UMLS:C0023473 - FACTA Search

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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The components of the apoptotic program are targets for anticancer therapy. Bcl-2 protein inhibits apoptosis and confers resistance to treatment with traditional cytotoxic chemotherapy, radiotherapy, and monoclonal antibodies (mAb). Oblimersen sodium (G3139, Genasense, Genta Inc., Berkeley Heights, NJ) is an antisense oligonucleotide (AS-ON) compound designed to specifically bind to the first 6 codons of the human bcl-2 mRNA sequence, resulting in degradation of bcl-2 mRNA and subsequent decrease in Bcl-2 protein translation. Oblimersen is the first oligonucleotide to demonstrate proof of principle of an antisense effect in human tumors by the documented downregulation of the target Bcl-2 protein. A growing body of preclinical and clinical evidence suggests that oblimersen synergizes with many cytotoxic and biologic/immunotherapeutic agents against a variety of hematologic malignancies and solid tumors. Randomized clinical trials are currently underway to evaluate the efficacy and tolerability of oblimersen in combination with cytotoxic chemotherapy in chronic lymphocytic leukemia, multiple myeloma, malignant melanoma, and non-small cell lung cancer. In addition, nonrandomized trials are under way to evaluate oblimersen in non-Hodgkin's lymphoma, acute myeloid leukemia, and hormone-refractory prostate cancer. Preclinical data also support the clinical evaluation of oblimersen in additional tumor types, including chronic myelogenous leukemia and breast, small cell lung, gastric, colon, bladder, and Merkel cell cancers. Enhancement of the efficacy of anticancer treatments with oblimersen Bcl-2 antisense therapy represents a promising new apoptosis-modulating strategy, and ongoing clinical trials will test this therapeutic approach.
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PMID:Oblimersen Bcl-2 antisense: facilitating apoptosis in anticancer treatment. 1216 2

Donor lymphocyte infusion (DLI) reliably induces durable remission in 75-80% of patients with relapsed chronic myelogenous leukemia (CML) after allogeneic hematopoietic stem cell transplantation. To identify immunological targets of the graft-versus-leukemia response (GVL) after DLI, we used CML post-DLI responder sera to screen a CML cDNA expression library. One of the antigens identified in this screen is a M(r) 28,000 protein, termed CML28. CML28 is identical to hRrp46p, a component of the human exosome, a multiprotein complex involved in the 3' processing of RNA. Components of the human exosome include known autoantigens, such as PMScl-100, an autoantibody target in patients with polymyositis, scleroderma, or polymyositis-scleroderma overlap syndrome. Recombinant CML28-GST fusion protein was purified, and used in Western blot and ELISA to demonstrate the development of a high-titer CML28-specific IgG antibody response in a patient with relapsed CML who responded to DLI. Northern blotting demonstrated that CML28 is highly expressed in a variety of hematopoietic and epithelial tumor cell lines, but not in normal hematopoietic tissues or other normal tissue, with the exception of testis. Purified recombinant CML28 was used to generate a CML28-specific murine monoclonal antibody. Western blotting with CML28 monoclonal antibody against whole-cell lysates derived from blood and marrow of normal donors and patients with leukemia revealed high expression of this antigen in tumor but not in normal samples. Because CML28 was highly expressed in epithelial tumor cell lines, anti-CML28 responses were also examined in patients with solid tumors. By ELISA, we found specific serological responses in 10-33% of patients with lung cancer, melanoma, and prostate cancer. Our studies suggest that immunogenicity of CML28 is likely because of overexpression of this antigen in tumor cells. Moreover, given its expression and immunogenicity in a wide variety of malignancies, CML28 merits additional evaluation as a target for antigen-specific immunotherapy.
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PMID:CML28 is a broadly immunogenic antigen, which is overexpressed in tumor cells. 1235 62

Cancer testis (CT) antigens have an expression pattern that is predominantly restricted to testis in normal tissues, yet they are expressed in many different histological types of cancers. One previously described member of the CT antigen family, XAGE-1, was shown to be expressed in Ewing's sarcomas and rhabdomyosarcomas. Here we show that XAGE-1 is also expressed in breast cancer, prostate cancer, and different types of lung cancers, including lung squamous cell carcinoma, adenocarcinoma, small cell lung carcinoma, and non-small cell lung carcinoma. In addition, XAGE-1 mRNA was present in ovarian cancer, melanoma, glioblastoma, T-cell lymphoma, chronic myelogenous leukemia, and histiocytic lymphoma cell lines. We also characterized the XAGE-1 transcript by primer extension analysis and found that transcription of the XAGE-1 gene is initiated from two distinct start sites, resulting in two overlapping transcripts, XAGE-1a and XAGE-1b. XAGE-1a contains two in-frame ATG translational start codons; whereas XAGE-1b initiates downstream of the first ATG start codon. Our results suggest that XAGE-1b is the dominant transcript, and that translation begins with the second ATG start codon, producing a 9 kDa protein. Because XAGE-1 is expressed in such a diverse range of cancers, it has potential to be used as a target for many cancer immunotherapies.
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PMID:Characterization of overlapping XAGE-1 transcripts encoding a cancer testis antigen expressed in lung, breast, and other types of cancers. 1247 62

The multiple tumor syndrome is an unusual pathologic condition, which consists in association of multiple malignancies in the same patient. Seven cases are discussed: two women, five men, aged 32-70 years. The period between the two neoplasias was 2-23 years (in 6 cases). In one case the two malignancies appeared concomitantly. The hematological malignancies were: multiple myeloma: 2 cases; chronic granulocytic leukemia: 2 cases; chronic lymphatic leukemia: 3 cases. In four cases, the solid tumor followed the hematological malignancy at variable periods (2 and 4 years). In other two cases, the solid tumors preceded the hematological malignancy with 2 years, 23 years respectively. The solid tumors were genital cancers, malignant melanoma, spino-cellular carcinoma, thyroid cancer, hemangiosarcoma. In a single case the second tumor was a hematological malignancy too (NHL-diffuse lymphocytic lymphoma). Possible implications of previous therapy and environmental factors are discussed.
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PMID:The multiple tumor syndrome. Personal experience. 1263 87

The new square-planar Pt(II) and Pd(II) complexes with cytokinin-derived compounds Bohemine and Olomoucine, having the formulae [Pt(BohH(+))Cl(3)].H(2)O (1), [Pt(Boh)(2)Cl(2)].3H(2)O (2), [Pt(Boh-H)Cl(H(2)O)(2)].H(2)O (3), [Pt(OloH(+))Cl(3)].H(2)O (4), [Pd(BohH(+))Cl(3)].H(2)O (5), [Pd(Boh)Cl(2)(H(2)O)] (6), [Pd(Boh-H)Cl(H(2)O)].EtOH (7) and [Pd(OloH(+))Cl(3)].H(2)O (8), where Boh=6-(benzylamino)-2-[(3-(hydroxypropyl)amino]-9-isopropylpurine and Olo=6-(benzylamino)-2-[(2-(hydroxyethyl)amino]-9-methylpurine, have been synthesized. The complexes have been characterized by elemental analyses, IR, FAB+ mass, 1H, 13C and 195Pt NMR spectra, and conductivity data. The molecular structure of the complex [Pt(BohH(+)-N7)Cl(3)].9/5H(2)O has been determined by an X-ray diffraction study. Results from physical studies show that both Bohemine and Olomoucine are coordinated to transition metals through the N(7) atom of purine ring in all the complexes. The prepared compounds have been tested in vitro for their possible cytotoxic activity against G-361 (human malignant melanoma), HOS (human osteogenic sarcoma), K-562 (human chronic myelogenous leukemia) and MCF-7 (human breast adenocarcinoma) cell lines and IC(50) values have been also determined for all the complexes. IC(50) values estimated for the Pt(II)-Bohemine complexes (2.1-16 microM) allow us to conclude that they could find utilization in antineoplastic therapy. Thus, from a pharmacological point of view, Pt(II) complexes of Bohemine may represent compounds for a new class of antitumor drugs.
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PMID:Mixed ligand complexes of platinum(II) and palladium(II) with cytokinin-derived compounds Bohemine and Olomoucine: X-ray structure of [Pt(BohH+-N7)Cl(3)].9/5H2O [Boh=6-(benzylamino)-2-[(3-(hydroxypropyl)-amino]-9-isopropylpurine, Bohemine]. 1266 1

Alpha Interferon (IFN) is a biological agent used for the therapy of an increasing number of diseases, either as an established effective therapeutic tool or in the context of clinical trials. The use of IFN may be complicated by serious adverse reactions. We describe here the clinical course of a variety of vasculopathic complications in association with IFN-therapy in 12 patients with the diagnosis of chronic myeloid leukemia and 1 patient with malignant melanoma treated at our institute. Vascular manifestations in these patients include Raynaud's phenomena, digital ulcerations and gangrene, pulmonary vasculitis, pulmonary hypertension and thrombotic thrombocytopenic purpura/hemolytic uremic syndrome (TTP/HUS). These reactions occurred after 3 months to 3 years of 3-10 million units (MU) daily IFN therapy. Concomitant administration of hydroxyurea (HU) was noted in 5 patients. Discontinuation of IFN and initiation of immunosuppressive therapy brought about a complete resolution or arrested progression of these reactions. IFN-therapy may be complicated by severe vasculopathic/vasospastic complications that usually improve after its discontinuation. Possible underlying mechanisms for these complications are discussed. The early diagnosis of these complications may be vital and IFN should be immediately discontinued when early signs of these complications become evident.
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PMID:Vascular events associated with alpha interferon therapy. 1268 17

The components of the apoptotic pathway are targets for anticancer therapy. Bcl-2 protein inhibits apoptosis and confers resistance to treatment with traditional cytotoxic chemotherapy, radiotherapy, and monoclonal antibodies. Oblimersen sodium (G3139, Genasense, Genta Inc, Berkeley Heights, NJ) is an antisense oligonucleotide compound designed to specifically bind to the first six codons of the human bcl-2 mRNA sequence, resulting in degradation of bcl-2 mRNA and subsequent decrease in Bcl-2 protein translation. Oblimersen is the first oligonucleotide to demonstrate proof of principle of an antisense effect in human tumors by the documented downregulation of the target Bcl-2 protein. A growing body of preclinical and clinical evidence suggests that oblimersen synergizes with many cytotoxic and biologic/immunotherapeutic agents against a variety of hematologic malignancies and solid tumors. Randomized clinical trials are currently underway to evaluate the efficacy and tolerability of oblimersen in combination with cytotoxic chemotherapy in chronic lymphocytic leukemia (CLL), multiple myeloma (MM), malignant melanoma, and non-small cell lung cancer. In addition, nonrandomized trials are underway to evaluate oblimersen in non-Hodgkin's lymphoma (NHL), acute myeloid leukemia (AML), and hormone-refractory prostate cancer. Preclinical data support the clinical evaluation of oblimersen in additional tumor types, including chronic myelogenous leukemia, and breast, small cell lung, gastric, colon, bladder (CML), and Merkel cell cancers. Enhancement of the efficacy of anticancer treatments with oblimersen Bcl-2 antisense therapy represents a promising new apoptosis-modulating strategy, and ongoing clinical trials will test this therapeutic approach.
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PMID:Oblimersen sodium (G3139 Bcl-2 antisense oligonucleotide) therapy in Waldenstrom's macroglobulinemia: a targeted approach to enhance apoptosis. 1272 Jan 57

To design a specific immunotherapy for leukemia patients, the identification of leukemia-associated antigens (LAAs) is a pivotal step. Antileukemic effects after hematopoetic stem cell transplantation for myeloid leukemias are observed and might be related to the recognition of LAAs. Using the serological screening of an expression library (SEREX) of K562 cells, we identified 16 different clones encoding LAAs eliciting a humoral immune response, among them the heat shock proteins HSJ2 and HSP70, the M-phase phosphoprotein 11 (MPP11), the BRCA1-associated protein (BRAP), the Jkappa recombination binding protein (RBPJkappa) and the receptor for hyaluronic acid mediated motility (RHAMM). Serological responses to MPP11 were observed in 7/19 (37%) of patients with acute myeloid leukemia (AML) and 6/16 (38%) of patients with chronic myeloid leukemia (CML), but not in healthy volunteers (0/20). IgG antibodies directed against MPP11 were also detected in 25-50% of the sera of patients with solid tumors such as melanoma, renal cell, ovarian and breast carcinoma. mRNA expression of MPP11 was detected in 20/20 AML patients and 7/10 patients with CML. In normal tissues, strong mRNA expression of MPP11 was only detected in testis. By real-time PCR, we detected upregulation of MPP11 in leukemic blasts. Simultaneous humoral immune responses to 2 or more of the 16 LAAs identified here was observed, suggesting the feasibility of a polyvalent vaccination as an option for immunotherapies in leukemia patients.
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PMID:Characterization of several leukemia-associated antigens inducing humoral immune responses in acute and chronic myeloid leukemia. 1280 Jan 98

Troxacitabine [BCH 4556; SPD 758; Troxatyl] is a DNA synthesis inhibitor. This profile has been selected from R&D Insight, a pharmaceutical intelligence database produced by Adis International Ltd. It is a member of a novel class of nucleoside analogues discovered by BioChem Pharma and is the first example of a synthetic L-nucleoside analogue to have shown anticancer activity in animal models. On 11 May 2001, BioChem Pharma was acquired by, and integrated into, Shire Pharmaceuticals Group. In February 2002 Shire announced that it intended to pursue development of troxacitabine as a treatment for solid tumours. In addition, Shire indicated that it would pursue the drug's development for acute myeloid leukaemia. In March 1999, phase II trials were initiated to investigate the efficacy and tolerability of troxacitabine in a variety of solid tumours including pancreas, prostate, colorectal, renal and non-small cell lung cancers and melanoma. The trials were conducted throughout North America and were closed to patient accrual in 2000. Two phase I combination chemotherapy trials in solid tumours (one with cisplatin and another with paclitaxel) have been initiated. One of these trials is in patients with pancreatic cancer. A phase III trial in patients with pancreatic cancer is expected to begin during the second or third quarter of 2003. In addition, further clinical development was initiated in May 2000, in the form of a combination chemotherapy trial in patients with acute leukaemia. A phase II trial in patients with acute myeloid leukaemia (AML) and chronic myeloid leukaemia-blast phase (CML-BP) has reported that troxacitabine demonstrated significant activity in these cancers. However, Shire indicated that no further development for CML-BP will be conducted. The company indicated that it would focus future development in the haematological malignancy area on AML and has initiated an exploratory phase III trial of troxacitabine in previously untreated patients with poor prognosis AML. The study will compare troxacitabine in combination with either cytarabine or idarubicin, with a control drug regimen. The aim is to identify the most promising treatment regimens in a relatively small number of patients before commencing the larger pivotal trial. A pivotal phase III trial is expected to begin in the first half of 2003. In September 2002, Shire Pharmaceuticals forecast Troxatyl to reach peak sales of $US100-200 million, for the indications of pancreatic cancer and myeloid leukaemia.
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PMID:Troxacitabine: BCH 4556, SPD 758, Troxatyl. 1284 94

There are currently over 150 medical centers worldwide enrolling patients in randomized, controlled Phase III clinical trials testing autologous cancer-derived heat-shock protein (HSP)-peptide complexes for the treatment of renal cell carcinoma and melanoma. In addition, autologous HSP-peptide complexes have been or are being tested in Phase I and II trials of chronic myelogenous leukemia, lymphoma and pancreatic, gastric and colorectal cancers. The door has more recently opened to clinical testing of off-the-shelf HSP-based treatments for infectious diseases. This review recounts the long history of basic research on HSPs in immune response. A keen understanding of how these ancient molecules orchestrate the immune response to cancer and infections has been gained, providing a clear rationale for translating this knowledge into clinical medicine.
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PMID:Vaccination with heat shock protein-peptide complexes: from basic science to clinical applications. 1290 2

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