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)

In order to testify the antitumor effect, especially its effect against liver carcinoma in vivo, of VP3 protein, one kind of protein coded by chicken anemia virus, recombinants pcDNA-vp3 containing chicken anemia virus vp3 gene, and control vector pcDNA3 were mixed with murine liver carcinoma cell lines H22 respectively. The mixture was injected subcutaneously into Balb/C mice. Some days later, the mice were killed and the solid tumor weighed. The antitumor efficiency was evaluated. The manners of VP3 protein in vivo inducing tumor cell death were identified by using TUNEL assay. All the results suggested that the injection of pcDNA-vp3 and H22 mixture resulted in a significant reduction of tumor growth in mice when compared with the results of control groups. TUNEL assay revealed that VP3 induced apoptosis in vivo. All these indicated that CAV vp3 might be a potential new gene in reducing the growth rate of tumor cells in liver carcinoma or in other kind of solid tumors in vivo.
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PMID:Experimental study on the antitumor effect of chicken anemia virus vp3 gene against liver carcinoma in vivo. 1297 21

Within the past decade, clinical trials have shown that the presence of anemia can diminish the physical status, functional abilities, and overall quality of life (QOL) of cancer patients and can negatively influence the outcome of their treatment. However, recent preclinical and clinical studies have also shown that increasing hemoglobin levels by administering recombinant human erythropoietin (rHuEPO, epoetin alfa) may ameliorate anemia and, in doing so, improve QOL and possibly result in better treatment outcomes following radiotherapy, chemotherapy, or a combination of these modalities. Several mechanisms by which rHuEPO may improve treatment outcome have been proposed, including correction of tumor hypoxia, increased sensitivity of tumor cells to radiotherapy and chemotherapy, correction of anemia and its associated symptoms (particularly fatigue), and immune-modulated effects of rHuEPO on tumor growth. Improvement of tumor oxygenation by rHuEPO could affect treatment outcome in two ways. First, correction of hypoxia results in the downregulation of hypoxia-inducible factor 1 (HIF-1), a key regulator of cellular adaptive responses to hypoxia (e.g., angiogenesis), including many pathways that are important for tumor growth and metastasis. Interruption of the HIF-1 pathway not only limits growth of the primary tumor but also reduces the potential for the development of more aggressive tumors and metastatic spread, which could ultimately improve treatment outcome. Second, within the tumor, it is the hypoxic cells that are resistant to oxygen-dependent radiotherapy and chemotherapy, and improvement in their oxygenation would increase their sensitivity to the cytotoxic effects of such treatment. Correction of anemia and its associated symptoms, particularly fatigue, can have a beneficial effect on patient QOL, and this in turn may translate into greater tolerance of radiotherapy and chemotherapy, allowing patients to receive full doses and on-schedule dosing, and thus have an increased likelihood of a therapeutic response. Lastly, results of a study using a murine model of multiple myeloma have indicated that rHuEPO may induce an immune-mediated antitumor effect. Therefore, additional research is warranted to further explore the biologic actions of rHuEPO and to determine their relevance to therapeutic outcome.
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PMID:rHuEPO and improved treatment outcomes: potential modes of action. 1559 21

The presence of hypoxic areas is a common feature of solid tumors and has been associated with decreased sensitivity of the tumors to radiation therapy and oxygen-dependent chemotherapeutic agents, as well as worsened outcomes, including survival. Anemia is also common in cancer patients and is believed to contribute to tumor hypoxia. Thus, the rationale exists for administering recombinant human erythropoietin (rHuEPO, epoetin alfa) in an effort to increase hemoglobin levels, correct anemia, and thereby possibly increase the sensitivity of tumors to standard cancer treatment and improve patient outcomes. The results of several preclinical studies that examined the impact of anemia prevention by rHuEPO on tumor sensitivity to radiation therapy in rodent models of cancer showed that induction of anemia increased hypoxia in tumor cells and that correction of anemia with rHuEPO could improve tumor oxygenation. Further studies in rodent models showed significantly delayed tumor growth in both irradiated mice and irradiated rats treated with rHuEPO. In those studies, the increased radiosensitivity observed was believed to be due to improved tumor oxygenation following the correction of anemia. Similarly, enhancements in chemosensitivity were found in rHuEPO-treated rodent models. In the chemosensitivity studies, as in the radiosensitivity studies, the therapeutic benefit obtained was believed to reflect improved tumor oxygenation subsequent to an rHuEPO-related increase in oxygen availability. One study evaluated the potential biologic effects of epoetin alfa on tumor progression using murine myeloma models (MOPC-315 and 5T33 MM). Treatment of MOPC-315 tumor-bearing mice with epoetin alfa induced complete tumor regression in 30%-60% of mice. Regression was found to be tumor specific, and the effect of epoetin alfa was shown to be T-cell mediated. Additionally, epoetin alfa administration prolonged survival and reduced morbidity and mortality in the 5T33 MM tumor model. Those investigators suggested that epoetin alfa may have antitumor activity in addition to its hematopoietic effects. Overall, these preclinical findings suggest that correction of anemia by rHuEPO can increase tumor sensitivity to both radiation therapy and chemotherapy and that epoetin alfa may exert an immunomodulatory effect in multiple myeloma.
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PMID:rHuEPO and treatment outcomes: the preclinical experience. 1559 22

Darbepoietin alfa (DA) is a long-acting analogue of erythropoietin that has reduced receptor affinity and enhanced biological activity. Experiments were done to test the hypothesis that correction of anemia in tumor-bearing mice by DA would increase tumor oxygenation and potentiate radiation-induced tumor cell killing. A SCC VII tumor model was used to study tumor responses to fractionated radiation therapy in mice with anemia induced by total body irradiation. Administration of DA reduced the extent and duration of anemia and associated tumor hypoxia, protected the bone marrow cells and prevented the body weight loss from the effect of irradiation, and facilitated the recovery in a time-dependent manner, with the administration of DA prior to total body irradiation having the greatest protective effect. When combined with fractionated radiation therapy, DA increased the tumor growth delay time from 2.7 days for irradiation alone to 7.3 to 10.6 days for combination of DA and irradiation. The effect of DA on tumor responses to fractionated radiation therapy was observed when DA was given 18 to 4 days before starting radiation therapy, but DA was also equally effective as a radiosensitizer when given only 2 hours before fractionated irradiation therapy. Weekly dosing of DA was as efficacious for the enhancement of radiation responses of tumors as biweekly dosing. Similar results were obtained in the RIF-1 fibrosarcoma tumor model. These studies show that DA can effectively correct anemia in tumor-bearing mice and sensitize tumor cells to fractionated radiation therapy. Importantly, DA was also able to sensitize tumors to radiation in mice with uncorrected anemia and hypoxia, suggesting that the effect of DA on radiosensitivity was independent of these factors and a different mechanism of action may be responsible for this effect.
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PMID:Darbepoietin alfa potentiates the efficacy of radiation therapy in mice with corrected or uncorrected anemia. 1566 5

The Akt kinases promote hematopoietic cell growth and accumulation through phosphorylation of apoptotic effectors and stimulation of mTOR-dependent translation. In Akt-transformed leukemic cells, tumor growth can be inhibited by the mTOR inhibitor rapamycin, and clinical trials of rapamycin analogs for the treatment of leukemia are under way. Surprisingly, nontransformed hematopoietic cells can grow and proliferate in the presence of rapamycin. Here, we show that Pim-2 is required to confer rapamycin resistance. Primary hematopoietic cells from Pim-2- and Pim-1/Pim-2-deficient animals failed to accumulate and underwent apoptosis in the presence of rapamycin. Although animals deficient in Akt-1 or Pim-1/Pim-2 are viable, few animals with a compound deletion survived development, and those that were born had severe anemia. Primary hematopoietic cells from Akt-1/Pim-1/Pim-2-deficient animals displayed marked impairments in cell growth and survival. Conversely, ectopic expression of either Pim-2 or Akt-1 induced increased cell size and apoptotic resistance. However, though the effects of ectopic Akt-1 were reversed by rapamycin or a nonphosphorylatable form of 4EBP-1, those of Pim-2 were not. Coexpression of the transgenes in mice led to additive increases in cell size and survival and predisposed animals to rapid tumor formation. Together, these data indicate that Pim-2 and Akt-1 are critical components of overlapping but independent pathways, either of which is sufficient to promote the growth and survival of nontransformed hematopoietic cells.
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PMID:Pim and Akt oncogenes are independent regulators of hematopoietic cell growth and survival. 1570 89

The recent advances in the knowledge of the psychoneuroimmunological pathogenesis of human neoplasms have demonstrated the existence of feed-back mechanisms operating between interleukins and endocrine secretions, which play an important role in the regulation of the immune responses, including the anticancer immunity. In contrast, few studies only have been performed to investigate the possible relation between endocrine activities and hematopoietic growth factors. The present study was performed to analyze the acute endocrine effects of erythropoietin-alpha (EPO) on the main endocrine secretions. The study was carried out in 10 advanced solid tumor patients. EPO was injected subcutaneously at a dose of 10,000 U, and venous blood samples were collected before and 2, 4 and 6 h after EPO administration. No significant changes in mean serum levels of FSH, LH and TSH were seen in response to EPO. Cortisol and DHEAS concentrations increased after EPO injection, whereas those of PRL decreased, but none of these differences was statistically significant. Finally, mean serum levels of both growth hormone (GH) and somatomedin-C (IGF-1) significantly decreased after EPO administration. This preliminary study shows that EPO may inhibit GH secretion from the pituitary gland and IGF-1 production. Since GH would stimulate EPO release, the results of this study may suggest the existence of feedback mechanism operating between GH secretion and EPO production, with inhibitory effect of EPO on GH secretion, and stimulatory action of GH on EPO production. Therefore, this study would describe the first example of hemato-endocrine feedback mechanisms. Moreover, this study, by showing an inhibitory effect of EPO on IGF-1 secretion, would suggest a possible use of EPO in the medical oncology not only for the treatment of cancer related anemia, but also to counteract tumor growth by blocking IGF-1 production, which has been proven to be a growth factor for several tumor histotypes. Obviously, IGF-1 is not the only tumor growth factor, but it could play a fundamental role in the regulation of production and activity of several other tumor growth factors. In any case, this study describes the only acute endocrine effects of EPO. Therefore, further studies, by evaluating the endocrine effects of a chronic treatment with EPO, will be required to establish which may be its effect on IGF-1 endogenous production, and its consequence on survival time.
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PMID:Endocrine effects of erythropoietin in cancer patients. 1576 75

Primary pulmonary artery sarcomas (PASs) are rare and lethal tumors. They are easily misdiagnosed as chronic pulmonary embolism, mediastinal mass or tumor emboli, which delay a proper treatment. Although the advanced technologies are now increasingly being used, their diagnosis is usually hard to establish preoperatively at the present time. We report here a case of a 68-year-old female with PAS with lung metastases, who firstly presented with symptoms of common cold and anemia. Although a PAS had been suspected, the final diagnosis of pulmonary intimal sarcoma was made only postoperatively by histological and immunohistochemical examination. The patient died 8 months after the operation because of tumor growth progression, despite adjuvant chemotherapy and radiation therapy. Although pulmonary intimal sarcomas are usually of poorly differentiated mesenchymal malignancy, most reported cases are immunohistochemically positive for vimentin, alpha-smooth muscle actin (SMA), and/or desmin, therefore resembling leiomyosarcomas. However, the diagnosis of leiomyosarcoma should not be made on the basis of immunostains in the absence of typical morphologic features, and PAS, like the present case, should be more appropriately classified as intimal sarcoma according to the new WHO Classification of Tumours of Soft Tissue and Bone published in 2002.
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PMID:Intimal sarcoma of the pulmonary artery: report of an autopsy case. 1613 54

Tumor cells secreting IL-1beta are invasive and metastatic, more than the parental line or control mock-transfected cells, and concomitantly induce in mice general immune suppression of T cell responses. Suppression strongly correlates with accumulation in the peripheral blood and spleen of CD11b+/Gr-1+ immature myeloid cells and hematological alterations, such as splenomegaly, leukocytosis, and anemia. Resection of large tumors of IL-1beta-secreting cells restored immune reactivity and hematological alterations within 7-10 days. Treatment of tumor-bearing mice with the physiological inhibitor of IL-1, the IL-1R antagonist, reduced tumor growth and attenuated the hematological alterations. Depletion of CD11b+/Gr-1+ immature myeloid cells from splenocytes of tumor-bearing mice abrogated suppression. Despite tumor-mediated suppression, resection of large tumors of IL-1beta-secreting cells, followed by a challenge with the wild-type parental cells, induced resistance in mice; protection was not observed in mice bearing tumors of mock-transfected fibrosarcoma cells. Altogether, we show in this study that tumor-derived IL-1beta, in addition to its proinflammatory effects on tumor invasiveness, induces in the host hematological alterations and tumor-mediated suppression. Furthermore, the antitumor effectiveness of the IL-1R antagonist was also shown to encompass restoration of hematological alterations, in addition to its favorable effects on tumor invasiveness and angiogenesis that have previously been described by us.
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PMID:CD11b+/Gr-1+ immature myeloid cells mediate suppression of T cells in mice bearing tumors of IL-1beta-secreting cells. 1633 59

Evidence for erythropoietin signaling has been shown in several nonhematopoietic tissues, including many tumor types. Clinically, recombinant erythropoietin treatment of malignancy-related anemia has yet to be definitively associated with any modulation of chemotherapy or radiotherapy efficacy. Preclinically, recombinant erythropoietin has been shown to increase tumor oxygenation, but the direct effects of recombinant erythropoietin on tumor cells that express erythropoietin receptor are not yet fully characterized. This study examined the effects of exogenous recombinant erythropoietin on rodent mammary adenocarcinoma cells (R3230) in vitro and in vivo, and determined the effects of systemic recombinant erythropoietin on tumor growth delay in Taxol treatment. We showed that systemic recombinant erythropoietin treatment of rats bearing R3230 mammary carcinomas induced an increase in phospho-Akt levels within tumor cells. This was associated with a decrease in the frequency of apoptotic cells in tumors from recombinant erythropoietin-treated animals, but did not noticeably affect tumor growth rate. In vitro studies revealed that not only does recombinant erythropoietin induce Akt phosphorylation, but it also stimulates phosphorylation of p44/42 mitogen-activated protein kinases, Erk1 and Erk2. Activation of erythropoietin-mediated signaling in R3230 cells was associated with dose-dependent inhibition of apoptosis in response to Taxol treatment and serum starvation, an effect that was blocked by the addition of a phosphatidylinositol-3-kinase inhibitor. Despite its cytoprotective effects in vitro, recombinant erythropoietin did not significantly affect tumor growth delay in Taxol treatment. This study shows direct recombinant erythropoietin-mediated activation of specific intracellular signaling pathways in mammary adenocarcinoma cells in vivo and in vitro. Modulation of tumor apoptosis pathways by recombinant erythropoietin may have negative consequences by decreasing the chemosensitivity and radiosensitivity of erythropoietin receptor-positive breast tumors, although it did not have any obvious effects on growth with or without chemotherapy in this model.
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PMID:Erythropoietin inhibits apoptosis in breast cancer cells via an Akt-dependent pathway without modulating in vivo chemosensitivity. 1650 9

For cancer patients, anemia can be a debilitating problem that negatively influences their overall quality of life and worsens their prognosis. The condition is caused either by the cancer itself or by cytotoxic treatment. Anemia is the primary indication for transfusion of red blood cells, but the development of recombinant human erythropoietins (epoetins) provides an alternative to red blood cell transfusions. Treatment with epoetins has been shown to reduce transfusion rates and increase hemoglobin response. There is some evidence that epoetins improve quality of life. It remains unclear, however, whether erythropoietin affects tumor growth and survival, and this area requires further investigation. Data from clinical trials suggest that erythropoietin increases the risk of thromboembolic complications. In the management of anemic patients, physicians should follow closely the dosing recommendations in products' package inserts or the ASCO/American Society of Hematology guidelines. Treatment of patients beyond the correction of anemia, however, has to be regarded as experimental and is potentially harmful, so should only be conducted in clinical trials.
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PMID:Cancer-related anemia and recombinant human erythropoietin--an updated overview. 1652 Aug 5


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