Gene/Protein Disease Symptom Drug Enzyme Compound
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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 major histocompatibility complex is one of the interactive factors in the multifactorial model of carcinogenesis. Its main influence in experimental models is on the age at onset of malignancies. We have previously shown a similar effect of homozygosity for HLA-DR53 in CML. In the present study, we investigated 79 patients with CLL and 329 local controls from Germany. In addition to full serotyping, all patients and 116 of controls were also typed by HLA-DRB PCR analysis. The homozygosity rates for DR53 in patients under and over the median age (60 years) were 18.6% and 2.9%, respectively (p = 0.03). Eight of the 9 homozygous patients were under the median age. The sex ratio in the DR53 homozygous group was reversed in favour of females. The homozygosity rates for DR53 were different in the overall groups of patients and controls, yielding a relative risk (RR) of 2.4 (p = 0.03). This association was stronger in the early-onset group compared to age-matched controls (RR = 4.4; p = 0.008) and for females with an early onset compared to age- and sex-matched controls (RR = 17.9; p = 0.0008). The simultaneous occurrence of the alleles of the haplotype A2B62DR4 showed a strong association with CLL (RR = 4.1; p = 0.002). This was probably the reason behind the association with HLA-DRB1*0401 (RR = 2.4; p = 0.009). Compared to the accelerating effect of HLA-DR53, HLA-DR52 showed a significant delaying effect on the onset of CLL. These findings confirmed the influence of the HLA complex on the development of another leukaemia.
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PMID:Influence of the major histocompatibility complex on age at onset of chronic lymphoid leukaemia. 856 7

Telomerase activation is important for carcinogenesis. However, the timing and magnitude of the activation during cancer development are unknown. In this study, a new PCR-based method for measuring telomerase activity was developed and shown to be very useful for quantitative analysis of human telomerase. Using this assay, blood or bone marrow cells from healthy donors, and patients with chronic myelogenous leukemia (CML) and acute myelogenous leukemia (AML) were examined as to their relative activity. Telomerase activity present in normal peripheral blood cells was generally very low. However, significant activity was detected occasionally in samples derived from younger healthy donors. Striking telomerase activation was observed at the time of the blastic crisis in CML: no samples from chronic phase cases showed significant activity, while all cases with a well established crisis showed strong activity. Most AML cases were telomerase-positive. Quantitative analyses revealed that the relative titer varied among the AML patients, from as low as found in normal cells to as high as found in cell lines. However, a tendency that the activity was higher in relapsed cases than in fresh ones was suggested. In summary, telomerase was activated during the progression of the clinical stages in leukemias. This observation suggests that shortened telomeres and increased telomerase activity might be necessary for cancer cells to undergo clonal evolution towards more malignant phenotypes in advanced stages.
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PMID:A novel quantitative 'stretch PCR assay', that detects a dramatic increase in telomerase activity during the progression of myeloid leukemias. 895 Sep 94

Ionizing radiation is a well-known risk factor of cancer development, but the mechanism of radiation induced carcinogenesis is not clear. Chromosomal rearrangements induced by radiation most likely are one of the principal genetic alterations resulting in malignant transformation. The chimeric BCR-ABL associated with chronic myelogenous leukemia (CML) and H4-RET oncogenes associated with thyroid papillary carcinoma are the result of a translocation and inversion, respectively. In vitro studies showed these genes were induced by high-doses of X-irradiation in cell lines. Studies also show that therapeutic external X-ray doses as high as 60 Gy for treatment of various childhood cancers including Hodgkin's disease significantly increase the risk of thyroid cancer. Therefore, we examined the induction and persistence of these chimeric genes in human thyroid tissues transplanted in scid mice after 50 Gy exposure as a function of time for 2 months to elucidate the early events of thyroid carcinogenesis. The H4-RET genes were detected on day 2 and throughout the 2 month period. On the other hand, BCR-ABL genes were detected on day 2 and were undetectable subsequently. These results suggest that ionizing radiation causes various oncogene activations, but cells with only specific gene alteration uniquely associated with thyroid carcinogenesis are selectively retained demonstrating one of the early events in the beginnings of radiation carcinogenesis in human thyroid tissues.
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PMID:Continued expression of a tissue specific activated oncogene in the early steps of radiation-induced human thyroid carcinogenesis. 933 21

Gap junctional intercellular communication (GJIC) has been implicated in homeostasis, development, differentiation, wound healing or regeneration and adaptive responses of differentiated cells. The dysfunction of homologous or heterologous GJIC has been associated with the tumorigenic phenotype. Restoration of growth control and the suppression of the tumorigenic phenotype have been previously associated with the up-regulation of GJIC by various anti-tumorigenic chemicals or transfection of connexin genes into tumor cells. To test the hypothesis that 'tumor suppressor' genes may be associated with the up-regulation of GJIC, we tested clones of tumorigenic HeLa, several non-tumorigenic HeLa-normal human fibroblast somatic cell hybrids and a tumorigenic segregant of one of the non-tumorigenic hybrids for GJIC. The parental HeLa cells (D98 AH.2) had no detectable GJIC but expressed detectable connexin 43 transcripts, while the non-tumorigenic HeLa-human fibroblast hybrids, which contained the chromosome 11 from the normal human fibroblast (CGL-1, CGL-2, ESH15 and EHS15c1), expressed ample connexin 43 transcripts and showed proficient GJIC. The tumorigenic segregant (CGL-3) from the non-tumorigenic HeLa-human fibroblast hybrid showed no GJIC or connexin 43. These results show that the presence of GJIC is closely linked to the suppression of the tumorigenic phenotype in the HeLa-human fibroblast hybrid and further suggest that GJIC may be associated with the mechanisms of tumor suppression. The mechanism by which the tumor suppressor gene(s) on the normal chromosome in the HeLa-human fibroblasts induces the up-regulation of connexin 43 is not yet explained.
Carcinogenesis 1998 May
PMID:Restored gap junctional communication in non-tumorigenic HeLa-normal human fibroblast hybrids. 963 59

Second primary cancers represent an important complication of modern chemotherapy and radiotherapy. Therapy-related (tr) leukemias are among the most common second malignancies in both pediatric and adult populations. Whereas a reasonable amount of data is available regarding the epidemiology, molecular pathogenesis, clinical behavior and response to therapy of second primary acute leukemias, very little is known about therapy-related chronic myeloid leukemia (tr-CML). A better characterization of this entity could increase our understanding about the mechanisms of carcinogenesis, specially the induction of specific genetic abnormalities, e.g., BCR-ABL fusion, following chemotherapy and/or radiotherapy exposure, could facilitate the investigation of the kinetics of the development of CML, and also provide a model to study molecular events that might precede its development. Review of 32 tr-CML cases suggests that there are no clinically appreciable differences between tr-CML and de novo CML cases. Analysis of large epidemiological studies that investigated the risk of second primary leukemias has not shown any clear evidence of a higher risk of CML among individuals who underwent treatment for a primary cancer over the general population. The cancer-predisposing syndromes, the detection of BCR-ABL transcripts in healthy individuals, and the induction in vitro of BCR-ABL fusions by ionizing radiation, are all discussed in the context of tr-CML. Finally, the need for a large epidemiological study to specifically assess the risk of developing second primary CML after chemotherapy and/or radiotherapy is stressed.
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PMID:Therapy-related chronic myeloid leukemia: an epidemiological, clinical and pathogenetic appraisal. 963 72

Studies on N-acetoxy-2-acetylaminofluorene (NA-AAF) induced unscheduled DNA synthesis (UDS) of granulopoietic cells were performed in patients with chronic myeloid leukemia (CML). Sequential studies were carried out in some patients. Both biochemical and autoradiographic methods demonstrated that [3H]dT was incorporated into nonreplicating DNA of immature granulopoietic cells after NA-AAF damage and the 2 methods significantly correlated to each other (r = 0.63, n = 19). NA-AAF induced DNA synthesis was lower for myeloblasts than promyelocytes and myelocytes. Biochemically determined NA-AAF induced UDS was higher for immature granulopoietic cells in blood than in marrow. Sequential studies on granulopoietic blood cells suggested that phases of accelerated leukocytosis in CML can be preceded by increases of NA-AAF induced UDS. Whether increases in NA-AAF induced UDS relates to an amplification of repair enzymatic capacity closely correlated to the cellular replication capacity, or whether it reflects an increased sensitivity to DNA damage induction and the consequences thereof, was not resolved in this study. Nevertheless these results are consistent with the hypothesis that increases in NA-AAF induced UDS signal the evolution during chronic phase CML of cell populations of increasing malignancy which escape growth control.
Carcinogenesis 1980 Jul
PMID:N-acetoxy-2-acetylaminofluorene induced unscheduled DNA synthesis of granulopoietic precursor cells in chronic myeloid leukemia. 1121 28

FRAT1 positively regulates the WNT signaling pathway by stabilizing beta-catenin through the association with glycogen synthase kinase-3beta. Here, we have cloned FRAT2 cDNAs, spanning the complete coding sequence, from a human fetal lung cDNA library. FRAT2 encoded 233 amino-acid protein, which showed 77.3% total amino-acid identity with FRAT1. FRAT2 and FRAT1 were more homologous in the acidic domain (96% identity), the proline-rich domain (92% identity), and the GSK-3beta binding domain (100% identity). The FRAT2 gene was mapped to human chromosome 10q24.1. The FRAT2 mRNA of 2.4-kb in size was relatively highly expressed in MKN45 (gastric cancer), HeLa S3 (cervical cancer), and K-562 (chronic myelogenous leukemia). Xenopus axis duplication assay revealed that the wild-type FRAT2 mRNA, but not the mutant FRAT2 mRNA lacking the acidic domain and the proline-rich domain, has the capacity to induce the secondary axis. These results indicate that FRAT2, just like FRAT1, functions as a positive regulator of the WNT signaling pathway. Thus, up-regulation of FRAT2 in human cancer might be implicated in carcinogenesis through activation of the WNT signaling pathway.
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PMID:Molecular cloning and characterization of FRAT2, encoding a positive regulator of the WNT signaling pathway. 1123 32

This paper commemorates the multiple contributions of Dirk Bootsma to human genetics. During a scientific 'Bootsma' cruise on his sailing-boat 'de Losbol', we visit a variety of scenery locations along the lakes and canals in Friesland, passing the highlights of Dirk Bootsma's scientific oeuvre. Departing from 'de Fluessen', his homeport, with his PhD work on the effect of X-rays and UV on cell cycle progression, we head for the pioneering endeavours of his team on mapping genes on human chromosomes by cell hybridization. Next we explore the use of cell hybrids by the Bootsma team culminating in the molecular cloning of one of the first chromosomal breakpoints involved in oncogenesis: the bcr-abl fusion gene responsible for chronic myelocytic leukemia. This seminal achievement enabled later development of new methods for early detection and very promising therapeutic intervention. A series of highlights at the horizon constitute the contributions of his team to the field of DNA repair, beginning with the discovery of genetic heterogeneity in the repair syndrome xeroderma pigmentosum (XP) followed later by the cloning of a large number of human repair genes. This led to the discovery that DNA repair is strongly conserved in evolution rendering knowledge from yeast relevant for mammals and vice versa. In addition, it resolved the molecular basis of several repair syndromes and permitted functional analysis of the encoded proteins. Another milestone is the discovery of the surprising connection between DNA repair and transcription initiation via the dual functional TFIIH complex in collaboration with Jean-Marc Egly et al. in Strasbourg. This provided an explanation for many puzzling clinical features and triggered a novel concept in human genetics: the existence of repair/transcription syndromes. The generation of many mouse mutants carrying defects in repair pathways yielded valuable models for assessing the clinical relevance of DNA repair including carcinogenesis and the identification of a link between DNA damage and premature aging. His team also opened a fascinating area of cell biology with the analysis of repair and transcription in living cells. A final surprising evolutionary twist was the discovery that photolyases designed for the light-dependent repair of UV-induced DNA lesions appeared to be adopted for driving the mammalian biological clock. The latter indicates that it is time to return to 'de Fluessen', where we will consider briefly the merits of Dirk Bootsma for Dutch science in general.
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PMID:From xeroderma pigmentosum to the biological clock contributions of Dirk Bootsma to human genetics. 1134 93

Multistep carcinogenesis is exemplified by chronic myeloid leukemia with clinical manifestation consisting of a chronic phase and blast crisis. Pathological generation of BCR-ABL (breakpoint cluster region-Abelson) results in growth promotion, differentiation, resistance to apoptosis, and defect in DNA repair in targeted blood cells. Domains in BCR and ABL sequences work in concert to elicit a variety of leukemogenic signals including Ras, STAT5 (signal transducer and activator of transcription-5), Myc, cyclin D1, P13 (phosphatidylinositol 3-kinase), RIN1 (Ras interaction/interference), and activation of actin cytoskeleton. However, the mechanism of differentiation of transformed cells is poorly understood. A mutator phenotype of BCR-ABL could explain the transformation to blast crisis. The aim of this review is to integrate molecular and biological information on BCR, ABL, and BCR-ABL and to focus on how signaling from those molecules mirrors the biological phenotypes of chronic myeloid leukemia.
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PMID:Molecular biology of chronic myeloid leukemia. 1134 96

FRAT1 and FRAT2 are cancer-associated genes encoding GSK-3beta-binding proteins. Over-expression of FRAT1 or FRAT2 lead to carcinogenesis through activation of WNT--beta-catenin--TCF signaling pathway. We have previously cloned and characterized FRAT2. Here, we found that FRAT1 and FRAT2 genes were clustered in the human chromosome 10q24.1 region. Blast search revealed that FRAT1 and FRAT2 genes, consisting of a single exon, were located together on human genome draft sequences AC006098.1 and AL355490.7, corresponding to the human chromosome 10q24.1 region. FRAT1 and FRAT2 genes were clustered in a tail to tail manner with an interval of about 10.7 kb. The 2.7-kb FRAT1 mRNA was relatively highly expressed in fetal brain, adult spleen, pancreas, HeLa S3 (cervical cancer), and K-562 (chronic myelogenous leukemia). FRAT1 and FRAT2 were co-expressed in 7 gastric cancer cell lines and 10 cases of primary gastric cancer, and were up-regulated together in gastric cancer cell line TMK1 and 2 cases of primary gastric cancer. These results indicated that FRAT1 and FRAT2 genes were up-regulated together in several cases of human gastric cancer. Up-regulation of FRAT1 and FRAT2 in gastric cancer might lead to carcinogenesis through activation of WNT--beta-catenin--TCF signaling pathway.
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PMID:FRAT1 and FRAT2, clustered in human chromosome 10q24.1 region, are up-regulated in gastric cancer. 1144 44


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