Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023418 (leukemia)
 93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Members of the human TTG/RBTN family, now renamed 'LMO' for LIM-only proteins, encode proteins with two tandem copies of a LIM motif. There are three members of this family, two have been isolated at the sites of chromosomal translocations in T-cell leukaemia. The function of the LIM motifs is at present unknown. We found that the LMO-2 gene is highly conserved between mammals, Drosophila and yeast. As a first step to obtain a model system for studying the function of the LIM motifs we have isolated the Drosophila homologue Dlmo. In contrast to mammals Drosophila appears to have only one lmo gene. A 2087 bp cDNA clone was isolated from a larval cDNA library, encoding a protein of 266 amino acids. A second transcript with an alternative 5' end was identified in RNA from embryos. The Drosophila lmo protein consists of two tandem copies of the conserved LIM domain characteristic of the human LMO family and an extended amino and carboxy terminus, which is not present in the human proteins. The amino acid sequence similarity with human LMO-1 and LMO-2 in LIM 1 is 79% and 69% and in LIM-2 90% and 60%, respectively. In addition a short stretch of 25 nucleotides with a homology of 83% between LMO-2 and Dlmo is found in the 3' UTR. Dlmo, like LMO-1, has an intron after the second LIM encoding region, which is not present in LMO-2. It is expressed maternally and at a high level in early embryogenesis as well as in adults. Interestingly we observed that the Dlmo protein is immunologically related to LMO-2 and can be detected by immunohistochemistry in early cellular blastoderm embryos. The gene was localised to a genetically well characterized region (17C on the X chromosome) opening the way for identification of mutations.
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PMID:A single ancestral gene of the human LIM domain oncogene family LMO in Drosophila: characterization of the Drosophila Dlmo gene. 747 48

In this paper we report the presence and function of the 5' untranslated region (5'UTR) from the mRNA encoding human gamma-glutamyltransferase (GGT) in three different hematopoietic cell lines (HL-60, U-937 and K-562) as well as in the RNA of the leukocyte fraction from six acute lymphoblastic leukemias (ALL). Results obtained by RNase protection analysis demonstrate the presence of a unique form of 5'UTR expressed in most human tissues. In order to investigate the possible role of this type of sequence on regulation of GGT in hematopoietic cells, plasmid constructs carrying human hepatoma GGT 5'UTR and a luciferase reporter gene were transfected into the three blood cell lines. Compared to control untransfected cells, transfected HL-60 and K-562 showed a decrease in reporter gene activity of 51 and 73%, respectively. In contrast, transfected U-937 showed a 139% increase of reporter gene activity. Results were compared to GGT activity in the relevant cells and we concluded that the 5'UTR appears to have a regulatory role in GGT expression as a tissue-specific modulator of translation.
Leukemia 1995 Aug
PMID:Characterization and regulatory effect of gamma-glutamyltransferase messenger RNA untranslated regions in human leukemia. 764 21

Rearrangement and overexpression of CCND1 (BCL1/PRAD1), a member of the cyclin G1 gene family, are consistent features of t(11q13)-bearing B-lymphoid tumors (particularly mantle-cell lymphoma [MCL]). Its deregulation is thought to perturb the G1-S transition of the cell cycle and thereby to contribute to tumor development. As suggested by previously published studies, rearrangement of the 3' untranslated region (3' UTR) of CCND1 may contribute to its activation in some lymphoid tumors. To define further the prevalence of such rearrangements, we report here the result of the molecular study of 34 MCL and six t(11q13)-associated leukemias using a set of probes specific to the different parts of the CCND1 transcript. We also sequenced the entire cDNA of the overexpressed CCND1 transcripts in a t(11q13)-associated leukemia. DNA from four of these 40 patients showed rearrangement of the 3' UTR of CCND1 coexisting with major translocation cluster (MTC) rearrangement. Southern blot and sequence analyses showed that, as a result of these rearrangements, the 3' AU-rich region containing sequences involved in mRNA stability and in translational control is eliminated. Moreover, the finding that the CCND1 mRNA half-life was greater than 3 hours (normal tissues, 0.5 hours) in three t(11q13)-associated cell lines stresses the importance of posttranscriptional derangement in the activation of CCND1. Finally, we did not observe any mutation in the coding frame of the CCND1 cDNA analyzed.
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PMID:Rearrangement of CCND1 (BCL1/PRAD1) 3' untranslated region in mantle-cell lymphomas and t(11q13)-associated leukemias. 820 93

The secondary structure in mRNA is essential for many processes, but it can present a technical problem in making full-length cDNA with reverse transcriptases. Furthermore, different reverse transcriptases have differing abilities to transcribe through regions with secondary structure, which can alter the products obtained by reverse-transcribing RNA and then PCR-amplifying the product (RT-PCR). We have been interested in studying the posttranscriptional regulation of epidermal growth factor by RT-PCR and have tested the ability of several reverse transcriptases to reverse transcribe the 3'-untranslated region (3'UTR), a region that contains substantial secondary structure. When low levels of either total RNA or poly(A)+ mRNA were used, we found avian myeloblastosis virus reverse transcriptase (AMV-RT) to be the most robust of all the enzymes tested. Furthermore, contrary to reports that AMV-RT is inhibited by tRNA--which should make it less effective than Moloney murine leukemia virus reverse transcriptase (MMLV-RT) at reverse-transcribing total RNA--adding tRNA to poly(A)+ RNA actually increased the amount of specific RT-PCR product obtained with AMV-RT while it decreased the amount of product and enhanced mispriming with MMLV-RT. We found that pre-incubation of the oligo(dT) primer with total RNA at elevated temperature prior to reverse transcription improved the efficiency of both native and modified MMLV-RTs. These findings support the concept that secondary structures in RNA differentially affect the abilities of different reverse transcriptases to detect transcript diversity and raise the possibility that such structures could affect quantitation using RT-PCR with internal mRNA standards.
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PMID:Secondary structure in the 3' UTR of EGF and the choice of reverse transcriptases affect the detection of message diversity by RT-PCR. 858 21

Human CEM-7A cells established by gradual deprivation of leucovorin from the growth medium, display 100-fold overexpression of methotrexate transport activity. We found that this was associated with 10-fold reduced folate carrier gene amplification and 50-fold overexpression of both the principal 3 kb reduced folate carrier transcript and, surprisingly, a novel truncated 2 kb reduced folate carrier mRNA poorly expressed in parental CEM cells. The molecular basis for the generation of this truncated reduced folate carrier transcript and its potential functional role in folate accumulation were studied. Reduced folate carrier genomic and cDNA sequencing revealed that the truncated transcript had an internal deletion of 987 nucleotides which was a result of an alternative splicing utilizing a cryptic acceptor splice site within exon 6. This deletion consisted of the 3'-most 480 nucleotides of the reduced folate carrier ORF and the following 507 nucleotides of the 3'-UTR. These resulted in a truncated reduced folate carrier protein, which lacks the C-terminal 160 amino acids, but instead contains 58 new C-terminal amino acids obtained from reading through the 3'-UTR. Consequently, a truncated reduced folate carrier protein is generated that lacks the 12th transmembrane domain and contains a new and much shorter C-terminus predicted to reside at the extracellular face. Western analysis with plasma-membrane fraction from CEM-7A cells revealed marked overexpression of both a broadly migrating approximately 65-90 kDa native reduced folate carrier and a approximately 40-45 kDa truncated reduced folate carrier, the core molecular masses of which were confirmed by in vitro translation. However, unlike the native reduced folate carrier, the truncated reduced folate carrier protein failed to bind the affinity labels NHS-[3H]MTX and NHS-[3H]folic acid. Stable transfection of the truncated reduced folate carrier cDNA into mouse L1210 leukemia cells: increased folate accumulation, decreased their leucovorin and folic acid growth requirements, and increased their sensitivity to methotrexate. This constitutes the first documentation of an expressed alternatively spliced truncated reduced folate carrier that, when coexpressed along with the native carrier, augments folate accumulation and consequently decreases the cellular folate growth requirement. The possible mechanisms by which the truncated reduced folate carrier may increase folate accumulation and/or metabolism in cells coexpressing the truncated and native reduced folate carrier are discussed.
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PMID:Characterization of a human alternatively spliced truncated reduced folate carrier increasing folate accumulation in parental leukemia cells. 1065 5

The 5' untranslated regions (5'UTR) of mRNA are known to stimulate or inhibit more or less translation. SR alpha, an association of SV40 early gene promoter and of the R region plus the first 39 nucleotides of the U5 region (designated as R) from the human T-cell leukemia virus (HTLV-1) is currently used to stimulate expression of various coding regions. Its effect is considered to take place at the translational level. In all studies published so far, the R region was associated with the promoter and 5'UTR from SV40 early genes. In the present work, the role of SV40 5'UTR and HTLV-1R region was evaluated separately using different promoters, reporter genes and cells. Both SV40 5'UTR (SU) and R region (R) from HTLV-1 stimulated separately the expression of adjacent reporter genes. When associated, the SV40 5'UTR and the R region from HTLV-1 (SUR) were a more potent stimulator of gene expression and their effects were more than additive. This effect was very potent in HeLa and HC11 cells and almost inexistent in CHO and COS 7 cells. It was of various intensity in other cell types including bird and fish cells. The presence of SUR in gene constructs favoured the accumulation of the mRNAs. SUR stimulated gene expression when added between the cap and the initiation codon. Unexpectedly, SUR was never inhibitory. SUR can therefore be considered essentially as potent and specific stimulator of gene expression favoring mRNA accumulation.
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PMID:The stimulation of gene expression by the R region from HTLV-1 and BLV. 1068 78

Induction of specific gene expression may provide an alternative or a support to conventional cytotoxic chemotherapy of cancer, as well as to therapy for sickle cell diseases. In this respect, pharmacological induction of expression of the endogenous gamma-globin gene is a realistic approach to therapy of beta-globin disorders. Erythroid differentiation and inhibition of proliferation of the human CML K562 cell line was induced by guanosine 5'-triphosphate (GTP). The hemoglobin production in cells was correlated to an increase in alpha- and gamma-globin mRNA expression. At the transcriptional level, we showed that both the expression of the major erythroid transcription factor GATA-1 (protein and mRNA) and its binding capacity to the gamma-globin gene promoter was transiently increased. Moreover, GTP moderately stimulated the gamma-globin gene promoter after 48 h of treatment. At the post-transcriptional level, GTP treatment led to a drastic increase of the gamma-globin mRNA half-life. This stabilizing effect of GTP was mediated via the 3'-untranslated region (3'-UTR) of the gamma-globin mRNA. In conclusion, mechanism of GTP-mediated differentiation of K562 cells is linked to an early activation of gamma-globin gene transcription followed by a stabilization of its mRNA.
Leukemia 2000 Sep
PMID:GTP-mediated differentiation of the human K562 cell line: transient overexpression of GATA-1 and stabilization of the gamma-globin mRNA. 1099 5

Retrovirus genomic mRNA exhibits a several hundred nucleotides-long untranslated region (5' UTR) which encloses many control elements required for retrovirus replication. In addition, this 5' UTR contains translation regulatory elements, such as internal ribosome entry sites (IRESes) that have been described in oncoretroviruses, as well as in lentiviruses. UV cross-linking experiments suggested that the pyrimidine tract binding protein (PTB), a cellular protein known to regulate the activity of several picornaviral IRESes, binds to human T-cell leukemia virus (HTLV)-I RNA but not to lentiviral human immunodeficiency virus (HIV)-1, HIV-2 or simian immunodeficiency virus RNAs. To calculate the affinity of such RNA-protein interactions, we developed a new method based on the BIAcore technology. The absence of affinity of PTB for lentiviral RNAs was confirmed, whereas its affinity for HTLV-I RNAs was 1000-fold lower than for picornaviral RNAs. The BIAcore technology also revealed a significant affinity of the La autoantigen, previously described for its involvement in translational control of viral mRNAs, for HIV-1 and HTLV-I RNAs. Addition of recombinant PTB to in vitro translation experiments weakly enhanced translation initiation in the presence of HTLV-I IRES, suggesting that such an IRES requires additional trans-acting factors.
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PMID:Pyrimidine tract binding protein and La autoantigen interact differently with the 5' untranslated regions of lentiviruses and oncoretrovirus mRNAs. 1117 10

Here, we describe a fast, simple method for constructing full-length cDNA libraries using SMART technology. This novel procedure uses the template-switching activity of Moloney murine leukemia virus (MMLV) reverse transcriptase to synthesize and anchor first-strand cDNA in one step. Following reverse transcription, three cycles of PCR are performed using a modified oligo(dT) primer and an anchor primer to enrich the cDNA population for full-length sequences. Starting with 1 microgram human skeletal muscle poly(A)+ RNA, a cDNA library was constructed that contained 3 x 10(6) independent clones with an average insert size of 2 kb. Sequence analysis of 172 randomly selected clones showed that 77% of cDNA clones corresponding to known genes contained intact open reading frames. The average length of complete open reading frames was 2.4 kb. Furthermore, 86% of the full-length clones retained longer 5' UTR sequences than the longest 5' end deposited in the GenBank database. cDNA libraries generated using this method will be useful for accelerating the collection of mRNA 5' end sequence information, which is currently very limited in GenBank.
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PMID:Reverse transcriptase template switching: a SMART approach for full-length cDNA library construction. 1131 72

Leukemia inhibitory factor (LIF) is a pleiotropic cytokine involved in early conceptus development in pig. We isolated a PAC clone containing the porcine LIF gene and determined the complete DNA sequence of the gene, which spans about 6.3 kb and consists of five exons including three alternative first exons (1D, 1M, 1T) spliced onto common second and third exons. The LIF-D transcript encodes a protein of 202 amino acids sharing 87, 84, and 78% identity with respectively human, ovine, and murine leukemia inhibitory factors. The LIF-M and LIF-T transcripts both encode a truncated protein of 158 amino acids. Two SNP markers within untranslated regions of the LIF cDNA were identified. One SNP is located in the 5'-UTR of the alternative exon 1T while the other SNP is located in the 3'-UTR of exon 3. Based on fluorescence in situ hybridization and radiation hybrid mapping, the porcine LIF gene was assigned to chromosome 14q2.1-->q2.2.
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PMID:Molecular characterization and chromosome assignment of the porcine gene for leukemia inhibitory factor LIF. 1147 86


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