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)

The gene for the insulin receptor has been assigned to chromosome 19 near the breakpoint of the translocation t(1;19) which occurs in 25% of pre-B-cell leukemias. Insulin receptors in a pre-B-cell leukemia cell line (ACV) with t(1;19) were found to have 2-fold higher affinity for insulin, 5-fold higher basal and insulin-stimulated beta sub-unit autophosphorylation, and 2-fold higher basal and 4-fold higher insulin-stimulated beta sub-unit kinase activity on the synthetic peptide poly(Glu,Tyr), compared to receptors in a B-cell line (ADD) with normal karyotype from the same patient. ACV cells had a novel 13-kb receptor mRNA species and expressed a DNA polymorphism localized to the tyrosine kinase domain of the receptor gene. These findings suggest that t(1;19) in the ACV cell may result in rearrangement of the insulin receptor gene and translation of a receptor with enhanced tyrosine kinase activity.
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PMID:Enhanced insulin-receptor tyrosine kinase activity associated with chromosomal translocation (1;19) in a pre-B-cell leukemia line. 131 Apr 91

Insulin and the insulin-like growth factors (IGF-I, IGF-II) constitute a family of peptides capable of stimulating diverse cellular responses, including cell proliferation. In order to determine the effects of these peptides on malignant cells, we analyzed the expression and function of insulin, IGF-I, and IGF-II receptors on B-cell precursor acute lymphoblastic leukemia (BCP ALL) cell lines, utilizing competitive binding, affinity crosslinking, and cell proliferation assays. The BCP ALL cells bound to each peptide with mean specific binding for 125I-insulin, 125I-IGF-I, and 125I-IGF-II of 19.6%, 7.1%, and 4.3% of radioligand added, respectively. Competitive binding to intact cells demonstrated that 125I-IGF-I was displaced by IGF-I = IGF-II >> insulin, 125I-IGF-II was displaced by IGF-II > insulin = IGF-I, and 125I-insulin was displaced by insulin >> IGF-II > IGF-I. These data were remarkable for the potency of IGF-II displacement of 125I-IGF-I and 125I-insulin. Affinity crosslinking of radioligands to SUP-B2 cell membranes demonstrated the high affinity insulin and IGF-I (type 1 IGF) receptors. IGF binding proteins were also present in BCP ALL cell membrane preparations. In the cell proliferation studies, insulin stimulated a 50-130% increase in leukemic cell growth with a half-maximal concentration of 0.1-3.0 ng/ml in three BCP ALL cell lines. The proliferative response to insulin was blocked by the addition of an insulin receptor antibody. However, no response was observed with IGF-I, and IGF-II was only weakly mitogenic with a proliferative response noted at 100 ng/ml. Thus, while BCP ALL cells possess receptors for insulin and IGF-I, only the insulin receptor mediated a proliferative response.
Leukemia 1992 Nov
PMID:Mitogenic effects of human recombinant insulin on B-cell precursor acute lymphoblastic leukemia cells. 143 95

The in vitro proliferation of the spontaneous lymphoid T-cell leukemia designated LB was enhanced by physiological, intermediate and supraphysiological concentrations of insulin. The enhancing effect was observed in both serum-free medium (SFM) and medium containing low concentrations of serum. Guinea-pig anti-insulin serum, but not guinea-pig normal serum, inhibited the proliferation of LB cells incubated either in medium containing serum alone or in medium containing serum and supplemented with insulin. This finding suggests that LB cells use serum insulin as a growth factor. Insulin-like growth factors I (IGF-I) and II (IGF-II) failed to stimulate an appreciable proliferation in LB cells, whereas in the same experiment insulin markedly enhanced the proliferation of this lymphoid leukemia. Furthermore, the concentration of unlabelled insulin required to displace 50% of 125I-insulin bound to LB cells was 3 orders of magnitude lower than the concentration of IGF-I required to achieve the same displacement. Our findings indicate that interaction of insulin with its own receptor, and not with IGF-I receptor, triggers the proliferation of LB cells. Radio-receptor assays revealed that LB cells express approximately 3,200 molecules of high affinity (Kd = 10(-9) M) insulin receptor per cell. None of 7 other tumor cell lines tested responded to insulin. The proliferation of insulin-stimulated LB cells was also inhibited with tyrphostin, a tyrosine kinase blocker analogous to tyrosine, which perhaps blocks the tyrosine kinase activity of the insulin receptor beta-chain.
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PMID:Insulin dependence of murine lymphoid T-cell leukemia. 172 17

Chromosome studies were carried out after a 24-hour harvest of unstimulated bone marrow aspirate cell cultures from a 75-year-old male with a clinical diagnosis of acute myelomonocytic leukemia (FAB M4). Analysis of nine cells after trypsin-Giemsa banding (GTG) revealed two cell lines with a mosaic chromosome pattern, 46,XY/46,XY,t(7;19)(q22;p13.3). A review of the recent literature reveals one case of childhood ALL with a 46,XY/46,XY,t(7;19)(q11;q13) chromosome pattern [1] and a 46,XY,t(3q;11q),t(7q;19p),t(15;17)(q26;q22) in one patient with ANLL (FAB M3) [2]. The t(7;19)(q22;p13.3) seen in our case has not been reported as the sole specific clonal chromosome rearrangement in myeloid neoplasia. Interestingly, the plasminogen activator inhibitor type I, multi-drug resistance, and erythropoietin genes are located at band 7q22 and the insulin receptor gene is located at band 19p13.3. Both sites contain fragile site loci. The possible role of these fragile sites, genes, or other genes in the rearrangement can only be surmised.
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PMID:Atypical (7;19) translocation in acute myelomonocytic leukemia. 175 94

Vanadate, at concentrations between 0.5 and 2 mM, rapidly decreased the basal level of P-enolpyruvate carboxykinase (GTP) (EC 4.1.1.32) mRNA and blocked the dibutyryl cyclic AMP (Bt2cAMP)-induced increase in enzyme mRNA in both FTO-2B and H4IIE rat hepatoma cells. The concentration of vanadate necessary to inhibit the expression of this gene was similar to that required for the vanadate-mediated activation of the insulin receptor tyrosine kinase. To determine whether vanadate could inhibit PEPCK gene transcription, a series of chimeric genes containing several deletions in the P-enolypyruvate carboxykinase promoter between -550 and -68 was linked to the structural genes for either amino-3-glycosyl phosphotransferase (neo) or chloramphenicol acetyltransferase and introduced into hepatoma cells using three methods: (a) infection with a Moloney murine leukemia virus-based retrovirus, (b) transfection and stable selection for neo expression, or (c) transient expression of chloroamphenicol acetyltransferase. In FTO-2B hepatoma cells infected with retrovirus, vanadate rapidly (within 1 h) inhibited transcription of the PEPCK-neo gene and blocked induction of gene expression caused by the addition of either Bt2cAMP or dexamethasone to the cells. Vanadate was not a general transcription inhibitor since, it like insulin, stimulated the expression of the c-fos gene. Also, the inhibitory effect of vanadate was rapidly reversible in FTO-2B cells since PEPCK gene expression could be stimulated by Bt2cAMP and dexamethasone after removal of vanadate. A series of 5' deletions in the P-enolpyruvate carboxykinase promoter (-550 to +73) was ligated to the structural gene for neo and stably transfected into hepatoma cells. Sequences responsive to vanadate were detected between -109 and -68. This result was confirmed using H4IIE hepatoma cells transiently expressing the PEPCK-CAT gene. The most likely target for vanadate in that region of the P-enolpyruvate carboxykinase promoter is cAMP regulatory element 1 which maps from -91 to -84. A comparison of the inhibitory effects of insulin and vanadate in this system indicated a major difference in the site of action of these two compounds on PEPCK gene transcription.
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PMID:Vanadate inhibits expression of the gene for phosphoenolpyruvate carboxykinase (GTP) in rat hepatoma cells. 216 40

The characteristics of insulin receptor binding and structure and its proliferative and metabolic action in a human leukemic cell line was investigated during the cell cycle. Exponentially growing cells were separated by counterflow centrifugation which fractionates cells primarily on the basis of size into subpopulations representing G0/G1, S, and G2 + M cells. This method avoids disturbance of the cellular metabolism. After separation the cells showed a viability of at least 92%, underwent further proliferation, and remained morphologically unchanged, which was shown by electron microscopy. The cells could be enriched to 70-90% purity for G0/G1 phase and 50-60% purity for S and G2 + M phase, respectively, which was shown by DNA flow-cytometry. Specific binding of insulin could be demonstrated in G0/G1, S, and G2 + M enriched cells. Insulin binding sites decreased from 20-25,000 per cell in G0/G1 to 1-2,000 in S and increased to 30-50,000 in G2 + M. The affinity of insulin binding remained nearly constant during the cell cycle. The specificity of the insulin receptor could also be demonstrated by covalent crosslinking of the receptor to radiolabeled ligand in all enriched cell fractions. Glucose transport was stimulated by insulin independently of cell cycle. An increase to 140% of control was observed at an insulin concentration of 10 ng/ml. In contrast, glycogen synthesis could only be stimulated by insulin in the G0/G1 phase. An increase to 140% of control was already reached at 0.25 ng/ml insulin. Insulin in concentrations of 1 and 10 ng/ml stimulated the transit to S-phase in cycling, but not in resting, cells. The growth promoting action of insulin could be investigated by consecutive DNA analysis of the separated cells which had been stimulated by insulin.
Leukemia 1990 Feb
PMID:Role of insulin during cell cycle in a myeloid cell line. 240 14

A patient with Ph-negative chronic myeloid leukemia showed active karyotypic evolution when he entered blast crisis. One cell line, which predominated briefly in an accelerated myeloid phase, was characterized by the t(11;19)(q23;p13). Chromosome in situ hybridization demonstrated movement of the oncogene c-ets-1 from the der (11q-) to the der (19p+). The breakpoint at 19p13 was in the vicinity of the human insulin receptor gene locus (INSR). No rearrangements of the c-ets and INSR genes were found in Southern blot analyses. Myeloid lineage was indicated by cell morphology and absence of immunoglobulin JH gene rearrangement and was supported by loss of the germ line bcr-3' gene. Chromosome rearrangements involving 11q23 and movement of c-ets-1 characterize monocytic and lymphoid leukemias and have not previously been reported in myeloid blast crisis of chronic myeloid leukemia.
Leukemia 1988 Feb
PMID:Transposition of the oncogene c-ets-1 in a t(11;19)(q23;p13) cell line transient during clonal evolution of blast crisis chronic myeloid leukemia. 342 1

The HL-60 and U-937 leukemic cell line and explants of fresh human leukemia cells were differentiated in vitro by incubation with 1 alpha, 25 dihydroxyvitamin D3 (Vit D). Morphologic change to monocytes was demonstrated in the promyelocytic (HL-60) line but not in the U-937 line and four of five leukemic cells. One patient with chronic granulocytic leukemia in the myeloid blast phase had incomplete morphologic change with Vit D treatment. In all cells studied, an increase in specific insulin receptor binding was independent of morphologic maturation. An increase in insulin receptor expression by Vit D was an early monocytic membrane marker dissociated from morphologic and functional alterations.
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PMID:Induction of insulin receptor expression of human leukemic cells by 1 alpha, 25 dihydroxyvitamin D3. 354 11

Abnormalities of chromosome 1, including trisomy for all or a portion of the long arm, have been frequently reported in many cancers. Anomalies of chromosome 19 are far less common, although a t(1;19)(q23;p13) translocation has been reported in association with pre-B-cell leukemia. We have observed a t(1;19)(q12;p13) translocation in three cases of advanced melanoma, with the translocation chromosome representing an extra dose of 1q in each instance. The breakpoint on 1q was within the centromeric heterochromatin, proximal to the site in pre-B-cell leukemia, but the breakpoint on 19p appeared identical. The gene for human insulin receptor has recently been mapped to this region of chromosome 19 (p13.2-13.3). This gene shares structural and sequence homologies with the epidermal growth factor receptor (erb-B oncogene) and members of the src family of oncogenes, suggesting that alterations in the insulin receptor, resulting from chromosomal translocation, could lead to a role in tumorigenesis. The present findings may permit this possibility to be examined in a neoplasm of neuroectodermal origin.
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PMID:A t(1;19) chromosome translocation in three cases of human malignant melanoma. 394 10

The met oncogene was previously isolated from a chemically transformed human cell line, MNNG-HOS. Recent evidence has demonstrated that two classes of transcripts are expressed from the met proto-oncogene locus. The met oncogene, however, expresses an aberrant RNA which has sequences in common with both transcripts. We now report partial nucleotide sequencing of the human met oncogene and show that met is related to the protein kinase oncogenes and growth factor receptors. The met nucleotide sequence is not identical to that of any published gene, and it is more closely homologous to the tyrosine kinases than to the serine/threonine kinases. Within the tyrosine kinase family, the sequenced met domains are most closely related to the human insulin receptor and the viral abl gene. In situ chromosome hybridization has mapped met to human chromosome 7 band 7q21-q31, a location distinct from that of other kinases. This is also a region associated with nonrandom chromosomal deletions observed in a portion of patients with acute nonlymphocytic leukaemia. The accompanying paper shows that this chromosomal locus is also tightly linked with the human heredity disease cystic fibrosis.
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PMID:The human met oncogene is related to the tyrosine kinase oncogenes. 406 11


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