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)

Xeroderma pigmentosum (XP), Fanconi anaemia (FA), ataxia telangiectasia (AT) and Bloom disease (BS) are four rare autosomal recessive disorders in which there is defective DNA repair and/or chromosome instability and proneness to malignancy. Between 80 and 90% of patients with XP have a defect, demonstrable at cell level, of excision of DNA lesions induced by ultraviolet rays, while the remainder have a cellular error of post-replication repair. XP cells are also deficient in repairing DNA damage caused by a variety of chemical mutagens. There are at least five different complementation groups of the first, or classical, type of XP (A to D, etc.) Apparently group C patients, as well as those with defective post-replication repair, do not show the progressive neurological illness found in a proportion of the other patients. AT is heterogeneous clinically and genetically. Clinically it presents with a progressive neurological illness, progressive telangiectases and a developmental disorder of the thymus. AT is characterized by sensitivity to X-rays and AT cells are unable to repair gamma-ray-induced damage to bases in the DNA. It appears that in many cases of the disorder a chromosomally marked cellular clone is found. In BS the main defect, which results in growth retardation, sun-induced lesions of the face and susceptibility to infection, appears to be a slow DNA chain maturation during DNA synthesis. An increase of sister chromatid exchanges is characteristically seen in the chromosomes of cultured BS cells. In FA, in which there is progressive pancytopenia with eventual bone marrow exhaustion and a tendency to haemorrhage and infection, the cellular defect seems to consist of faulty removal of repair of cross-links in the DNA. In this condition, as in BS and AT, various structural chromosome changes are detected in cultured cells. Patients with XP develop skin cancers in early life and often maligant melanomas. In the other three disorders, in which an immune deficiency is often present, leukaemia and related proliferative disorders are a frequent cause of death while other malignancies also occur. There is some evidence that points to an increased risk of malignancy in heterozygotes who carry the FA and AT genes.
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PMID:DNA repair defects and chromosome instability disorders. 25 77

A 5 1/2-year-old child with Bloom's syndrome developed acute lymphocytic leukemia (ALL). Bloom's syndrome is associated with chromosomal aberrations, and affected individuals have an increased incidence of leukemia and solid tumors. The skin on our patient had adjacent areas of decreased and increased pigmentation similar to the "twin-spots" seen in Drosophila. "Twin-spots" are the manifestation of somatic cell DNA recombination and provide evidence that clones of cells in Bloom's syndrome have become homozygous for a particular gene. Somatic cell recombination is proposed as a mechanism to explain the increased incidence of neoplasia in Bloom's syndrome and supports the hypothesis that cancer may be a recessive disorder at the cellular level.
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PMID:Leukemia in a black child with Bloom's syndrome: somatic recombination as a possible mechanism for neoplasia. 29 69

Two brothers developed acute leukemia, one at the age of 7 months and the other at the age of 14 months. Both suffered from a staturoponderal retardation and the same malformation syndrome. The karyotype carried out only on the second child revealed breaks and chromatid changes. A diagnosis of Fanconi's anaemia can be discarbed since no blood cytopenia preceded the leukemia. Finally, the diagnosis of Bloom's syndrome prevailed despite the absence of telangiectatic erythema and the atypical chromosomal anomalies.
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PMID:[Bloom's syndrome. Discussion of the diagnosis concerning two cases of terminal leukemia in a sibship (author's transl)]. 59 25

Among 2966 acute leukemia, 26 familial cases were reported. Leukemia occured mainly in the first relative individuals and particularly in the sibship. The relative risk for a sib of leukemic patient is four time more than for random people. Leukemia was often similar among patients of the same family and the onsets of the disease occured approximatly at the same age whatever the time between the dates of diagnosis. Twins with leukemia were often monozygotous. Relative risk of leukemia among twins, decreases according to the age: the probability of leukemia for a twin is: (a) 100 p. cent if the other twin is leukemic before 1 year old; (b) 15 p. cent between 1 to 4 years old and (c) similar to other sib after 4 years old. Among chronic leukemias, only chronic lymphocytic leukemia seems to have a genetic background for susceptibility. Some familial diseases (congenital aplastic anemia, Bloom's disease, Ataxia telangiectasia) or congenital diseases (Down's syndrome) increase the risk of leukemia.
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PMID:[Familial leukemia (author's transl)]. 66 77

Since 1988 the number of growth hormone (GH)-treated patients has markedly increased worldwide. To date, leukemia has been observed in 31 patients during or following GH therapy and related malignancies in 2 further patients. Leukemia occurred in 10 patients in Japan, 10 in the USA, and 10 in Europe, and in 1 patient in Canada. In 29 patients GH therapy had been started in 1975 or later. The onset of leukemia was 1984 or later in 28 patients with a mean time between the start of GH therapy and leukemia onset of 5.0 (0.2-18.8) years. Patients had received both pituitary and recombinant GH in moderate doses. In 15 patients definite additional leukemia risk was evident: Fanconi anemia in 2, myelodysplastic syndrome in 1, Bloom's syndrome in 1, radiation for brain tumor (+chemotherapy) in 9, chemotherapy in 2. The leukemic patients without a strong additional risk do not represent a definitely higher leukemia incidence worldwide, except for Japan where the occurrence is higher than expected.
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PMID:Leukemia in growth-hormone-treated patients: an update, 1992. 129 14

Ten patients with Bloom's syndrome observed in Germany during the last 20 years are described. They were born between 1964 and 1986. Seven are alive at the age of 8 to 27 years. Three have died at the age of 5 years (acute leukemia), 18 years (pulmonary fibrosis and bronchiectasis), and 21 years (Hodgkin lymphoma and subsequently leukemia). All show the characteristic clinical and cellular phenotype. In addition to the known early occurrence of malignancies, certain behavioral patterns, the occurrence of hyper- and hypopigmented areas in the skin, pulmonary manifestations, and exquisite sensitivity to chemotherapy and probably also to radiotherapy are emphasized. The potential usefulness of bone marrow preservation for later use in autologous transplantation has not yet been determined. Several features of Bloom's syndrome can be understood on the basis of a genetically determined high rate of somatic recombination.
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PMID:Bloom's syndrome: the German experience. 180 25

"Congenital telangiectatic erythema" (Bloom's syndrome) is very rare; it is linked to a group of hereditary diseases and a common feature is cellular hypersensitivity to a variety of physical or chemical agents. The mode of transmission is autosomal-recessive. Characteristic criteria for Bloom syndrome are: consanguinity of the parents; androtropia; low birth weight, short stature (proportional); and persistent telangiectatic erythema in sun-exposed areas, sometimes with blistering. The syndrome is also associated with a facultative lack of antibodies. Of great importance is the high leukaemia morbidity among individuals with this syndrome; chromosomal aberrations and breakages play a significant role. Histological changes comprise an increase in dilated vessels in the upper dermis and damage and loss of elastic fibers. We give a review of Bloom's syndrome and present a case report.
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PMID:[Congenital telangiectatic erythema (Bloom syndrome)]. 304 5

Bloom's syndrome is one of the congenital disorders known to have increased frequency of acute leukaemia. The complex cytogenetic findings in the leukaemic cells of a 39-year-old male with Bloom's syndrome are described. These included a translocation t(7;17), missing 7q and 17p, a reciprocal translocation t(4;22); del 3q, del 8q22, del 20q, missing 12 and missing Y. In the same patient a missing Y had been noted 10 years previously in 15% of his peripheral blood lymphocytes.
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PMID:Non-random chromosomal aberrations in a complex leukaemic clone of a Bloom's syndrome patient. 319 21

A possible causal association between chromosome structural change and neoplastic transformation has long been mooted, particularly since chromosomal changes occur frequently in the cells of a variety of malignancies. Only in recent years, however, has the evidence in support of this contention begun to appear convincing, and this has followed from the application of developments in cytogenetic techniques. The advent of methods for revealing specific bands in the human metaphase complement has enabled all the chromosomes and many chromosomal regions to be unambiguously identified, and the recent application of prophase banding methods gives further improvements in resolution. With these techniques, specific constitutional chromosomal deletions or translocations have been discovered in inherited cases of retinoblastoma (del.13q14), Wilms' tumour with aniridia (del.11p13) and renal-cell carcinoma (t(3:8) (p21:q24)), in which each of the chromosomal changes appears to be a dominant factor in inheriting a predisposition to a tissue-specific tumour. A heritability for cancer predisposition is also associated with the inherited chromosomal instability syndromes of Bloom's, Fanconi's anaemia and ataxia telangiectasia, although specific chromosomal changes have not been reported to be associated with the neoplasms in such individuals, except in some cases of lymphoma and leukaemia in ataxia telangiectasia. Specific chromosomal translocations have, however, been recorded in a variety of malignancies, with a particular involvement of chromosomes 22, 14, 8, 15, 17 and 21. However, although many hundreds of patients with the specific 9/22 rearrangement seen in chronic myeloid leukaemia and also those with the 14/8 rearrangement in Burkitt's, and other, lymphomas have been described, no single case in which these rearrangements were present as constitutional changes has been reported. The possible nature of the changes seen at the cytogenetic level in terms of gene content of the chromosomes involved is discussed.
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PMID:Cytogenetics of heritability in cancer. 629 35

The present study describes the establishment of both B- and T-cell lines from the peripheral blood cells of two Bloom's syndrome (BS) patients and one healthy female by using Epstein-Barr (EBV) and adult T-cell leukemia viruses (ATLV). The cell lines from normal and BS subjects exhibited cell surface markers compatible with B- and T-cell origin; in addition, the BS B- and T-cell lines retained the original cytogenetic characteristics of the syndrome. Even though phytohemagglutinin-stimulated BS lymphocytes from the two BS patients studied all showed high levels of sister chromatid exchange (SCE), the established BS B-lines with EBV yielded two separate lines each, i.e., one with increased SCE and another with normal levels of SCE; also, one of the BS T-lines retained high SCE levels in 100% of the cells, whereas the other BS T-line contained two populations, one with high SCE (70%) and the other with normal SCE levels (30%), at a relatively constant frequency over a period of 6 months. Neither EBV nor ATLV caused a significant increase in chromosome instability in the established lines compared to fresh lymphocytes. Reinfection of the BS B- and T-cell lines with EBV or ATLV did not alter the SCE or karyotypes. These results strongly suggest that BS patients have two populations in vivo, one with high and another with normal levels of SCE, at least in the lymphoid cell system.
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PMID:Dimorphism of sister chromatid exchange in Bloom's syndrome B- and T-cell lines transformed with Epstein-Barr and adult T-cell leukemia viruses. 630 96

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