Mosaiktrisomie 8p11.21q11.21 als Pr?disposition für myeloische Leuk?mien

Juvenile myelomonocytic leukemia (JMML) is a unique myeloproliferative disorder of early childhood in which mutations in NRAS, KRAS, PTPN11, NF1 and CBL are frequently found. Using high-resolution oligo array-based comparative genomic hybridization (aCGH), 20 JMML samples were investigated for submicroscopic genomic copy number alterations. Besides known cytogenetic aberrations, ten samples displayed additional submicroscopic alterations. Interestingly, an almost identical gain of chromosome 8 was identified in two patients. Subsequently, fluorescence in situ hybridization indicated a constitutional partial trisomy 8 mosaic (cT8M) in both patients. A survey on 27 cT8M patients with reported malignancies showed a predominance of myeloid malignancies including JMML. Our results dramatically reduce the critical region on chromosome 8 to 8p11.21q11.21. To determine how constitutional partial trisomy 8 mosaicisms may contribute to leukemogenesis in different mutational subtypes of JMML and other myeloid malignancies, further investigations are required.     

Investigations on karyotype evolution in patients with chronic myeloid leukemia (CML)

In an attempt to relate karyotype evolution to clinical and hematological data serial chromosomal analyses were performed in 31 patients with chronic myeloid leukemia (CML), both in chronic and acute phases. Our results in Philadelphia chromosome (Ph1)-positive CML are in line with karyotype profiles described in the literature. In addition, we report on chromosomal findings in 4 cases of Ph1-negative disease, one presenting with an iso17q chromosome in the positive CML. The same chromosomal abnormality was observed in a small population of Ph1-negative cells present in one of two patients with mixed Ph1-positive/Ph1-negative CML. The first case of a female patient with the loss of a sex chromosome in Ph1-positive cells is reported. Two patients with unusually long and mild chronic phases despite the presence of trisomy 8 in their karyotypes are described. Our findings suggest that the order of appearance of additional chromosomal changes of CML is of prognostic significance for the progression and the clinical picture of the disease.     

Detection of trisomy 8 in hematological disorders by in situ hybridization

An alphoid repetitive DNA (D8Z2) probe specific for the pericentromeric region of chromosome 8 was used to detect extra copies of chromosome 8 in bone marrow cells obtained from 10 patients with hematological disorders and five controls. Numerical aberrations of chromosome 8 were established by conventional banding techniques. Trisomy 8 was found in four patients with myelodysplastic syndrome (MDS) and three with acute myeloid leukemia (AML). Three additional patients with MDS exhibited an extra chromosome 8 in only one metaphase. In five of the seven trisomy cases, the presence of the trisomy 8 clone was confirmed by in situ hybridization (ISH). In one case of AML with trisomy 8, detected by GTG-banding, no significant numbers of cells containing three spots were found using the alphoid repetitive probe; however, hybridization with a chromosome 8-specific library revealed that the alleged extra chromosome 8 was a translocation chromosome containing only the long arm of chromosome 8. Due to a lack of material, it was not possible to achieve optimal ISH results on the trisomy 8 bone marrow cells of patient 7. In the three MDS patients with a single trisomy 8 metaphase, a slight, albeit significant, increase of trisomy 8 interphase cells was found with ISH. We conclude that this probe is useful for cytogenetic studies. Moreover, ISH, in general, is a powerful tool for precise classification of chromosomal aberrations and can also contribute significantly to the clinical evaluation of patients with hematological disorders.     

Prognostic significance of chromosome analysis in de novo acute myeloid leukemia (AML)

Between 1981 and 1986 cytogenetic studies of bone marrow and/or blood cells in 139 patients with de novo acute myeloid leukemia (AML) were performed. The overall incidence of chromosomal aberrations was 53%, and this was not significantly influenced by sex, age nor the FAB classification. The aberrations most often found were: complex anomalies (n = 13), t(8; 21) (n = 10), trisomy 8 (n = 9), monosomy 7 (n = 6), monosomy 5, 5q-, trisomy 11, 12p- (n = 4) and trisomy 6, 11q-, inv (n = 3). The prognostic significance of chromosomal findings was evaluated in 112 patients treated by combination chemotherapy. The chromosomal status NN, AN, AA did neither significantly influence complete remission rate (NN: 68%, AN: 71%, AA: 60%) nor mean survival (NN: 24, AN: 26.6, AA: 35.6 months). On the other hand, certain types of chromosomal anomalies were of prognostic value. CR was obtained in all 10 patients with t(8; 21) but only in 2 out of 9 patients with complex aberrations. Median duration of CR in patients with t(8; 21) was significantly longer than in patients with a normal karyotype (30 vs 7 months).     

Phenotypic and molecular characterization of partial trisomy 2q resulting from insertion-duplication in chromosome 18q: a case report and review of literature

Trisomy 2q is a well-documented chromosomal anomaly with considerable variation in the phenotype depending upon the breakpoints and the co-existing chromosomal aberrations. The case of a dysmorphic male infant found to have trisomy of the 2q31.1-q37.3 segment, resulting from insertion-duplication of this segment in chromosome 18q23 is reported here. The rearrangement was resolved in detail by cytogenetic microarray and whole chromosome paint-based fluorescence in situ hybridization studies. There is some overlap of the phenotypic features in the reported patient with those described in previously reported cases with partial trisomy 2q. A detailed review of the available literature on 2q trisomy has also been presented and delineation of the phenotypic characteristics common to all patients with 2q trisomy has been attempted.     

Atypical D-FISH patterns of BCR/ABL gene rearrangements in 169 chronic myeloid leukemia patients

The Philadelphia (Ph) chromosome, a hallmark chromosomal anomaly observed in 95 percent of chronic myeloid leukemia (CML) cases, is known to involve the Abelson (ABL) proto-oncogene on chromosome 9 and the breakpoint cluster region (BCR) gene on chromosome 22, producing BCR/ABL mRNA encoding an abnormal tyrosine kinase protein. In the process of generating BCR-ABL fusion, the deletion of residual BCR or ABL occurs in 15-30 percent of CML patients. In addition, some rearrangements are complex, and do not yield the ABL/BCR fusion due to the involvement of a third chromosome in the rearrangement. The possible role of these deletions and complex rearrangements in disease outcome is an ongoing topic of research. We report our results of cytogenetic analysis with GTG banding and fluorescence in situ hybridization using dual color dual fusion probe (D-FISH) from Vysis Inc, USA in 169 (109 male and 60 female) CML patients registered at The Gujarat Cancer and Research Institute (GC and RI) from April 2004 to December 2005. GTG banding was carried out in 123 cases having analyzable metaphases. Of these 123 cases, D-FISH revealed atypical signal patterns in 57 patients (46%), and 12 cases revealed additional complex translocations indicative of disease progression. Out of 57 cases with atypical FISH patterns, 22 included metaphase FISH results, and the rest had only interphase FISH performed. In addition to the hallmark Philadelphia chromosome, other chromosomal aberrations in CML revealed heterogeneity of molecular events. Pooling of more data may lead to identification of new CML sub-groups and hence help in the analysis of clinical trials. Patients enrolled in our prospective study of prognostic significance will be followed up for disease free and overall survival in correlation with ABL-BCR deletion status.     

Image cytometry-based detection of aneuploidy by fluorescence in situ hybridization in suspension

Cytogenetic abnormalities are important diagnostic and prognostic criteria for hematologic malignancies. Karyotyping and fluorescence in situ hybridization (FISH) are the conventional methods by which these abnormalities are detected. The sensitivity of these microscopy-based methods is limited by the abundance of the abnormal cells in the samples and therefore these analyses are commonly not applicable to minimal residual disease (MRD) stages. A flow cytometry-based imaging approach was developed to detect chromosomal abnormalities following FISH in suspension (FISH-IS), which enables the automated analysis of several log-magnitude higher number of cells compared with the microscopy-based approaches. This study demonstrates the applicability of FISH-IS for detecting numerical chromosome aberrations, establishes accuracy, and sensitivity of detection compared with conventional FISH, and feasibility to study procured clinical samples of acute myeloid leukemia (AML). Male and female healthy donor peripheral blood mononuclear cells hybridized with combinations of chromosome enumeration probes (CEP) 8, X, and Y served as models for disomy, monosomy, and trisomy. The sensitivity of detection of monosomies and trisomies amongst 20,000 analyzed cells was determined to be 1% with a high level of precision. A high correlation (R(2) = 0.99) with conventional FISH analysis was found based on the parallel analysis of diagnostic samples procured from 10 AML patients with trisomy 8 (+8). Additionally, FISH-IS analysis of samples procured at the time of clinical remission demonstrated the presence of residual +8 cells indicating that this approach may be used to detect MRD and associated chromosomal defects. ? 2012 International Society for Advancement of Cytometry.     

A new recurring chromosome 13 abnormality in two older patients with de novo acute myeloid leukemia: An Indian experience

We report here two cases of trisomy 13 in acute myeloid leukemia M1 subtype. short-term unstimulated bone marrow and peripheral blood lymphocyte culture showed 47, XY, +13 in all metaphase plates and trisomy 13 was confirmed with whole chromosome paint probes. Trisomy 13 in AML-M1 is a rare numerical abnormality. This is the first Indian report of sole trisomy 13 in AML-M1. Here, we present two cases of elder male patients, which may constitute a distinct subtype.     

Prognostic significance of additional chromosomal abnormalities in Ph positive bone marrow cells in chronic myeloid leukemia

We studied the prognostic significance of combination of different chromosomal abnormalities and genomic mutations in Ph+ chronic myeloid leukemia patients. In general 49 cytogenetic analyses of bone marrow aspirate from 35 patients (11 of these observed in dynamics) have been carried out. The additional chromosome changes were found in 25.07% cases and approximately 80% of anomalies appeared in the blast phase. Among the secondary chromosomal abnormalities extra Ph-chromosome appeared mostly in different combinations with trisomy of chromosomes 8 and 19. Appearance of clonal differences of cells, high rate of genome mutations and of microchromosomes had negative prognostic significance on disease proceeding.     

Are cells with trisomy 10 always malignant in hematopoietic disorders?

Two patients with acute myeloid leukemia (AML-M7 and AML-M4) and trisomy 10 as the sole chromosome abnormality are reported. In the first patient, all karyotypes were abnormal. A karyotypically normal cell population was present in the second patient and the trisomic cells were less numerous than the normal ones at diagnosis. A review of the literature shows the rarity of isolated trisomy 10 in hematopoietic disorders and the diversity of the involved diseases. Moreover, in some patients, the trisomic cell population was less numerous than the normal one. These data are discussed in relation with the hypothesis that cells with trisomy 10 can belong to nonmalignant clones, at least in some cases, as previously shown for trisomy 7 in other conditions.     

Trisomy 8, a Cytogenetic Abnormality in Myelodysplastic Syndromes,Is Constitutional or Not?

Isolated trisomy 8 is not considered presumptive evidence of myelodysplastic syndrome (MDS) in cases without minimal morphological criteria. One reason given is that trisomy 8 (+8) can be found as a constitutional mosaicism (cT8M). We tried to clarify the incidence of cT8M in myeloid neoplasms, specifically in MDS, and the diagnostic value of isolated +8 in MDS. Twenty-two MDS and 10 other myeloid neoplasms carrying +8 were studied. Trisomy 8 was determined in peripheral blood by conventional cytogenetics (CC) and on granulocytes, CD3+ lymphocytes and oral mucosa cells by fluorescence in situ hybridization (FISH). In peripheral blood CC, +8 was seen in 4/32 patients. By FISH, only one patient with chronic myelomonocytic leukemia showed +8 in all cell samples and was interpreted as a cT8M. In our series +8 was acquired in all MDS. Probably, once discarded cT8M by FISH from CD3+ lymphocytes and non-hematological cells, +8 should be considered with enough evidence to MDS.     

DNA profiling by arrayCGH in acute myeloid leukemia and myelodysplastic syndromes

Acute myeloid leukemia (AML) and myelodysplastic syndromes (MDS) represent two distinct but related myeloid haematological neoplasms. At diagnosis, a substantial proportion of cases show cytogenetic and molecular genetic markers whose range of specificity is highly variable. Most specific reciprocal translocations, as t(8;21)(q21;q21) or t(15;17)(q22;q21), have been extensively studied and are currently introduced in clinical diagnosis. Two other major groups remain to be better characterized at the genetic and genomic level: cases with normal karyotype and cases with complex aberrations. Comparative genomic hybridization (CGH) performed on chromosomes was the first approach taken and nearly 300 cases studied by this technique have already been reported. Array based CGH has also been applied to a smaller number of cases. Both types of genomic studies have confirmed that recurrent genomic losses and gains can almost exclusively be found in cases with complex karyotype. In most cases with normal karyotype (as well as in others with single chromosome aberrations as trisomy 8), arrayCGH has been able to unveil small DNA copy number changes whose recurrence is very low. Recently, single- nucleotide-polymorphism based arrays have been used in AML showing that loss of heterozygosity (LOH) is a common feature in normal karyotype leukemia.     

Genetic features of B-cell chronic lymphocytic leukemia

The genetic features of B-cell chronic lymphocytic leukemia (CLL) are currently being reassessed by molecular cytogenetic techniques such as fluorescence in situ hybridization (FISH). Conventional cytogenetic studies by chromosome banding are difficult in CLL mainly because of the low in vitro mitotic activity of the tumor cells, which leads to poor quantity and quality of metaphase spreads. Molecular genetic analyses are limited because candidate genes are known for only a few chromosomal aberrations that are observed in CLL. FISH was found to be a powerful tool for the genetic analysis of CLL as it overcomes both the low mitotic activity of the CLL cells and the lack of suitable candidate genes for analysis. Using FISH, the detection of chromosomal aberrations can be performed at the single cell level in both dividing and non-dividing cells, thus circumventing the need of metaphase preparations from tumor cells. Probes for the detection of trisomies, deletions and translocation breakpoints can be applied to the regions of interest with the growing number of clones available from genome-wide libraries. Using the interphase cytogenetic FISH approach with a disease specific set of probes, chromosome aberrations can be found in more than 80% of CLL cases. The most frequently observed abnormalities are losses of chromosomal material, with deletions in band 13q14 being the most common, followed by deletions in 11q22-q23, deletions in 17p13 and deletions in 6q21. The most common gains of chromosomal material are trisomies 12q, 8q and 3q. Translocation breakpoints, in particular involving the immunoglobulin heavy chain locus at 14q32, which are frequently observed in other types of non-Hodgkin's lymphoma, are rare events in CLL. Genes affected by common chromosome aberrations in CLL appear to be p53 in cases with 17p deletion and ataxia telangiectasia mutated (ATM), which is mutated in a subset of cases with 11q22-q23 aberrations. However, for the other frequently affected genomic regions, the search for candidate genes is ongoing. In parallel, the accurate evaluation of the incidence of chromosome aberrations in CLL by FISH allows the correlation of genetic abnormalities with clinical disease manifestations and outcome. In particular, 17p abnormalities and deletions in 11q22-q23 have already been shown to be among the most important independent prognostic factors identifying subgroups of patients with rapid disease progression and short survival. In addition, deletion 17p has been associated with resistance to treatment with purine analogs. Therefore, genetic abnormalities may allow a risk assessment for individual patients at the time of diagnosis, thus giving the opportunity for a risk-adapted management.     

Contribution of magnetic resonance imaging to the knowledge of CNS malformations related to chromosomal aberrations

Summary Twelve patients presenting with various clinicopathological syndromes related to chromosomal diseases have been evaluated using magnetic resonance imaging. They include patients with trisomy 21, trisomy 18, trisomy 13, 4p-syndrome, 5p-syndrome, and 7p-syndrome. In all these patients karyotype studies were performed demonstrating the chromosomal aberrations. All patients were examined using magnetic resonance imaging to evaluate the head and neck malformations which may be specifically associated with their chromosomal anomaly. We were particularly interested in brain abnormalities and the morphological findings correlated with some pathologic anatomical findings. A review of the literature on neuropathological data is reported and compared with the in vivo anatomical results obtained using this highly anatomical non-ionising and non-invasive investigative procedure. Particular interest is paid to trisomy 21 in which all recognizable stereotyped morphological skull and brain malformations are depicted with magnetic resonance and some other malformations demonstrated such as the excessive forward bending and ascension of the brainstem which correlated well with a simian cephalic organization.     

Complex cytogenetic abnormalities in a patient with chronic myeloid leukemia: a case report

A case of multiple chromosome aberrations in a patient with CML (chronic myeloid leukemia) in the accelerated phase was described. Cytogenetic and molecular genetic studies revealed the presence of a t(9; 22)(q34; q11) translocation and some additional abnormalities such as t(1; 2)(p36; p21), del(6)(q21), +del(8)(q22), del(18)(q21), and +der(22), part of which is not typical for this kind of pathology. The correlation between the obtained data and the data presented in different publications is considered. A probable connection of the detected changes with previously received treatment and a possible effect of these changes on CML progression are discussed.     

Relationship between chromosomal changes complexity and disease aggressiveness in myeloid and lymphoid disorders

In this paper are presented four cases, with unusual chromosomal abnormalities, identified at the first presentation, among over 100 patients with myeloid and lymphoid acute and chronic leukemias cytogenetically investigated. The complexity and nature of cytogenetic abnormalities was in direct relationship with the disease evolution. The first case, a 22 years old man with acute lymphoblastic leukemia type L3, exhibited many structural changes in bone marrow cells with diploid number of chromosomes: del(3)(q26); del (5)(p13); t(8;14) (q24;q32); del(9)(p11q11);inv(15)(p12qter). The second case, a 62 years old woman, diagnosed as poorly differentiated acute leukemia, refractory to treatment, showed hiperdiploidy (48–54 chromosomes) and 3–4 markers derived from chromosomes 5 and 12. The third case, a young man of 27 years old, diagnosed as acute myeloid leukemia, apart of Philadelphia chromosome, presented trisomy 16, both in diploid and aneuploid cells. None of these three patients did respond to any medical therapy. Their rapid death was a powerful proof of the correlation between the complexity of genome changes and disease aggressiveness. In the fourth case, a constitutional translocation t(3;5)(q26.3;q21) identified in a 72 years old woman with essential thrombocythemia, appeared not to be involved in the etiology of the disease. In this case, the treatment with hydroxyurea was successful and the disease evolution was favourable. In conclusion, we appreciate that in the three cases of myeloid and lymphoid leukemias it was a direct relationship between the complexity of genomic changes and the aggressiveness of the disease.     

Current status of chromosomal abnormalities in mouse embryonic stem cell lines used in Japan

We performed chromosomal analysis on 540 mouse embryonic stem (ES) cell lines obtained during 2001 to 2004 from 20 institutions in Japan. Overall, 66.5% of the ES cell lines showed normal chromosomal numbers, but 15.9%, 9.1%, and 2.8% showed modal chromosomal numbers of 41, 42, and 39, respectively. When we karyotyped 88 ES cell lines selected arbitrarily from the 540 lines, 53 (60.2%) showed normal diploid karyotypes; the sex chromosome constitution of 52 lines was XY, with the remaining 1 being XX. Among 35 ES cell lines showing abnormal karyotypes, trisomy of chromosome 8 (41, XY, +8) was dominant (51.4%), 14.3% had trisomy 8 with loss of one sex chromosome (40, XO, +8), and 11.4% had trisomy 8 together with trisomy 11 (42, XY, +8, +11). Karyotypic abnormalities including trisomy 8 and trisomy 11 occurred in 88.6% and 17.1% of ES cell lines, respectively. The XO sex chromosome constitution was observed in 25.7% of all abnormal ES cell lines. Of the 88 selected ES cell lines, 60 lines were established from strain 129 animals, 17 from F1 progeny of C57BL/6J x CBA (called TT2 in this study), and 11 from C57BL/6J mice. Normal diploid karyotypes were observed in 58.3% of lines derived from 129, 58.8% of those from TT2, and 72.7% of C57BL/6J. The relatively high incidence of abnormalities in chromosomal number and karyotype in ES cell lines used in Japan suggests the importance of chromosomal analysis of ES cells for successful establishment of new animal models through germline transmission.     

Clinical,enzyme, and cytogenetic investigations in three new cases of trisomy 8p

Summary Three new cases of partial trisomy of the chromosome 8 short arm are reported. The observations confirm and extend certain clinical, enzyme, and chromosomal data in this type of chromosomal anomaly.Supported by grants of I.N.S.E.R.M. (ATP 78.79-110)Research associate at the C.N.R.S.     

Complex Patterns of Chromosome 11 Aberrations in Myeloid Malignancies Target CBL,MLL, DDB1 and LMO2

Exome sequencing of primary tumors identifies complex somatic mutation patterns. Assignment of relevance of individual somatic mutations is difficult and poses the next challenge for interpretation of next generation sequencing data. Here we present an approach how exome sequencing in combination with SNP microarray data may identify targets of chromosomal aberrations in myeloid malignancies. The rationale of this approach is that hotspots of chromosomal aberrations might also harbor point mutations in the target genes of deletions, gains or uniparental disomies (UPDs). Chromosome 11 is a frequent target of lesions in myeloid malignancies. Therefore, we studied chromosome 11 in a total of 813 samples from 773 individual patients with different myeloid malignancies by SNP microarrays and complemented the data with exome sequencing in selected cases exhibiting chromosome 11 defects. We found gains, losses and UPDs of chromosome 11 in 52 of the 813 samples (6.4%). Chromosome 11q UPDs frequently associated with mutations of CBL. In one patient the 11qUPD amplified somatic mutations in both CBL and the DNA repair gene DDB1. A duplication within MLL exon 3 was detected in another patient with 11qUPD. We identified several common deleted regions (CDR) on chromosome 11. One of the CDRs associated with de novo acute myeloid leukemia (P=0.013). One patient with a deletion at the LMO2 locus harbored an additional point mutation on the other allele indicating that LMO2 might be a tumor suppressor frequently targeted by 11p deletions. Our chromosome-centered analysis indicates that chromosome 11 contains a number of tumor suppressor genes and that the role of this chromosome in myeloid malignancies is more complex than previously recognized.     

Cytogenetic findings in chronic myelogenous leukemia

Cytogenetic findings in chronic myeloic leukemia are represented in a survey. More than 90 per cent of CML are characterized by Ph1 chromosomes, with more than 90 per cent of the cases being involved in a translocation (9; 22). Further, non-incidental aberrations are +Ph1, isochromosome (17q) and +8 which particularly develop at the acute stage. Isochromosome 17q is assumed to be a marker for a straightly impending development of a blast crisis. Ph1-negative CML is connected with a comparatively bad prognosis for the patient. Partial trisomy 9q+ is indicated here as a marker chromosome. For the patient concerned congenital chromosome defects, such as the Down-syndrome, represent a higher risk of being affected with leukemia.