Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two monoclonal antibodies, MRK16 and MRK20 that recognize P-glycoprotein and P-85 kd protein on the surface of adriamycin (ADM) resistant cells, respectively, were tested for the reactivity with 40 cultured leukemia/lymphoma cell lines. F(ab')2 form is essential to avoid false reaction through Fc gamma-R. Drug sensitivity of 19 representative cell lines were also examined in vitro. From this study, it was found that these cell lines were classified into 4 groups. Group 1 (4 cell lines) was insensitive to ADM, mitoxantron (MXT), etoposide (VP-16) and vincristine (VCR), and reactive to MRK16 and MRL20. Group II (1 cell line) was insensitive to the 4 drugs, but not reactive to both antibodies. Group III (3 cell lines) was insensitive to ADM, MXT and VP-16, but sensitive to VCR, and reactive to MRK20, but not to MRK16. Group IV (all other cell lines) was sensitive to these drugs, and not reactive to both antibodies. From these results, MRK16 detects P-glycoprotein-associated multidrug resistance (MDR), while MRK20 does P 85-kd-associated another type MDR (cross resistance to ADM, MXT and VP-16, but not to VCR). MRK20 reacted with monocytes, but MRK16 did not with any WBC type. One hundred and ninety eight clinical samples obtained from blood cancer were tested for the reactivity with MRK16. MRK16 did not react with any of 98 samples obtained before treatment, but did with 9 of 100 obtained at relapse or refractory stage after chemotherapy. The results indicate that MRK16 is useful to detect drug resistance phenotype of leukemia and lymphoma.
...
PMID:[Detection of multidrug resistant phenotype in leukemia and lymphoma by monoclonal antibodies]. 290 32

Allogeneic bone marrow transplantation (BMT) represents an important therapeutic tool for treatment of otherwise incurable malignant and non-malignant diseases. Until recently, myeloablative regimens were considered mandatory for eradication of all undesirable host-derived hematopoietic elements. Our preclinical and ongoing clinical studies indicated that much more effective eradication of host immunohematopoietic system cells could be achieved by adoptive allogeneic cell therapy with donor lymphocyte infusion (DLI) following BMT. Thus, eradication of blood cancer cells, especially in patients with CML can be frequently accomplished despite complete resistance of such tumor cells to maximally tolerated doses of chemoradiotherapy. Our cumulative experience suggested that graft versus leukemia (GVL) effects might be a useful tool for eradication of otherwise resistant tumor cells of host origin. The latter working hypothesis suggested that effective BMT procedures may be accomplished without lethal conditioning of the host, using new well tolerated non-myeloablative regimen, thus possibly minimizing immediate and late side effects related to myeloablative procedures considered until recently mandatory for conditioning of BMT recipients. Recent clinical data that will be presented suggests that safe non-myeloablative stem cell transplantation (NST), with no major toxicity can replace the conventional BMT. Thus, NST may provide an option for cure for a large spectrum of clinical indications in children and elderly individuals without lower or upper age limit, while minimizing procedure-related toxicity and mortality.
...
PMID:Non-myeloablative allogeneic stem cell transplantation focusing on immunotherapy of life-threatening malignant and non-malignant diseases. 1141 99

Allogeneic bone marrow or blood stem call transplantation (BMT) represents an important therapeutic tool for the treatment of otherwise incurable malignant and non-malignant diseases. Until recently, autologous and allogeneic bone marrow and mobilized blood stem cell transplantations were used primarily to replace malignant, genetically abnormal or deficient immunohematopoietic compartments, and therefore highly toxic myeloablative regimens were considered to be mandatory for the effective eradication of all undesirable host-derived hematopoietic elements. Our preclinical and ongoing clinical studies have indicated that much more effective eradication of the host immunohematopoietic system cells can be achieved by adoptive allogeneic cell therapy with donor lymphocyte infusion following BMT. Thus, eradication of blood cancer cells, especially in patients with chronic myeloid leukemia and, less frequently, in patients with other hematologic malignancies, can frequently be accomplished despite the complete resistance of such tumor cells to maximally tolerated doses of chemoradiotherapy. Our cumulative experience has suggested that graft-vs.-leukemia (GVL) effects might be a useful tool for the eradication of otherwise resistant tumor cells of host origin. Based on the cumulative clinical experience and experimental data in animal models of human diseases, it appears that the induction of host-vs.-graft tolerance as an initial step may allow the durable engraftment of donor immunocompetent lymphocytes, which may be used for the induction of effective biologic warfare against host-type immunohematopoietic cells that need to be replaced, including malignant, genetically abnormal or self-reactive cells. Based on the aforementioned rationale, we speculated that the therapeutic benefit of BMT may be improved by using safer conditioning as part of the transplant procedure, with the goal being to induce host-vs.-graft tolerance to enable subsequent induction of GVL, possibly graft-vs.-tumor or even graft-vs.-autoimmunity effects, rather than attempting to eliminate host cells with hazardous myeloablative chemoradiotherapy. This hypothesis suggested that effective BMT procedures could be accomplished without lethal conditioning of the host, using new well-tolerated non-myeloablative regimens, thus possibly minimizing immediate and late side-effects related to the myeloablative procedures until recently considered to be mandatory for the conditioning of BMT recipients. Recent clinical data presented in this review suggest that effective BMT procedures may be accomplished with well-tolerated non-myeloablative stem cell transplantation (NST) regimens, with no major toxicity. Thus, new NST approaches may offer the feasibility of safer BMT procedures for a large spectrum of clinical indications in children and elderly individuals, without lower or upper age limits, while minimizing procedure-related toxicity and mortality. Taken together, our data suggest that high-dose chemotherapy and radiation therapy may be successfully replaced by a more effective biologic tool, alloreactive donor lymphocytes, thus setting the stage for innovative therapeutic procedures for safer and more effective treatment of patients in need of BMT.
...
PMID:Non-myeloablative stem cell transplantation and donor lymphocyte infusion for the treatment of cancer and life-threatening non-malignant disorders. 1148 52

Allogeneic bone marrow transplantation (BMT) or blood stem cell transplantation represents an important therapeutic tool for the treatment of otherwise incurable malignant and nonmalignant diseases. Until recently. autologous and allogeneic BMT or mobilized blood stem cell transplantation was used primarily to replace a malignant, genetically abnormal, or deficient immunohematopoietic compartment, and therefore highly toxic myeloablative regimens were considered mandatory for eradication of all undesirable host-derived hematopoietic elements. Our preclinical and ongoing clinical studies have indicated that more effective eradication of host immunohematopoietic system cells could be achieved by adoptive allogeneic cell therapy with donor lymphocyte infusion following BMT. Thus eradication of blood cancer cells, especially in patients with chronic myelogenous leukemia and less frequently in patients with other hematologic malignancies, can frequently be achieved despite complete resistance of such tumor cells to the maximum tolerated doses of chemoradiotherapy. Our cumulative experience suggests that graft vs leukemia (GVL) effects might be a useful tool for eradication of otherwise resistant tumor cells of host origin. Based on the cumulative clinical experience and experimental data in animal models of human diseases, it appears that induction of host vs graft tolerance as the first step may allow durable engraftment of immunocompetent donor lymphocytes, which may be used for induction of effective biologic warfare against host-type immunohematopoietic cells that need to be replaced, whether they are malignant, genetically abnormal, or self-reactive. Based on this rationale, we speculate that the therapeutic benefit of BMT may be increased by using safer conditioning as part of the transplantation procedure, with the goal of inducing host vs graft tolerance to enable subsequent induction of GVL, possibly graft vs tumor, or even graft vs autoimmunity effects, rather than attempting to eliminate host cells with hazardous myeloablative chemoradiotherapy. Our hypothesis suggests that effective BMT procedures might be accomplished without lethal conditioning of the host, using new, well-tolerated nonmyeloablative regimens, possibly minimizing immediate and late side effects related to myeloablative procedures. Recent clinical data suggest that effective BMT procedures may be accomplished with nonmyeloablative stem cell transplantation (NST) regimens, with no major toxicity. Thus new NST approaches may make BMT procedures safer for a spectrum of clinical indications in children and elderly individuals without lower or upper age limits, while minimizing procedure-related toxicity and mortality. Our cumulative data suggest that high-dose chemotherapy and radiation therapy may be successively replaced by more effective alloreactive donor lymphocytes, thus setting the stage for innovative therapeutic procedures with safer and more effective treatment of patients requiring BMT.
...
PMID:Nonmyeloablative stem cell transplantation for the treatment of cancer and life-threatening nonmalignant disorders: past accomplishments and future goals. 1158 73

Allogeneic bone marrow or blood stem cell transplantation (BMT) represents an important therapeutic tool for treatment of otherwise incurable malignant and nonmalignant diseases, especially acute and chronic leukemias. Until recently, myeloablative regimens were considered mandatory for effective eradication of all malignant cells of host origin. Our preclinical and ongoing clinical studies indicated that eradication of host immunohematopoietic cells, including chemoradiotherapy-resistant leukemia, could be achieved by adoptive allogeneic cell therapy with donor lymphocyte infusion following induction of host-versus-graft transplantation tolerance mediated by engraftment of donor stem cells in the course of BMT. Thus, eradication of blood cancer cells, especially in patients with chronic myeloid leukemia and less frequently in patients with other hematologic malignancies, could be frequently accomplished despite complete resistance of such tumor cells to maximally tolerated doses of chemoradiotherapy. Our cumulative experience suggested that graft-versus-leukemia (GVL) effects might be a useful tool for both treatment and prevention of relapse. Based on the aforementioned rationale, we speculated that the therapeutic benefit of BMT may be improved by using a safer conditioning as part of the transplant procedure, with the goal in mind to induce host-versus-graft tolerance to enable subsequent induction of GVL effects rather than attempt to eliminate host cells with hazardous myeloablative chemoradiotherapy. The latter hypothesis suggested that effective BMT procedure may be accomplished without lethal conditioning of the host, using a new well-tolerated nonmyeloablative regimen, thus possibly minimizing immediate and late side effects related to myeloablative procedures considered until recently mandatory for conditioning of BMT recipients. Recent clinical observations suggest that effective treatment of leukemia may be accomplished with a well-tolerated nonmyeloablative stem cell transplantation (NST) regimen, while avoiding immediate and late toxicity and minimizing procedure-related mortality. Taken together, our cumulative data suggest that high-dose chemotherapy and radiation therapy may be successively replaced by a more effective biological tool-alloreactive donor lymphocytes-thus setting the stage for innovative immunotherapeutic procedures for more selective and effective treatment of patients in need of BMT, including those resistant to conventional chemoradiotherapy.
...
PMID:Treatment of leukemia by alloreactive lymphocytes and nonmyeloablative stem cell transplantation. 1199 94

Allogeneic bone marrow or blood stem cell transplantation (BMT) represents an important therapeutic tool for treatment of otherwise incurable malignant and non-malignant diseases. Until recently, autologous and allogeneic bone marrow or mobilized blood stem cells transplantation were used primarily to replace malignant, genetically abnormal or deficient immunohematopoietic compartment and therefore, highly toxic myeloablative regimen were considered mandatory for more effective eradication of all undesirable host-derived hematopoietic elements. Our preclinical and ongoing clinical studies indicated that much more effective eradication of host immunohematopoietic system cells could be achieved by adoptive allogeneic cell therapy with donor lymphocyte infusion following BMT. Thus, eradication of blood cancer cells, especially in patients with CML and less frequently in patients with other hematologic malignancies, could be frequently accomplished despite complete resistance of such tumor cells to maximally tolerated doses of chemoradiotherapy. Our cumulative experience suggested that graft versus leukemia (GVL) effects might be a useful tool for eradication of otherwise resistant tumor cells of host origin. Based on the cumulative clinical experience and experimental data in animal models of human diseases it appears that induction of host versus graft tolerance as step one, may allow durable engraftment of donor immunocompetent lymphocytes, which may be used for induction of effective biologic warfare against host-type immunohematopoietic cells that need to be replaced, malignant, genetically abnormal or self-reactive alike. Based on the aforementioned rationale, we speculated that the therapeutic benefit of BMT may be improved by using a safer conditioning as part of the transplant procedure, with the goal in mind to induce host versus graft tolerance to enable subsequent induction of GVL, possibly graft versus tumor or even graft versus autoimmunity effects, rather than attempt to eliminate host cells with hazardous myeloablative chemoradiotherapy. The latter hypothesis suggested that effective BMT procedure may be accomplished without lethal conditioning of the host, using new well tolerated non-myeloablative regimen, thus possibly minimizing immediate and late side effects related to myeloablative procedures considered until recently mandatory for conditioning of BMT recipients. Recent clinical data that will be presented suggests that effective BMT procedures may be accomplished with well-tolerated non-myeloablative stem cell transplantation (NST) regimen, with no major toxicity. Thus, new NST approaches may offer the feasibility of safer BMT procedure for a large spectrum of clinical indications in children and elderly individuals without lower or upper age limit, while minimizing procedure-related toxicity and mortality. Taken together, our cumulative data suggest that high dose chemotherapy and radiation therapy may be successively replaced by a more effective biologic tool, alloreactive donor lymphocytes, thus setting the stage for innovative therapeutic procedures for safer and more effective treatment of patients in need of BMT.
...
PMID:Non-myeloablative stem cell transplantation for the treatment of cancer and life-threatening non-malignant disorders; past accomplishments and future goals. 1235 51

Hematopoietic neoplasm coexpressing CD4 and CD56 includes a subset of acute myeloid leukemia with myelomonocytic differentiation, plasmacytoid monocyte tumor, and other immature hematopoietic neoplasms of undefined origin. Herein, we report a CD4+CD56+CD68+ hematopoietic tumor that was thought to be a tumor of plasmacytoid monocytes. This case is unique in the absence of accompanying myelomonocytic leukemia and the faint expression of cCD3 on the tumor cells. The patient was a 22-yr old man presented with multiple lymphadenopathy and an involvement of the bone marrow. Tumor cells were large and monomorphic with an angulated eosinophilic cytoplasm of moderate amount. Nuclei of most tumor cells were eccentric and round with one or two prominent nucleoli. Rough endoplasmic reticulum was prominent in electron microscopic examination. Tumor cells expressed CD4, CD7, CD10, CD45RB, CD56, CD68, and HLA-DR and were negative for CD1a, CD2, sCD3, CD5, CD13, CD14, CD20, CD33, CD34, CD43, CD45RA, TIA-1, S-100, and TdT. cCD3 was not detected in the immunostaining using paraffin tissue, but was faintly expressed in flow cytometry and immunostaining using a touch imprint slide. T-cell receptor gene rearrangement analysis and EBV in situ hybridization showed negative results. Cytochemically, myeloperoxidase, Sudan black B, and alpha naphthyl butyrate esterase were all negative.
...
PMID:CD4+CD56+CD68+hematopoietic tumor of probable plasmacytoid monocyte derivation with weak expression of cytoplasmic CD3. 1248 12

The Leukemia & Lymphoma Society develops and distributes both detailed and easy-to-read booklets intended to help patients and caregivers communicate with healthcare providers about their treatment and support needs. The easy-to-read booklets initially were developed for newly diagnosed patients; however, the society has learned that all patients with cancer are likely to benefit from the information at some point in their journeys. To date, the society has developed easy-to-read booklets about acute lymphocytic leukemia, acute myelogenous leukemia, chronic lymphocytic leukemia, chronic myelogenous leukemia, lymphomas, myeloma, and coping with blood cancer. All booklets are free to patients, healthcare providers, and the general public, and most titles are available in Spanish-language versions. They can be ordered through the society's Information Resource Center (800-955-4572, infocenter@lls.org, or www.lls.org) or its 68 chapters. This article focuses on the development of the booklet Myeloma: A Guide for Patients and Caregivers and includes a handout based on its content.
...
PMID:Easy to write? Creating easy-to-read patient education materials. 1772 63

AKXD recombinant inbred (RI) strains develop a variety of leukemias and lymphomas due to somatically acquired insertions of retroviral DNA into the genome of hematopoetic cells that can mutate cellular proto-oncogenes and tumor suppressor genes. We generated a new set of tumors from nine AKXD RI strains selected for their propensity to develop B-cell tumors, the most common type of human hematopoietic cancers. We employed a PCR technique called viral insertion site amplification (VISA) to rapidly isolate genomic sequence at the site of provirus insertion. Here we describe 550 VISA sequence tags (VSTs) that identify 74 common insertion sites (CISs), of which 21 have not been identified previously. Several suspected proto-oncogenes and tumor suppressor genes lie near CISs, providing supportive evidence for their roles in cancer. Furthermore, numerous previously uncharacterized genes lie near CISs, providing a pool of candidate disease genes for future research. Pathway analysis of candidate genes identified several signaling pathways as common and powerful routes to blood cancer, including Notch, E-protein, NFkappaB, and Ras signaling. Misregulation of several Notch signaling genes was confirmed by quantitative RT-PCR. Our data suggest that analyses of insertional mutagenesis on a single genetic background are biased toward the identification of cooperating mutations. This tumor collection represents the most comprehensive study of the genetics of B-cell leukemia and lymphoma development in mice. We have deposited the VST sequences, CISs in a genome viewer, histopathology, and molecular tumor typing data in a public web database called VISION (Viral Insertion Sites Identifying Oncogenes), which is located at http://www.mouse-genome.bcm.tmc.edu/vision .
...
PMID:Retroviral insertions in the VISION database identify molecular pathways in mouse lymphoid leukemia and lymphoma. 1792 94

In nature, the soft shell clam, Mya arenaria, develops a fatal blood cancer in which a highly conserved homologue for wild-type human p53 protein is rendered nonfunctional by cytoplasmic sequestration. In untreated leukemic clam hemocytes, p53 is complexed throughout the cytoplasm with overexpressed variants for both clam homologues (full-length variant, 1,200-fold and truncated variant, 620-fold above normal clam hemocytes) of human mortalin, an Hsp70 family protein. In vitro treatment with etoposide only and in vivo treatment with either etoposide or mitoxantrone induces DNA damage, elevates expression (600-fold) and promotes nuclear translocation of p53, and results in apoptosis of leukemic clam hemocytes. Pretreatment with wheat germ agglutinin followed by etoposide treatment induces DNA damage and elevates p53 expression (893-fold) but does not overcome cytoplasmic sequestration of p53 or induce apoptosis. We show that leukemic clam hemocytes have an intact p53 pathway, and that maintenance of this tumor phenotype requires nuclear absence of p53, resulting from its localization in the cytoplasm of leukemic clam hemocytes. The effects of these topoisomerase II poisons may result as mortalin-based cytoplasmic tethering is overwhelmed by de novo expression of p53 protein after DNA damage induced by genotoxic stress. Soft shell clam leukemia provides excellent in vivo and in vitro models for developing genotoxic and nongenotoxic cancer therapies for reactivating p53 transcription in human and other animal cancers displaying mortalin-based cytoplasmic sequestration of the p53 tumor suppressor, such as colorectal cancers and primary and secondary glioblastomas, though not apparently leukemias or lymphomas.
...
PMID:Genotoxic stress-induced expression of p53 and apoptosis in leukemic clam hemocytes with cytoplasmically sequestered p53. 1824 78


1 2 3 4 5 6 7 8 9 Next >>

---