1/53. Ataxia, ocular telangiectasia, chromosome instability, and Langerhans cell histiocytosis in a patient with an unknown breakage syndrome.An 8 year old boy who had Langerhans cell histiocytosis when he was 15 months old showed psychomotor regression from the age of 2 years. microcephaly, severe growth deficiency, and ocular telangiectasia were also evident. Magnetic nuclear resonance imaging showed cerebellar atrophy. Alphafetoprotein was increased. Chromosome instability after x irradiation and rearrangements involving chromosome 7 were found. Molecular study failed to show mutations involving the ataxia-telangiectasia gene. This patient has a clinical picture which is difficult to relate to a known breakage syndrome. Also, the relationship between the clinical phenotype and histiocytosis is unclear.- - - - - - - - - - ranking = 1keywords = breakage, chromosome (Clic here for more details about this article) |
2/53. Diagnosis of ataxia telangiectasia with the glycophorin A somatic mutation assay.There are no widely applied definitive laboratory tests for the diagnosis of ataxia telangiectasia (AT). We, and others, have previously reported significantly elevated levels of in vivo somatic mutation in blood samples from known AT patients, observations that might form the basis for a useful prospective laboratory test for confirmation of a clinical diagnosis of AT. In the present case, a 4 1/2-year-old black female was suspected of having AT based on ataxic gait and chronic upper respiratory infections. blood work-up showed low IgG2 and elevated alpha-fetoprotein (AFP), consistent with the AT phenotype. Her peripheral blood karyotype was normal, however, with no spontaneous breakage observed among 100 solid stained metaphases. Lymphocytes from AT patients often show elevated levels of chromosome rearrangement, especially at sites of immunoglobulin and T-cell receptor genes. Therefore, a blood sample was analyzed with the glycophorin A (GPA) in vivo somatic mutation assay. The GPA assay detects and quantifies the phenotypically variant erythrocytes resulting from loss of heterozygosity for the MN blood group. The patient had a 10-fold increased frequency of variant erythrocytes with a phenotype consistent with simple loss of the N allele, which is characteristic of AT. In addition, the variant cell distribution for this patient showed three other, more qualitative hallmarks of AT: a normal frequency of allele loss and duplication events, a unique ridge of cells of intermediate phenotype between the normal and mutant peaks, and evidence of similar ongoing mutational loss of the M allele. Together with clinical data, these distinctive qualitative and quantitative features of the GPA assay allow for a diagnosis of AT with a projected accuracy of 95%. Therefore, we suggest that the GPA assay, which can be performed on < 1 ml of blood and completed in less than a day, be considered as a confirmatory laboratory test for a clinical diagnosis of AT.- - - - - - - - - - ranking = 0.2keywords = breakage, chromosome (Clic here for more details about this article) |
3/53. High incidence of cancer in a family segregating a mutation of the ATM gene: possible role of ATM heterozygosity in cancer.ATM mutations predispose cells to malignancy by promoting chromosomal instability. We have identified a family with multiple cancers that segregates a mutant allele of ATM, IVS61 2insTA, which causes skipping of exon 61 in the mRNA, as well as a previously undescribed polymorphism, IVS61 104C(54):T(46). The mutation was inherited by two sisters, one who developed breast cancer at age 39 and the second at age 44, from their mother, who developed kidney cancer at age 67. Molecular studies were undertaken to determine the role of the ATM gene in the development of cancer in this family. Studies of irradiated lymphocytes from both sisters revealed elevated numbers of chromatid breaks, typical of A-T heterozygotes. Studies on lymphoblastoid cell lines established from these individuals revealed abnormal p53 induction and apoptosis after dna damage. Loss of heterozygosity (LOH) in the ATM region of chromosome 11q23.1 showed that the normal ATM allele was lost in the breast tumor of the older sister. LOH was not seen at the BRCA1 or BRCA2 loci. BRCA2 is not likely to be a cancer-predisposing gene in this family because each sister inherited different chromosomes 13 from each parent. The sisters share their maternal BRCA1 allele, although no mutation in this gene was detected in the family. Our findings suggest that haploinsufficiency at ATM may promote tumorigenesis, even though LOH at the locus supports a more classic two-hit tumor suppressor gene model.- - - - - - - - - - ranking = 0.0065097069670453keywords = chromosome (Clic here for more details about this article) |
4/53. Ataxia-pancytopenia syndrome.We report on a Mexican girl who developed cerebellar ataxia at age 3 years and pancytopenia at age 13 years. Cerebral computed tomography scan and magnetic resonance imaging showed evidence of severe cerebellar atrophy. Telangiectasias were not present; immunoglobulins and alpha-fetoprotein levels were normal. Cytogenetic studies showed no evidence of spontaneous chromosome aberrations, a normal rate of diepoxybutane (DEB) and mitomycin C (MMC)-induced chromosome aberrations, but an increased response to bleomycin. The phenotype support the diagnosis of ataxia-pancytopenia syndrome, although monosomy of chromosome 7 was not found in bone marrow. The cytogenetic studies suggest that this may be a chromosomal instability disorder.- - - - - - - - - - ranking = 0.0097645604505679keywords = chromosome (Clic here for more details about this article) |
5/53. nijmegen breakage syndrome-associated T-cell-rich B-cell lymphoma: case report.In 1981 Weemaes et al. first described the nijmegen breakage syndrome (NBS), a rare autosomal recessive disorder characterized by stunted growth, microcephaly, immunodeficiency, spontaneous chromosome instability, and a peculiar predisposition to cancer development. Most NBS-related malignancies are lymphomas, but their pathologic features have rarely been specified. We report here the case of a northern Italian 8-year-old child who, 2 years after the diagnosis of NBS, developed a diffuse large B-cell lymphoma (T cell-rich B-cell lymphoma variant). The histological and immunobiological features of the lymphoma population are analyzed and discussed in detail.- - - - - - - - - - ranking = 0.98698058606591keywords = breakage, chromosome (Clic here for more details about this article) |
6/53. Clinical presentation and mutation identification in the NBS1 gene in a boy with nijmegen breakage syndrome.nijmegen breakage syndrome (NBS) is a rare autosomal recessive disorder which belongs to the group of inherited chromosomal instability syndromes. The clinical characteristics include severe microcephaly, a dysmorphic facies, and immunodeficiency with predisposition to malignancies. While the cellular characteristics of ataxia teleangiectasia (AT) and NBS are similar, the clinical findings are quite distinct. NBS patients show characteristic microcephaly, which is rare in association with AT and they do not develop ataxia and teleangiectasia. Recently, the gene mutated in NBS has been identified. Here we report a 5-year-old Bosnian boy with severe microcephaly. Because of multiple structural aberrations involving chromosomes 7 and 14 typical for AT (MIM 208900) and NBS (MIM 251260), AT was diagnosed. We suggested the diagnosis of NBS because of the boy's remarkable microcephaly, his facial appearance, and the absence of ataxia and teleangiectasia. DNA analysis was performed and revealed that the boy is homozygous for the major mutation (657de15) in the NBS1 gene. This finding confirms the diagnosis of NBS in our patient and offers the possibility to perform a most reliable prenatal diagnosis in a further pregnancy.- - - - - - - - - - ranking = 0.98698058606591keywords = breakage, chromosome (Clic here for more details about this article) |
7/53. Four radiation hypersensitivity cases and their implications for clinical radiotherapy.BACKGROUND AND PURPOSE: Over a 20 year period, four out of 2000 paediatric radiotherapy patients, treated at St. Bartholomew's Hospital (three with lymphoma, one with angiosarcoma), have revealed extreme/fatal clinical hypersensitivity in normal tissues. patients AND methods: Cellular hypersensitivity was confirmed in vitro and attributed to the ataxia-telangiectasia (A-T) gene in cases I and II, a newly described defect in the DNA ligase 4 gene in case III, and a novel and as yet incompletely defined, molecular defect in case IV who presented with xeroderma pigmentosum (XP). RESULTS: The severe clinical hypersensitivity preceded the cellular and molecular analysis, but did not manifest as a clinically exaggerated normal tissue reaction until 3 weeks after the start of a conventionally fractionated course of radiotherapy, by which time the latent damage had been inflicted. There were no clinical stigmata to alert the clinician to a predisposing syndrome in two patients (cases I and II). We point out that approximately 20% of A-T patients are classified as variants with delayed expression of clinical symptoms, and case II falls into this category. CONCLUSIONS: As lymphoma (incidence, one in 100000 children) constituted the majority of the diagnoses, questions arise as to: (1), the probability of other centres having experienced and being presented in the future with similar problems (particularly bearing in mind that other oncologically predisposing radiosensitivity syndromes have not been not represented in our experience); and (2), the appropriateness, efficiency and applicability of predictive assays. Unambiguous cellular radiosensitivity would have been apparent from clonal assays on fibroblast cultures from all four cases prior to treatment, but such assays take 4-6 weeks to produce results. While estimates of chromosome damage or clonal assays on pre-treatment blood derived cells would be faster, there is a health economics issue as to the general applicability of such 'screening' assays.- - - - - - - - - - ranking = 0.0032548534835226keywords = chromosome (Clic here for more details about this article) |
8/53. Pigmentary anomalies in ataxia--telangiectasia: a clue to diagnosis and an example of twin spotting.A 6-year-old girl with consanguineous parents presented with a history of progressive ataxia and patchy, segmental pigmentary changes, some reminiscent of Blaschko's lines. There was no evidence of oculocutaneous telangiectases or signs of immunodeficiency. A clinical diagnosis of ataxia--telangiectasia (AT) was suggested and confirmed by the presence of a low serum IgA, raised alpha-fetoprotein and chromosomal rearrangements of chromosomes 7 and 14. This case of AT is unique for having hypopigmentation and hyperpigmented patches adjacent to each other, which is a feature that has been described as 'cutis tricolor', and is unusual for having pigmentary skin changes, some in the lines of Blaschko without telangiectases. Clinicians should be aware that a diagnosis of AT may be made in the absence of telangiectases.- - - - - - - - - - ranking = 0.0032548534835226keywords = chromosome (Clic here for more details about this article) |
9/53. Telomeric associations and chromosome instability in ataxia telangiectasia T cells characterized by TCL1 expression.T-cell tumors in ataxia telangiectasia (AT), such as T-PLL/T-CLL, are first preceded by the development of a large clone of t-lymphocytes, characterized by chromosomal rearrangements, which usually involve specific regions such as the 14q11 region. Malignancy develops years later, after additional chromosomal changes resulting from the genomic instability consequent to ATM disruption and to the activation of the TCL1 oncogene. Here we report the results of a cytogenetic follow-up of an AT patient (AT94-1), still without signs of hematological abnormalities, bearing a T-lymphocyte clone characterized by the t(14;14)(q11;q32) rearrangement and having TCL1 expression. We demonstrated that in clonal cells TCL1 expression correlates with increasing genomic instability and in time this mainly induces chromosomal rearrangements and telomeric associations (tas). Chromosome 21 is not randomly involved; in particular, an i(21q) indicates that it is a subclone prone to additional genetic changes and could represent an early chromosomal rearrangement involved in tumorigenesis. With regard to the increase in tas, we observed that: (i) it is inversely correlated with the proliferative ability of AT94-1 lymphocytes in PHA-stimulated short-term cultures (cell aging in vitro); (ii) this increase is not due to changes either in cell radiosensitivity (measured as bleomycin (BML)-sensitivity) or due to an illegitimate recombination (measured as adriamycin-sensitivity), which may not be sufficient for tumor development.- - - - - - - - - - ranking = 0.013019413934091keywords = chromosome (Clic here for more details about this article) |
10/53. Specific chromosome aberrations in ataxia telangiectasia.Cytogenetic observations on seven cases of ataxia telangiectasia are presented. The aberration frequency was found to be increased in all of them with a specificity for the involvement of the D-group chromosomes in rearrangements. Clones of cytogenetically abnormal cells were observed in the lymphocytes of three cases and in the cultured skin fibroblasts of two cases, again with a specificity for D-group involvement. G-banding shows that chromosome 14 is frequently involved in rearrangements in clone cells and that the band 14q12 may be a highly specific exchange point. The significance of lymphocyte clones with a proliferative advantage in vivo is discussed. Cytogenetic studies of the parents and sibs of these cases are also reported.- - - - - - - - - - ranking = 0.019529120901136keywords = chromosome (Clic here for more details about this article) |
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