resulted in ineffective compounds. The compounds were not able to inhibit the 2 prostate and 4 breast cancer cell lines, even at 10(-4) M. It was interesting that propylene-linked ureas were more effective than butylene-linked derivatives on MCF-7, but butylene-linked derivatives were more effective than propylene-linked compounds on MDA MB-231 and MDA-N. In addition, MDA MB 435 was more sensitive to the trifluoromethyl derivatives than the compounds without this substituent. Since the phthalimido-alkyl phenothiazines were not active at the first level of prescreen, these compounds were omitted from this study. The drug sensitivity of some cancer cell lines was not uniform for the different groups, therefore we postulate that the resistance can be related to some kind of (existing) drug-efflux mechanism. Apparently, the tumor specificity of phenothiazine alkylureas is more related to the leukemia specificity of alkylureas than to any CNS or lung specificity of phenothiazines.
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PMID:The primary in vitro anticancer activity of "half-mustard type" phenothiazines in NCI's revised anticancer screening paradigm. 956

The epothilones are naturally occurring, cytotoxic macrolides that function through a paclitaxel (Taxol)-like mechanism. Although structurally dissimilar, both classes of molecules lead to the arrest of cell division and eventual cell death by stabilizing cellular microtubule assemblies. The epothilones differ in their ability to retain activity against multidrug-resistant (MDR) cell lines and tumors where paclitaxel fails. In the current account, we focus on the relationship between epothilone and paclitaxel in the context of tumors with multiple drug resistance. The epothilone analogue Z-12,13-desoxyepothilone B (dEpoB) is >35,000-fold more potent than paclitaxel in inhibiting cell growth in the MDR DC-3F/ADX cell line. Various formulations, routes, and schedules of i.v. administration of dEpoB have been tested in nude mice. Slow infusion with a Cremophor-ethanol vehicle proved to be the most beneficial in increasing efficacy and decreasing toxicity. Although dEpoB performed similarly to paclitaxel in sensitive tumors xenografts (MX-1 human mammary and HT-29 colon tumor), its effects were clearly superior against MDR tumors. When dEpoB was administered to nude mice bearing our MDR human lymphoblastic T cell leukemia (CCRF-CEM/paclitaxel), dEpoB demonstrated a full curative effect. For human mammary adenocarcinoma MCF-7/Adr cells refractory to paclitaxel, dEpoB reduced the established tumors, markedly suppressed tumor growth, and surpassed other commonly used chemotherapy drugs such as adriamycin, vinblastine, and etoposide in beneficial effects.
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PMID:Desoxyepothilone B is curative against human tumor xenografts that are refractory to paclitaxel. 986 Oct 50

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