Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0002871 (anemia)
 52,094 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The elevated exogenous-methionine dependency of tumors for growth has been observed in all major cancer cell types. We have previously cloned a methioninase (rMETase) from Pseudomonas putida to deplete methionine. Growth inhibition followed by apoptotic cell death was induced by treatment of tumor cells with rMETase in vitro. A single i.p. injection of 300 units of rMETase can lower the serum methionine level in the mice from 70 microM to less than 1 microM within 2 h and maintain this depleted level for 8 h. Repeated dosing of rMETase of tumor-bearing mice could be administered without acute immune-hypersensitivity. rMETase treatment demonstrated growth inhibitory activity against human tumors in nude mice, including those which were multiple drug-resistant. No body weight loss or hematotoxicity, except a slight anemia, was found throughout the therapy. The combined treatment of the Lewis lung carcinoma with a fixed rMETase dose and increasing doses of 5-fluorouracil (5-FU) resulted in a dose-dependent enhanced antitumor efficacy for survival as well as tumor growth inhibition. Thus, methionine depletion by rMETase potentiates the antitumor efficacy of 5-FU. The data presented in this report thus indicate that rMETase is active alone, is synergistic in combination with 5-FU, and has negligible toxicity suggesting a novel clinical approach for effective cancer therapy.
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PMID:Anticancer efficacy in vivo and in vitro, synergy with 5-fluorouracil, and safety of recombinant methioninase. 963 82

Tumor oxygenation is dependent on the cellular O2 consumption rate and on the O2 supply to the respiring cells. The latter is mainly determined by the convective transport via the blood and by the diffusional flux from the microvessels to the O2 consuming sites. Peculiarities of tumor tissue oxygenation can therefore mainly be attributed to characteristic structural and functional abnormalities of the tumor microcirculation (perfusion-limited O2 delivery), to a deterioration of the diffusion geometry (diffusion-limited O2 delivery), and--in some cases--to a reduced O2-carrying capacity of the blood due to tumor-associated anemia. As a result of a compromised and anisotropic microcirculation, the O2 availability to the cancer cells shows great variability, and many human malignancies reveal hypoxic tissue areas which are heterogeneously distributed within the tumor mass and which may be located next to well-perfused tumor areas (intra-tumor heterogeneity). As a rule, in most solid malignancies the tissue O2 status is poorer than in normal tissue at the site of tumor growth. Hypoxia in human tumors per se has been shown to contribute to resistance to standard radiotherapy, chemotherapy and photodynamic therapy with photosensitizing hematoporphyrins. In addition to conferring a direct resistance, hypoxia-induced inhibition of proliferation may also contribute to resistance since both modalities are primarily effective against rapidly dividing cells. Hypoxia in solid tumors, however, has further implications in the clinical setting: Recent data provide strong evidence suggesting that O2 deprived tumor cells are predisposed to a more malignant phenotype, i.e., tumor cells are more likely to be more metastatic and/or invasive. In addition, clonal heterogeneity is more pronounced in hypoxic tumors.
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PMID:Oxygenation of human tumors: the Mainz experience. 987 40

Tumor growth, oxygenation and radiosensitivity were investigated in a series of studies in which anemia was induced in rats either by the development of a hemorrhagic ascites or by a single dose of carboplatin, which resulted in reductions in the hemoglobin concentration of 30%. The development of both the tumor- and chemotherapy-induced forms of anemia could be prevented by the s. c. administration of recombinant human erythropoietin (rhEPO; 1000 IU/kg, 3 times per week over 14 days). Seven days before pO2 measurements, DS-sarcomas were implanted s. c. on the hind foot dorsum. With both anemia models, tumor growth did not differ between anemic animals and animals treated with rhEPO. Tumor oxygenation was measured polarographically using O2-sensitive needle electrodes and pO2 histography. In anemic animals, tumor oxygenation was poorer compared to untreated controls. The reduction could be partially reversed by rhEPO treatment, but not fully compensated. These findings suggested that rhEPO treatment can improve tumor oxygenation by increasing the O2 availability to tumor tissue. Further experiments therefore assessed the possibility of enhancing the efficacy of a single radiation dose (10 Gy) by rhEPO treatment of anemic animals. While anemic animals showed decreased radiosensitivity, prevention of anemia by rhEPO treatment resulted in a significant increase in tumor radiosensitivity, although again a full recovery to radiosensitivity levels found in non-anemic animals was not achieved.
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PMID:Can erythropoietin improve tumor oxygenation? 987 43

Hemangiomas represent the most frequent tumors of infancy. However, the pathogenesis of these tumors is still largely unknown, and current treatment of juvenile hemangiomas remains unsatisfactory. Here we present a novel animal model to study proliferating hemangiomas and to evaluate the effect of angiostatic compounds on their growth. Intraperitoneal (i.p.) infection of 4-day-old rats with murine polyomavirus resulted in the development of multiple cutaneous, intramuscular (i.m.), and cerebral hemangiomas with 100% frequency. Histological examination of the brain revealed the formation of immature lesions as soon as 4 days postinfection (p.i.). The subsequent exponential growth of the hemangiomas, both in number and size, was associated with severe hemorrhage and anemia. The cerebral, cutaneous, and i.m. lesions consisted of blood-filled cysts, histologically similar to human cavernous hemangiomas and stained positive for proliferating cell nuclear antigen, urokinase-type plasminogen activator, and vascular endothelial growth factor. Mature cerebral hemangiomas also expressed von Willebrand factor. Cerebral lesions caused death of the untreated animals within 19.2 +/- 1.1 days p.i. Remarkably fewer and smaller hemangiomas developed in animals that had been treated s.c. with the angiogenesis inhibitor TNP-470. Accordingly, TNP-470 (50 mg/kg), administered twice a week from 3 days p.i., significantly delayed tumor-associated mortality [mean day of death, 28.2 +/- 3.3 (P < 0.001)]. Even if therapy was initiated when cerebral hemangiomas were already macroscopically visible (i.e., 9 days p.i.), a significant delay in hemangioma-associated mortality was observed. Also, the IFN-inducer polyinosinic-polycytidylic acid caused a delay of 9 days (P < 0.005) in tumor-associated mortality when administered i.p. at 5 mg/kg, twice a week, starting at day 3 p.i. The model described here may be useful for investigating (a) the angiogenic mechanism(s) underlying hemangioma progression; and (b) the effect of anti-angiogenic compounds on vascular tumor growth.
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PMID:A novel animal model for hemangiomas: inhibition of hemangioma development by the angiogenesis inhibitor TNP-470. 1034 47

Specificity is an essential prerequisite for cancer gene therapy. Recently we described that apoptin, a protein of 121 amino acids which is derived from the chicken anemia virus, induces programmed cell death or apoptosis in transformed and malignant cells, but not in normal, diploid cells (Danen-van Oorschot AAAM et al, Proc Natl Acad Sci USA 1997; 94: 5843-5847). This protein has an intrinsic specificity that allows it to selectively kill tumor cells, irrespective of the p53 or Bcl-2 status of these cells. Hence, it is attractive to explore the use of the apoptin gene for therapeutic applications, viz cancer gene therapy. In this paper, we describe the generation and characterization of an adenovirus vector, AdMLPvp3, for the expression of apoptin. Despite the fact that apoptin ultimately induces apoptosis in the helper cells, which are transformed by the adenovirus type 5 early region 1 (E1), the propagation kinetics and yields of AdMLPvp3 are similar to those of control vectors. Infection with AdMLPvp3 of normal rat hepatocytes in cell culture did not increase the frequency of apoptosis. In contrast, in the hepatoma cell lines HepG2 and Hep3b, infection with AdMLPvp3, but not with control vectors, led to a rapid induction of programmed cell death. Experiments in rats demonstrated that AdMLPvp3 could be safely administered by intraperitoneal, subcutaneous or intravenous injection. Repeated intravenous doses of AdMLPvp3 were also well tolerated, indicating that the apoptin-expressing virus can be administered without severe adverse effects. In a preliminary experiment, a single intratumoral injection of AdMLPvp3 into a xenogeneic tumor (HepG2 cells in Balb/Cnu/nu mice) resulted in a significant reduction of tumor growth. Taken together, our data demonstrate that adenovirus vectors for the expression of the apoptin gene may constitute a powerful tool for the treatment of solid tumors.
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PMID:Specific tumor-cell killing with adenovirus vectors containing the apoptin gene. 1050 14

The relation between tumor tissue blood flow (tBF) reduction and antitumor effects was investigated. Changes in tBF of normal tissues (liver, kidney cortex, bone marrow and brain cortex) and tumors (Yoshida sarcoma subline, LY80 and Sato lung carcinoma, SLC) due to i.v. administration of AC7700 (1, 3, 10 mg/kg), one of the combretastatin A-4 derivatives, were measured with the hydrogen clearance method. The change in blood flow in tumor microfoci was also observed directly using a rat transparent chamber. Chemotherapy against the solid tumors (LY80, SLC) was performed by administering AC7700 7 times at intervals of 3 days and the effect on the tumor growth, the histological effect, the effect on lymph node metastasis and the survival rate were investigated. Tumor tBF showed a dose-dependent response to AC7700. Although tumor tBF decreased markedly at a dose of 1 mg/kg, it tended to recover partly within several hours. At 10 mg/kg, however, tumor tBF completely stopped within approximately 30 min and never recovered in many regions. The irreversible stoppage of tumor tBF was observed in large s.c. tumors and in microfoci as well. On the other hand, in normal tissues, tBF changes due to AC7700 were not uniform. In the liver, although tBF decreased by approximately 50% at 10 mg/kg AC7700, it recovered within 8 h. In the brain, although the mean maximum reduction was 35%, the blood flow recovered to the original level within 24 h. The blood flow in the kidney cortex did not change at all. In the bone marrow, tBF decreased by approximately 80%. Generally, the blood flow reduction in normal tissues tended to be reversible. The effect on tumor growth and the histological effect were also dependent on the dose of AC7700. The tumor growth was markedly inhibited by 10 mg/ kg AC7700 and extensive necrosis was induced. Lymph node metastases were significantly inhibited and survival was prolonged significantly. In the control group, all 8 SLC tumor-bearing rats died of cancer, the presence of which was verified by gross and microscopic evaluation, within 45 days after tumor implantation. On the other hand, in the treated group, 2 of 8 rats recovered completely and survived. No obvious side effects such as body weight loss, anemia or diarrhea were observed at the dose used in this experiment. From these results, we conclude that strong antitumor effects are obtained by stopping tumor tBF irreversibly and by shutting off the nutritional supply into tumor tissue. AC7700 has been demonstrated to be a promising anticancer compound which has such an action.
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PMID:Antitumor effects due to irreversible stoppage of tumor tissue blood flow: evaluation of a novel combretastatin A-4 derivative, AC7700. 1055 34

Insulin-like growth factor-II (IGF-II) is an embryonic growth promoter and cell survival factor. IGF-II supply is normally limited by gene expression because transcription occurs predominantly from the paternal allele in mouse and man (maternal imprinting). Excess IGF-II has detrimental systemic and local effects in vivo, promoting somatic overgrowth and an increased frequency of tumors. IGF2 mRNA is overexpressed in colorectal and many other human cancers. In this paper, we show that altered IGF-II supply modifies intestinal tumor growth. Mice genetically altered in the IGF-II system were combined in crosses with ApcMin/+, a murine model of human familial adenomatous polyposis. Depending on genetic background, ApcMin/+ acquires multiple small intestinal adenoma before becoming moribund with anemia. Mice that express excess IGF-II delivered using a bovine keratin 10 promoter (k10Igf2/+) develop a disproportionate overgrowth of colon, uterus, and skin. Combination with ApcMin/+ leads to a 10-fold increase in the number and the diameter of colon adenoma (P<0.0001) compared to ApcMin/+ littermate controls (postnatal day 80), an increased susceptibility to rectal prolapse (41%), and a histological progression to carcinoma. Mice with reduced IGF-II supply, secondary to the disruption of the paternal Igf2 allele (Igf2+m/-p), are 60% the weight of wild-type littermates. Combination with ApcMin/+ leads to a 3-fold reduction in small intestinal adenoma number (P<0.0001) compared to ApcMin/+ littermate controls (postnatal day 150), and a significant decrease in adenoma diameter (P<0.001). With in situ hybridization, we show that Igf2 was expressed in all adenoma irrespective of IGF-II supply. This suggests that there is an increased maternal allele expression of Igf2 (loss of imprinting) in adenoma which form, despite paternal Igf2 allele disruption. We conclude that IGF-II supply is a modifier of intestinal adenoma growth, and we provide genetic evidence for its functional role in colorectal cancer progression.
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PMID:Insulin-like growth factor II supply modifies growth of intestinal adenoma in Apc(Min/+) mice. 1070 26

Dolastatin (DOLA)-10 is a pentapeptide isolated from the mollusc Dolabella auricularia with clinically promising antitumor activity documented in various in vitro and in vivo tumor models. The objectives of this Phase I study were to determine the maximum tolerated dose, evaluate toxic effects, and document any antitumor activity of this novel agent. Using an electrospray ionization mass spectroscopy system, we also characterized the clinical pharmacokinetics, pharmacodynamics, and metabolism of DOLA-10. The maximum tolerated dose was reached at 300 microg/m2. Granulocytopenia, the dose-limiting toxicity, was documented in 33% of the patients treated at that dose level. There were no episodes of thrombocytopenia or severe anemia (Hgb < 8), and no major nonhematological toxicity was observed. Stabilization of tumor growth was observed in four patients, but no objective responses were seen. Whereas a two-compartment model described the DOLA-10 plasma concentration-time data reasonably well, a three-compartment model consistently performed better. After a rapid distribution phase, DOLA-10 plasma levels declined with mean beta and gamma half-lives of 0.99 and 18.9 h, respectively. Significant interpatient and intrapatient variability in DOLA-10 plasma clearances was observed. The mean area under the concentration-time curve increased proportionally as the dose was escalated, but there was significant overlap between dose levels. The area under the concentration-time curve and the percentage of decline in neutrophils were correlated. A single DOLA-10 metabolite was detected in five patients. Unlike the in vitro studies of DOLA-10, the principal metabolite detected was an N-demethyl derivative, confirmed by mass spectroscopy. In all five subjects, the concentration of this metabolite never exceeded 2% of the simultaneously measured parent drug concentration. The available preclinical, pharmacological, and clinical data suggest that further study of escalated DOLA-10 dosing with cytokine support is warranted.
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PMID:Novel marine-derived anticancer agents: a phase I clinical, pharmacological, and pharmacodynamic study of dolastatin 10 (NSC 376128) in patients with advanced solid tumors. 1077 54

Cancer anemia is classified as an anemia of chronic diseases, although it is sometimes the first symptom of cancer. Cancer anemia includes a hemolytic component, important in the terminal stage when even transfused cells are rapidly destroyed. The presence of a chronic component and the terminal complications of the illness limit studies of the hemolytic component. A multifocal model of tumor growth was used here to simulate the terminal metastatic dissemination stage (several simultaneous inoculations of Walker 256 cells). The hemolytic component of anemia began 3-4 days after inoculation in 100% of the rats and progressed rapidly thereafter: Hb levels dropped from 14.9 +/- 0.02 to 8.7 +/- 0.06 from days 7 to 11 ( approximately 5 times the physiologically normal rate in rats) in the absence of bleeding. The development of anemia was correlated (r2 = 0.86) with the development of other systemic effects such as anorexia. There was a significant decrease in the osmotic fragility of circulating erythrocytes: the NaCl concentration causing 50% lysis was reduced from 4.52 +/- 0.06 to 4.10 +/- 0.01 (P<0.01) on day 7, indicating a reduction in erythrocyte volume. However, with mild metabolic stress (4-h incubation at 37oC), the erythrocytes showed a greater increase in osmotic fragility than the controls, suggesting marked alteration of erythrocyte homeostasis. These effects may be due to primary plasma membrane alterations (transport and/or permeability) and/or may be secondary to metabolic changes. This multifocal model is adequate for studying the hemolytic component of cancer anemia since it is rapid, highly reproducible and causes minimal animal suffering.
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PMID:The hemolytic component of cancer anemia: effects of osmotic and metabolic stress on the erythrocytes of rats bearing multifocal inoculations of the Walker 256 tumor. 1088 Oct 57

Peripheral primitive neuroectodermal tumor (PPNET) is a malignant neoplasm of the peripheral nervous system and soft tissues. Representing the fourth case published we herein report a PPNET arising in the pancreas of a six year old girl. She presented with severe anemia due to ulcerative tumor growth and hemorrhage into the duodenum. From the first biopsy pancreatoblastoma was considered as histological diagnosis. Therefore pancreato-duodenectomy was successfully performed. Immunohistochemically, the tumor cells were positive for cytokeratines and several neuronal markers. Due to focal membranous staining for MIC-2 gene product and rosettes in one lymph node metastasis the diagnosis had to be altered into PPNET. This was confirmed by cytogenetic analysis. We conclude that the interpretation of histologic sample excisions from pediatric pancreatic neoplasms may be difficult and that PPNET should be included in the differential diagnosis.
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PMID:Primitive neuroectodermal tumor of the pancreas. An extremely rare tumor. Case report and review of the literature. 1099 48


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