UMLS:C0023418 - FACTA Search

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

Menogaril is an anthracycline presently in Phase II clinical trials. Menogaril-resistant mouse leukaemia P388 cells were developed in vitro by 4 months of exposure to step-wise increasing concentrations of menogaril after which resistant cells (P388/MEN) were cloned in 320 ng ml-1 menogaril. P388/MEN cells were 40-fold more resistant to menogaril in vitro compared to P388/O and were also resistant in vivo. Resistance to menogaril was stable for at least 2 months in the absence of the drug. The results indicate that P388/MEN, although resistant to an anthracycline, did not display the typical multidrug resistant phenotype. It was not cross-resistant to several structurally unrelated drugs such as actinomycin D, cisplatin, or vinblastine, but it was cross-resistant to the anthracycline, adriamycin. Uptake and efflux of menogaril was similar in sensitive and resistant cell lines. Also, resistance was not reversed by verapamil. No major karyotypic difference was noted between P388/O and P388/MEN. There was no significant amplification or overexpression of the mdr gene in P388/MEN compared to P388/O. In contrast to P388/MEN, P388 cells resistant to adriamycin displayed the typical multidrug resistant phenotype. Glutathione content of P388/MEN cells was similar to that of P388/O and depletion of glutathione did not potentiate menogaril cytotoxicity. Therefore, we conclude that glutathione is not likely to be involved in menogaril resistance to P388/MEN cells.
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PMID:P388 leukaemia cells resistant to the anthracycline menogaril lack multidrug resistant phenotype. 214 26

Complex-binding of anthracyclines to DNA may increase their therapeutic efficacy. In a previous randomized trial patients with acute myelocytic leukaemia (AML) receiving combination chemotherapy including a DNA-bound doxorubicin preparation had a longer duration of first complete remission (CR) and survival than patients receiving free doxorubicin. In a parallel phase I/II study a combination of mitoxantrone, activity. In this randomized study of AML patients (15-60 years) induction treatment with MEA was compared to a combination of doxorubicin/DNA conjugate ara-C, thioguanine, vincristine and prednisolone (POCAL-DNA). The study was closed after an interim analysis of 86 patients. Thirty-five/42 (83%) and 20/44 (45%) patients entered CR in the MEA and POCAL-DNA groups, respectively (p < 0.001). With rescue therapy the corresponding figures were 88 and 64% (p < 0.02). Median survival was 27.8 and 13.1 months for MEA and POCAL-DNA patients, respectively (p < 0.03). In conclusion, the MEA regimen has a very high antileukaemic activity in good accordance with our previous experience. Since we could not reproduce our earlier clinical results using DNA-bound anthracyclines, the source and preparation of DNA seem to be of major importance.
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PMID:Mitoxantrone, etoposide and ara-C vs doxorubicin-DNA, ara-C, thioguanine, vincristine and prednisolone in the treatment of patients with acute myelocytic leukaemia. A randomized comparison. 761 46

The t(11;19)(q23;p13.1) translocation is thought to play an important role in pathogenesis of myeloid leukemias in older patients. The MLL gene involved in other 11q23 abnormalities was also rearranged by this translocation. Screening of cDNA libraries of the t(11;19)(q23;p13.1)-carrying leukemic cells resulted in the isolation of several species of fusion cDNAs between the MLL gene and an unknown gene on 19p13.1, named MEN (myeloid eleven-nineteen translocation), which is ubiquitously expressed. Although the MLL gene was alternatively spliced, the fusion protein should contain an N-terminal half of the MLL, including AT hook motifs, that is fused to the MEN protein with a lysine-rich sequence, suggesting that the MLL/MEN fusion protein could be a chimeric transcription factor. The MLL/MEN fusion transcripts of 8.0 kb were detected in leukemic cells of two cases with the translocation. The MLL/MEN fusion was consistent in all three cases of the t(11;19)(q23;p13.1)-carrying leukemia examined by RNA-based polymerase chain reaction. These findings strongly suggest that the t(11;19)(q23;p13.1) results in the fusion formation encoding a new class of potential chimeric transcription factor that contributes to leukemogenesis of myeloid lineage.
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PMID:Cloning of several species of MLL/MEN chimeric cDNAs in myeloid leukemia with t(11;19)(q23;p13.1) translocation. 771 74

Deletions and rearrangements involving the long arm of chromosome 11 are not infrequent occurrences in the non-Hodgkin's lymphomas. Recently, a tumor suppressor gene, the multiple endocrine neoplasia type 1 gene (MEN1) was cloned and mapped to chromosome 11q13. To assess the potential involvement of this gene in lymphomagenesis, we examined 94 primary cases of lymphoma and 12 cell lines by a combination of fluorescent in situ hybridization and PCR-SSCP analysis. In our initial analysis of 41 primary B or T lymphomas, MEN1 FISH analysis revealed allelic deletions in 15 cases (three of four B cell chronic lymphocytic leukemias, six of 15 follicular lymphomas, three of nine diffuse large B cell lymphomas, two of five mantle cell lymphomas, one of four Burkitt's lymphoma). To discern whether the MEN1 gene was in fact the target of the deletions, we assessed 20 of these 41 cases and an additional 74 primary lymphomas and 12 cell lines for MEN1 gene mutations using PCR-SSCP analysis. Abnormal SSCP patterns were found in exon 2 in two of the primary lymphoma cases and in one of the cell lines, but not in any of the original cases that showed MEN1 deletions by FISH. Furthermore, sequencing analysis revealed that the abnormal SSCP patterns in exon 2 were the result of a previously described genetic polymorphism (S145S: AGC --> ACT), and in one sample, the result of this S145S polymorphism associated with a second nucleotide substitution at position 498 which left the encoded amino acid unchanged. Our study indicates that the 11q13 locus is a frequent target of deletion in lymphoid neoplasms, but that there are no associated mutations of the MEN1 gene. This suggests that the 11q deletions either target another gene in lymphomas, or that the MEN1 gene is inactivated through means other than mutation.
Leukemia 1999 Jan
PMID:Allelic loss of 11q13 as detected by MEN1-FISH is not associated with mutation of the MEN1 gene in lymphoid neoplasms. 1004 65

Germ line mutations of the RET proto-oncogene are responsible for the development of multiple endocrine neoplasia type 2A (MEN 2A), an inherited cancer syndrome characterized by medullary thyroid carcinoma, pheochromocytoma, and parathyroid hyperplasia. To study the mechanism of tissue-specific tumor development by RET with a MEN2A (cysteine 634-->arginine) mutation, we generated transgenic mice by introducing the RET-MEN2A gene fused to Moloney murine leukemia virus long terminal repeat. Expression of the transgene and its product was detected at variable levels in a variety of tissues including thyroid, heart, liver, colon, parotid gland, and brain. All of 29 mice analyzed developed thyroid C-cell hyperplasia or medullary carcinoma, accompanying high levels of serum calcitonin. In addition, development of mammary or parotid gland adenocarcinoma was observed in one-half of the transgenic mice. RET dimerization and its complex formation with Shc and Grb2 adaptor proteins were detected in tumor tissues. Unexpectedly, no tumor formation was found in other tissues despite RET-MEN2A expression where RET dimerization was undetectable. Because these tissues but not tumors expressed glial cell line-derived neurotrophic factor family receptor alpha (GFR alpha) at high levels, this suggested that GFR alpha expression may interfere in the dimerization of the RET-MEN2A mutant proteins, leading to tissue-specific tumor development in vivo.
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PMID:Tissue-specific carcinogenesis in transgenic mice expressing the RET proto-oncogene with a multiple endocrine neoplasia type 2A mutation. 1101 55

Ret is a tyrosine kinase receptor involved in several human diseases germ-line mutations are responsible for multiple endocrine neoplasia type 2 syndromes while somatic mutations of Ret are found in sporadic medullary thyroid carcinomas. In the present work, we describe the generation and characterization of a panel of novel monoclonal antibodies to Ret obtained by immunizing mice with a Ret-FC fusion protein. Fifty-five independent monoclonal antibodies recognize Ret-FC by enzyme linked immunosorbent assay but not a non-related FC fusion protein. Twenty antibodies further characterized recognize Ret expressing cells by flow cytometry. Finally, immunoprecipitation analysis showed that these antibodies recognize Ret mature glycosylated and immature forms. Thus, these monoclonal antibodies could be used as diagnostic tools to detect Ret expression, as well as therapeutic tools to downmodulate Ret or to deliver cytotoxic drugs to malignancies that overexpress Ret as neuroblastomas, medullary and papillary thyroid carcinomas, seminomas, and leukemia.
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PMID:Generation and characterization of novel monoclonal antibodies to the Ret receptor tyrosine kinase. 1206 79

Mutations in the MEN1 gene are associated with the multiple endocrine neoplasia syndrome type 1 (MEN1), which is characterized by parathyroid hyperplasia and tumors of the pituitary and pancreatic islets. The mechanism by which MEN1 acts as a tumor suppressor is unclear. We have recently shown that menin, the MEN1 protein product, interacts with mixed lineage leukemia (MLL) family proteins in a histone methyltransferase complex including Ash2, Rbbp5, and WDR5. Here, we show that menin directly regulates expression of the cyclin-dependent kinase inhibitors p27Kip1 and p18Ink4c. Menin activates transcription by means of a mechanism involving recruitment of MLL to the p27Kip1 and p18Ink4c promoters and coding regions. Loss of function of either MLL or menin results in down-regulation of p27Kip1 and p18Ink4c expression and deregulated cell growth. These findings suggest that regulation of cyclin-dependent kinase inhibitor transcription by cooperative interaction between menin and MLL plays a central role in menin's activity as a tumor suppressor.
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PMID:Menin and MLL cooperatively regulate expression of cyclin-dependent kinase inhibitors. 1564 Mar 49

Menin is the product of the tumor suppressor gene Men1 that is mutated in the inherited tumor syndrome multiple endocrine neoplasia type 1 (MEN1). Menin has been shown to interact with SET-1 domain-containing histone 3 lysine 4 (H3K4) methyltransferases including mixed lineage leukemia proteins to regulate homeobox (Hox) gene expression in vitro. Using conditional Men1 knockout mice, we have investigated the requirement for menin in hematopoiesis and myeloid transformation. Men1 excision causes reduction of Hoxa9 expression, colony formation by hematopoietic progenitors, and the peripheral white blood cell count. Menin directly activates Hoxa9 expression, at least in part, by binding to the Hoxa9 locus, facilitating methylation of H3K4, and recruiting the methylated H3K4 binding protein chd1 to the locus. Consistent with signaling downstream of menin, ectopic expression of both Hoxa9 and Meis1 rescues colony formation defects in Men1-excised bone marrow. Moreover, Men1 excision also suppresses proliferation of leukemogenic mixed lineage leukemia-AF9 fusion-protein-transformed myeloid cells and Hoxa9 expression. These studies uncover an important role for menin in both normal hematopoiesis and myeloid transformation and provide a mechanistic understanding of menin's function in these processes that may be used for therapy.
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PMID:The tumor suppressor menin regulates hematopoiesis and myeloid transformation by influencing Hox gene expression. 1641 55

Multiple endocrine neoplasia type I (MEN1) is a familial cancer syndrome characterized primarily by tumors of multiple endocrine glands. The gene for MEN1 encodes a ubiquitously expressed tumor suppressor protein called menin. Menin was recently shown to interact with several components of a trithorax family histone methyltransferase complex including ASH2, Rbbp5, WDR5, and the leukemia proto-oncoprotein MLL. To elucidate menin's role as a tumor suppressor and gain insights into the endocrine-specific tumor phenotype in MEN1, we mapped the genomic binding sites of menin, MLL1, and Rbbp5, to approximately 20,000 promoters in HeLa S3, HepG2, and pancreatic islet cells using the strategy of chromatin-immunoprecipitation coupled with microarray analysis. We found that menin, MLL1, and Rbbp5 localize to the promoters of thousands of human genes but do not always bind together. These data suggest that menin functions as a general regulator of transcription. We also found that factor occupancy generally correlates with high gene expression but that the loss of menin does not result in significant changes in most transcript levels. One exception is the developmentally programmed transcription factor, HLXB9, which is overexpressed in islets in the absence of menin. Our findings expand the realm of menin-targeted genes several hundred-fold beyond that previously described and provide potential insights to the endocrine tumor bias observed in MEN1 patients.
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PMID:Genome-wide analysis of menin binding provides insights into MEN1 tumorigenesis. 1660 56

Menin displays the unique ability to either promote oncogenic function in the hematopoietic lineage or suppress tumorigenesis in the endocrine lineage; however, its molecular mechanism of action has not been defined. We demonstrate here that these discordant functions are unified by menin's ability to serve as a molecular adaptor that physically links the MLL (mixed-lineage leukemia) histone methyltransferase with LEDGF (lens epithelium-derived growth factor), a chromatin-associated protein previously implicated in leukemia, autoimmunity, and HIV-1 pathogenesis. LEDGF is required for both MLL-dependent transcription and leukemic transformation. Conversely, a subset of menin mutations in multiple endocrine neoplasia type 1 patients abrogate interaction with LEDGF while preserving MLL interaction but nevertheless compromise MLL/menin-dependent functions. Thus, LEDGF critically associates with MLL and menin at the nexus of transcriptional pathways that are recurrently targeted in diverse diseases.
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PMID:Menin critically links MLL proteins with LEDGF on cancer-associated target genes. 1859 37

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