16种罕见的人类染色体异常核型报告

通过对患有闭经、自发流产、死胎、死产等患者外周血淋巴细胞染色体检查,发现16种新的罕见人类染色体异常核型,它们是46,XY,t(6;11)(q25;p15);46,XY,inv(3)(p25;q29);46,XY,t(7;18)(q10;p10);46,X,t(X;13)(q24;q14);46,XY,t(4;7)(q33;q22);46,XY,t(8;15)(q24;q15);46,XY,t(2;17)(q33;q25);46,XX,t(4;7)(q34;q11);46,XX,t(1;3)(p36;p23);46,XX,t(4;6)(q35;p11);46,X,inv(X)(q22;q28);46,XX,t(7;10)(p11;q26);46,XX,t(3;6)(p21;q23);46,XX,t(8;16)(p21;p13);46,XX,t(8;9)(q21;q34);46,XY,t(17;22)(q21;q11)。描述了患者的临床表现,并对生殖异常患者染色体畸变与其表型效应关系进行探讨。Abstract：By examining the lymphocytic chromosomes of peripheral blood from patients with amenorrhea,spontaneous abortion and stillbirth history, .the 16 rare species of human chromosomal abnormal karyotypes were discovered. They wre 46,XY,t(6;11)(q25;p15);46,XY,inv(3)(p25;q29);46,XY,t(7;18)(q10;p10);46,X,t(X;13)(q24;q14);46,XY,t(4;7)(q33;q22);46,XY,t(8;15)(q24;q15);46,XY,t(2;17)(q33;q25);46,XX,t(4;7)(q34;q11);46,XX,t(1;3)(p36;p23);46,XX,t(4;6)(q35;p11);46,X,inv(X)(q22;q28);46,XX,t(7;10)(p11;q26);46,XX,t(3;6)(p21;q23);46,XX,t(8;16)(p21;p13);46,XX,t(8;9)(q21;q34);46,XY,t(17;22)(q21;q11). Their clinical situation were described. Discussion on the relationship between the chromosomal aberrations and phenotype effect indicates the importance of chromosome karyotyping in patients with abnormal reproductive history.     

Expression of aphidicolin, FUdR and caffeine‐induced fragile sites in lymphocytes of healthy Turkish individuals

The expression of common fragile sites (c‐fra) and frequency of chromosomal aberrations were studied in peripheral lymphocytes of 50 healthy Turkish individuals (26 males and 24 females from 1 to 87 years of age) after induction with aphidicolin (APC), 5′‐fluorodeoxyuridine (FUdR), and caffeine. A correlation was seen between age and the frequency of chromosomal aberrations in APC and caffeine treated cultures, but there were no significant differences in the frequencies of chromosomal aberrations between males and females in any of the treatments. The mean frequency of aberrations induced by FUdR was significantly higher than that induced by APC and caffeine. A chromosome aberration is defined as a fragile site when present in 1% of the cells analyzed from each culture and in at least 50% of the individuals studied. Using these criteria, 12 c‐fra were observed in the three treatments: 1p21, 1q21, 2p11‐q11, 3p14, 4q31, 6q26, 7q22, 7q32, 8q24, 11q23, 16q23, and Xp22. Sites 3p14, 16q23, and Xp22 were the most frequently observed c‐fra, with only the frequency of Xp22 being significantly increased in females in APC treated cultures. The results of these studies are important as a base against which the effects of other clastogenic and environmental agents, as well as genetic background, can be compared. This revised version was published online in July 2006 with corrections to the Cover Date.     

Chromosomal fragile sites in schizophrenic patients

Schizophrenia is a common and complex mental disorder. Cytogenetic and molecular studies have shown that genetic factors play an important role in the etiology of schizophrenia. As a preliminary step in the search for chromosomal location of a susceptible gene predisposing to schizophrenia, cytogenetic screening patients might be useful. Therefore, this report is aimed at studying the relationship between chromosomal fragile sites (FS: gaps, breaks, triradial figures, and several rearrangements) and the etiology of schizophrenia. Because of this, we were compared the frequencies of folate-sensitive FS from schizophrenic patients and normal individuals in short-term whole blood cultures. The rate of FS expression in the patients was considerably higher than in the controls. We determined 15 common FS (cFS) (1q21, 1q32, 2q21, 2q31, 3p14, 4q31, 5q31, 6q21, 6q26, 7q22, 7q32, 10q22, 13q32, Xp22 and Xq22), 6 rare FS (rFS) (6p21, 8q22, 11q23, 12q24, 16q22, and Xq26) and 2 previously unknown FS (3p25 and 5q22). Among these expressed FS, there was a significantly higher frequency of 12 FS at 2q31, 3p25, 3p14, 5q31, 6q21, 7q22, 7q32, 10q22, 11q23, 12q24, Xq22 and Xq26 in patient group than in controls by chi2 test (P = between 0.0001 to 0.036). Sites 3p14, 5q31 and 7q22 were also the most frequently observed cFS. Males exhibited twice as many FS as females, but no age effects were observed. The potential relationship between increased FS frequency and the occurrence of schizophrenia in these patients is discussed.     

Genomic imbalances in esophageal squamous cell carcinoma identified by molecular cytogenetic techniques

This review summarizes the chromosomal changes detected by molecular cytogenetic approaches in esophageal squamous cell carcinoma (ESCC), the ninth most common malignancy in the world. Whole genome analyses of ESCC cell lines and tumors indicated that the most frequent genomic gains occurred at 1, 2q, 3q, 5p, 6p, 7, 8q, 9q, 11q, 12p, 14q, 15q, 16, 17, 18p, 19q, 20q, 22q and X, with focal amplifications at 1q32, 2p16-22, 3q25-28, 5p13-15.3, 7p12-22, 7q21-22, 8q23-24.2, 9q34, 10q21, 11p11.2, 11q13, 13q32, 14q13-14, 14q21, 14q31-32, 15q22-26, 17p11.2, 18p11.2-11.3 and 20p11.2. Recurrent losses involved 3p, 4, 5q, 6q, 7q, 8p, 9, 10p, 12p, 13, 14p, 15p, 18, 19p, 20, 22, Xp and Y. Gains at 5p and 7q, and deletions at 4p, 9p, and 11q were significant prognostic factors for patients with ESCC. Gains at 6p and 20p, and losses at 10p and 10q were the most significant imbalances, both in primary carcinoma and in metastases, which suggested that these regions may harbor oncogenes and tumor suppressor genes. Gains at 12p and losses at 3p may be associated with poor relapse-free survival. The clinical applicability of these changes as markers for the diagnosis and prognosis of ESCC, or as molecular targets for personalized therapy should be evaluated.     

9种新的人类染色体异常核型报告

发现９种新的人类染色体异常核型,分别为：４６,ＸＸ,ｔ（２;１０）（ｑ３３;ｑ１１）;４６,ＸＹ,ｔ（１０;１２）（ｑ２６;ｑ２２）;４６,ＸＹ,ｔ（６;１５）（ｐ２３;ｑ２３）;４６,ＸＹ,ｔ（１;６）（ｐ３６;ｑ２１）;４６,ＸＹ,ｔ（１;１９）（ｐ３２;ｐ１３）;４６,ＸＹ,ｔ（１６;１８）（ｑ２２;ｑ２１）;４６,ＸＹ,ｉｎｖ（１）（ｐ３６ｑ２５）;４６,ＸＹ,ｔ（１３;１７）（ｑ１２;ｑ２５）;４６,ＸＹ,ｔ（１５;２１）（ｑ２６;ｑ１１）。异常核型是导致自然流产和不育的原因。     

Genome-wide examination of chromosomal aberrations in neuroblastoma SH-SY5Y cells by array-based comparative genomic hybridization

Most neuroblastoma cells have chromosomal aberrations such as gains, losses, amplifications and deletions of DNA. Conventional approaches like fluorescence in situ hybridization (FISH) or metaphase comparative genomic hybridization (CGH) can detect chromosomal aberrations, but their resolution is low. In this study we used array-based comparative genomic hybridization to identify the chromosomal aberrations in human neuroblastoma SH-SY5Y cells. The DNA microarray consisting of 4000 bacterial artificial chromosome (BAC) clones was able to detect chromosomal regions with aberrations. The SH-SY5Y cells showed chromosomal gains in 1q12 approximately q44 (Chr1:142188905-246084832), 7 (over the whole chromosome), 2p25.3 approximately p16.3 (Chr2:18179-47899074), and 17q 21.32 approximately q25.3 (Chr17:42153031-78607159), while chromosomal losses detected were the distal deletion of 1p36.33 (Chr1:552910-563807), 14q21.1 approximately q21.3 (Chr14:37666271- 47282550), and 22q13.1 approximately q13.2 (Chr22:36885764-4190 7123). Except for the gain in 17q21 and the loss in 1p36, the other regions of gain or loss in SH-SY5Y cells were newly identified.     

Chromosomal fragile sites in schizophrenic patients

Schizophrenia is a common and complex mental disorder. Cytogenetic and molecular studies have shown that genetic factors play an important role in the etiology of schizophrenia. As a preliminary step in the search for chromosomal location of a susceptible gene predisposing to schizophrenia, cytogenetic screening of patients might be useful. Therefore, this report is aimed at studying the relationship between chromosomal fragile sites (FS) (gaps, breaks, triradial figures, and several rearrangements) and the etiology of schizophrenia. Because of this, we compared the frequencies of folate-sensitive FS from schizophrenic patients and normal individuals in short-term whole-blood cultures. The rate of FS expression in the patients was considerably higher than in the controls. We determined 15 common FS (cFS) (1q21, 1q32, 2q21, 2q31, 3p14, 4q31, 5q31, 6q21, 6q26, 7q22, 7q32, 10q22, 13q32, Xp22, and Xq22), six rare FS (rFS) (6p21, 8q22, 11q23, 12q24, 16q22, and Xq26), and two previously unknown FS (3p25 and 5q22). Among these expressed FS, there was a significantly higher frequency of 12 FS at 2q31, 3p25, 3p14, 5q31, 6q21, 7q22, 7q32, 10q22, 11q23, 12q24, Xq22, and Xq26 in patient group than in controls by x ²-test (P between 0.0001 to 0.036). Sites 3p14, 5q31, and 7q22 were also the most frequently observed cFS. Males exhibited twice as many FS as females, but no age effects were observed. The potential relationship between increased FS frequency and the occurrence of schizophrenia in these patients is discussed. The text was submitted by the authors in English.     

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.     

Molecular cytogenetic analysis of follicular lymphoma (FL) provides detailed characterization of chromosomal instability associated with the t(14;18)(q32;q21) positive and negative subsets and histologic progression

We analyzed a cohort of 61 follicular lymphomas (FL) with an abnormal G-banded karyotype by spectral karyotyping (SKY) to better define the chromosome instability associated with the t(14;18)(q32;q21) positive and negative subsets of FL and histologic grade. In more than 70% of the patients, SKY provided additional cytogenetic information and up to 40% of the structural abnormalities were revised. The six most frequent breakpoints in both SKY and G-banding analyses were 14q32, 18q21, 3q27, 1q11-q21, 6q11-q15 and 1p36 (15-77%). SKY detected nine additional sites (1p11-p13, 2p11-p13, 6q21, 8q24, 6q21, 9p13, 10q22-q24, 12q11-q13 and 17q11-q21) at an incidence of >10%. In addition to the known recurring translocations, t(14;18)(q32;q21) [70%], t(3;14)(q27;q32) [10%], t(1;14)(q21;q32) [5%] and t(8;14)(q24;q32) [2%] and their variants, 125 non-IG gene translocations were identified of which four were recurrent within this series. In contrast to G-banding analysis, SKY revealed a greater degree of karyotypic instability in the t(14;18) (q32;q21) negative subset compared to the t(14;18)(q32;q21) positive subset. Translocations of 3q27 and gains of chromosome 1 were significantly more frequent in the former subset. SKY also allowed a better definition of chromosomal imbalances, thus 37% of the deletions detected by G-banding were shown to be unbalanced translocations leading to gain of genetic material. The majority of recurring (>10%) imbalances were detected at a greater (2-3 fold) incidence by SKY and several regions were narrowed down, notably at gain 2p13-p21, 2q11-q21, 2q31-q37, 12q12-q15, 17q21-q25 and 18q21. Chromosomal abnormalities among the different histologic grades were consistent with an evolution from low to high grade disease and breaks at 6q11-q15 and 8q24 and gain of 7/7q and 8/8q associated significantly with histologic progression. This study also indicates that in addition to gains and losses, non-IG gene translocations involving 1p11-p13, 1p36, 1q11-q21, 8q24, 9p13, and 17q11-q21 play an important role in the histologic progression of FL with t(14;18)(q32;q21) and t(3q27).     

Chromosomal imbalances are associated with metastasis-free survival in breast cancer patients.

Multiple chromosomal imbalances have been identified in breast cancer using comparative genomic hybridization (CGH). Their association with the primary tumors' potential for building distant metastases is unknown. In this study we have investigated 39 invasive breast carcinomas with a mean follow-up period of 99 months (max. 193 months) by CGH to determine the prognostic value of chromosomal gains and losses.The mean number of chromosomal imbalances per tumor was 6.5+/-0.7 (range 2 to 18). The most frequent alterations identified in more than 1/3 of cases were gains on chromosomes 11q13, 12q24, 16, 17, and 20q, and losses on 2q and 13q. A significantly different frequency of chromosomal aberrations (p相似文献   

Clinical significance of cytogenetic aberrations in bone marrow of patients with diffuse large B-cell lymphoma: prognostic significance and relevance to histologic involvement

Background

Although knowledge of the genetics of diffuse large B-cell lymphoma (DLBCL) has been increasing, little is known about the characteristics and prognostic significance of cytogenetic abnormalities and the clinical utility of cytogenetic studies performed on bone marrow (BM) specimens. To investigate the significance of isolated cytogenetic aberrations in the absence of histologic BM involvement, we assessed the implication of cytogenetic staging and prognostic stratification by a retrospective multicenter analysis of newly diagnosed DLBCL patients.

Methods

We analyzed cytogenetic and clinical data from 1585 DLBCL patients whose BM aspirates had been subjected to conventional karyotyping for staging. If available, interphase fluorescence in situ hybridization (FISH) data were also collected from patients.

Results

Histologic BM involvement were found in 259/1585 (16.3%) patients and chromosomal abnormalities were detected in 192 (12.1%) patients (54 patients with single abnormalities and 138 patients with 2 or more abnormalities). Isolated cytogenetic aberrations (2 or more abnormalities) without histologic involvement were found in 21 patients (1.3%). Two or more cytogenetic abnormalities were associated with inferior overall survival (OS) compared with a normal karyotype or single abnormality in both patients with histologic BM involvement (5-year OS, 22.0% vs. 52.7%; P < 0.001) and those without BM involvement (31.8% vs. 66.5%; P < 0.001). This result demonstrated that BM cytogenetic results have a significant prognostic impact that is independent of BM histology. The following abnormalities were most frequently observed: rearrangements involving 14q32, 19q13, 19p13, 1p, 3q27, and 8q24; del(6q); dup(1q); and trisomy 18. In univariate analysis, several specific abnormalities including abnormalities at 16q22-q24, 6p21-p25, 12q22-q24, and -17 were associated with poor prognosis. Multivariate analyses performed for patients who had either chromosomal abnormalities or histologic BM involvement, revealed IPI high risk, ≥ 2 cytogenetic abnormalities, and several specific chromosomal abnormalities, including abnormalities at 19p13, 12q22-q24, 8q24, and 19q13 were significantly associated with a worse prognosis.

Conclusions

We suggest that isolated cytogenetic aberrations can be regarded as BM involvement and cytogenetic evaluation of BM improves staging accuracy along with prognostic information for DLBCL patients.

     

High-resolution oligonucleotide array-CGH pinpoints genes involved in cryptic losses in chronic lymphocytic leukemia

Although recurrent chromosomal alterations occur in chronic lymphocytic leukemia (CLL), relatively few affected tumor suppressors and oncogenes have been implicated. To improve genetic characterization of CLL, we performed high-resolution gene copy number analysis of 20 CLL patients using oligonucleotide array comparative genomic hybridization (aCGH). The most recurrent losses were observed in 13q and 11q with variable sizes. The 11q losses varied between 7.44 Mb and 41.72 Mb in size and targeted ATM among others. Lost regions in 13q were generally smaller, spanning from 0.79 Mb to 29.33 Mb. The minimal common region (158 kb) in 13q14.3, which was also homozygously deleted in some cases, harbored five genes: TRIM13, KCNRG, DLEU2, DLEU1, and FAM10A4. Additionally, two micro-RNA genes (MIRN15A and MIRN16-1) locate to the region. New cryptic losses were detected in 1q23.2-->q23.3, 3p21.31, 16pter-->p13.3, 17p13.3-->p13.2, 17q25.3-->qter, and 22q11.22. In conclusion, our oligonucleotide aCGH study revealed novel aberrations and provided detailed genomic profiles of the altered regions.     

Genotypic and Phenotypic Differences between Nodal and Extranodal Diffuse Large B-Cell Lymphomas

Diffuse large B-cell lymphoma (DLBCL) is a heterogeneous group of diseases that have diverse clinical, pathological, and biological features. Here, it is shown that primary nodal and extranodal DLBCLs differ genomically and phenotypically. Using conventional comparative genomic hybridization (CGH), the authors assessed the chromosomal aberrations in 18 nodal, 13 extranodal, and 5 mixed DLBCLs. The results demonstrate significantly distinct chromosomal aberrations exemplified by gains of chromosomal arms 1p, 7p, 12q24.21-12q24.31, and 22q and chromosome X and loss of chromosome 4, 6q, and 18q22.3-23 in extranodal compared with nodal DLBCLs. Nodal DLBCLs showed an increased tendency for 18q amplification and BCL2 protein overexpression compared with extranodal and mixed tumors. Using a panel of five antibodies against GCET1, MUM1, CD10, BCL6, and FOXP1 proteins to subclassify DLBCLs according to the recent Choi algorithm, the authors showed that the genomic profiles observed between the nodal and extranodal DLBCLs were not due to the different proportions of GCB vs ABC in the two groups. Further delineation of these genomic differences was illuminated by the use of high-resolution 21K BAC array CGH performed on 12 independent new cases of extranodal DLBCL. The authors demonstrated for the first time a novel genome and proteome-based signatures that may differentiate the two lymphoma types.     

Spectral karyotyping of the human colon cancer cell lines SW480 and SW620

The cell lines SW480 and SW620, derived from different stages of colon carcinoma in the same patient, have been used for a number of biochemical, immunological, and genetic studies on colon cancer. A comparative analysis of their karyotypes may identify chromosomal aberrations that might represent markers for metastatic spread. In the present study spectral karyotyping (SKY) was applied to these two colon cancer cell lines. Compared to previously reported G-banded karyotypes, 9 (SW480) and 7 (SW620) markers were identical, 3 (SW480) and 3 (SW620) markers could be redefined, 5 (SW480) and 8 (SW620) markers were newly identified, and 4 (SW480) and 5 (SW620) of the previous described markers could not be confirmed. The redefined aberrations include very complex rearrangements, such as a der(16) t(3;16;1;16;8;16; 1;16;10) and a der(18)t(18;15;17)(q12; p11p13;??) in SW620 and a der(19)t(19;8;19;5) in SW480, that have not been identified by conventional banding techniques. The resulting chromosome gains (5q11-->5q15, 7pter-->q22, 11, 13q14-->qter, 20pter-->p12, X) and losses (8pter-->p2, 18q12-->qter, Y) found in both SW480 and SW620 were in good agreement with those frequently described in colorectal tumors as primary changes in the stem cell. Abnormalities found exclusively in SW620 cells only (gains of 5pter-->5q11, 12q12-->q23, 15p13-->p11, and 16q21-->q24 and losses of 2pter-->2p24, 4q28-->qter, and 6q25-->qter) can be viewed as changes that occurred in a putative metastatic founder cell.     

Preferential loss of 5q14-21 in intestinal-type gastric cancer with DNA aneuploidy

BACKGROUND: Little is known about the genetic changes associated with DNA ploidy in gastric cancer (GC). The aim of this study was to identify recurrent or specific chromosomal regions of DNA sequence copy number aberrations (DSCNAs) that might harbor genes associated with DNA aneuploidy in GC. METHODS: We analyzed DSCNAs with comparative genomic hybridization and DNA ploidy by laser scanning cytometry in 16 primary intestinal-type GCs. RESULTS: All GCs examined showed at least one DSCNA (loss or gain); eight were DNA diploid (DD) tumors and eight were DNA aneuploid (DA) tumors. The frequent (>30%) DSCNAs were loss of 5q14-21 and gains of 7p11-14, 8q, 20q, and Xq25-26. Recurrent amplifications (>10%) were detected at chromosomal regions 6p, 7p, and 13q. The overall number of DSCNAs was significantly greater in DA than in DD tumors (P = 0.006). Furthermore, the number of aberrations was clearly greater with 5q loss than without 5q loss (P = 0.002). Losses of 5q14-21, 9p21-pter, 16q, and 18q21-qter were preferentially detected in DA tumors. CONCLUSION: The present observations indicate that there is a close relationship between DSCNA and DNA ploidy in intestinal-type GC and that gene(s) at 5q14-21, 9p21-pter, 16q, and/or 18q21-qter may play important roles in acquisition of DNA aneuploidy.     

Cytogenetics of neuroblastoma: a study using fine needle aspiration cultures.

Neuroblastoma is associated with chromosomal aberrations of 1p and 1q in a majority of cases. Some nonrandom secondary changes were observed in this study. The role of these changes in the development and progression of neuroblastoma is examined. Chromosomal analysis was performed on 33 children with neuroblastoma using fine needle aspiration cultures. Metaphases were observed in 57.5% of cases. 86.6% showed the involvement of chromosome 1. Double minutes and unidentifiable markers was also observed. The most frequent secondary changes included add(4)(q35), add(11)(p13), add(14)(q32), add(16)(q12). add(17)(p13), add(19)(q12) and add(21)(q22). Minority of cases showed deletions and translocations. Ploidy pattern ranged from diploid to hypotetraploid. The present study substantiates aberration of chromosome 1 in the form of deletions, additions, duplications and iso-chromosome with some notable secondary abnormalities.     

Pericentric inversions in man: personal experience and review of the literature

Summary The Leuven cytogenetic centre experience on pericentric inversion in man is discussed with exclusion of the pericentric inversions of the heterochromatic blocks of chromosomes 1 and 9. In a total of 51,500 patients, referred for constitutional chromosome analysis during the period 1970–1985, pericentric inversions were found in 24 index patients. The breakpoints detected in these different pericentric inversions are summarized and compared to those found in previous reports. Bands 2p13, 2q21, 5q31, 6c21, 10q22, and 12q13 were shown to be repeatedly involved in the different studies and, furthermore, breakpoints at bands 2q11, 5p13, 5p15, 5q13, 7q11, 11q25, and 14p11 were present in this study as well as in our previous review on reciprocal autosomal translocations. In 13 familial pericentric inversions, even after exclusion of all inversion carrier probands, a 1.6:1 excess of pericentric inversion carriers versus karyotypically normal progeny was observed. While chromosomally unbalanced offspring represent 3.5% of all chromosomally investigated liveborns of the present study, 7.1% of all liveborn inversion carrier offspring presented with a mental retardation and/or multiple congenital anomalies (MR/MCA) problem. Additional chromosomal abnormalities, i.e. a 21 trisomy and an accessory small ring chromosome were observed in two pericentric inversion carriers. These data and results are discussed and compared to the data available in the literature.     

荧光原位杂交技术在慢性淋巴细胞白血病遗传学异常检测中的应用

目的:分析在荧光原位杂交技术慢性淋巴细胞白血病遗传学异常检测中的应用,并分析相关指标在评价患者预后中的应用。方法:对我院收治的45例初诊CLL患者采用荧光原位杂交技术进行特异性探针D13S25(13q14.3)、RB1(13q14)、p53(17p13)、ATM(11q22.3)、以及CSP12(12号染色体3体)染色体标本检测,分析CLL患者遗传学异常的发生率。采用实时定量PCR检测miR-15a和miR-16-1与CLL患者遗传学异常的相关性。结果:45例CLL初诊患者中,荧光原位检测发现CLL遗传学异常37例,CLL遗传学异常率82.22%。其中d(13q14.3)遗传异常13例,d(13q14)遗传异常7例,d(11q22-23)遗传异常6例,d(17p13)遗传异常5例,12号染色体三体异常6例,遗传学异常多呈异质性。实时定量PCR检测发现miR-15a和miR-16-1与d(13q14)遗传异常显著相关。结论:荧光原位杂交技术是一种检测CLL遗传学异常的快速、灵敏方法,可以提高CLL遗传异常检出率。miR-15a和miR-16-1可以预测d(13q14)遗传异常CLL患者预后。     

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.     

Analyses by comparative genomic hybridization of genes relating with cisplatin-resistance in ovarian cancer

Cisplatin has played a key-role in the management of ovarian cancer patients. Since the mechanisms of cisplatin-resistance have been reported to be multifactorial, it is quite difficult to predict effectiveness of cisplatin-based chemotherapy. In the present study, we have screened abnormal chromosomal regions in cisplatin-resistant and paclitaxel-resistant human ovarian cancer cell lines using comparative genomic hybridization (CGH). Increased copy number at 6q21-25 and decreased copy number at 7q21-36 and 10q12-15 were observed in the cisplatin-resistant cell line. Increased copy number at 7q11.2-21 was observed in paclitaxel-resistant cell lines. Messenger RNA of MDR1 located on chromosomal region of 7q11.2-21 was overexpressed in the paclitaxel-resistant cell lines and recognized as a potential mechanism of acquired paclitaxel-resistance. In CGH analyses of 28 primary epithelial ovarian cancer patients, gains of 1q21-22 (p = 0.0183) and 13q12-14 (p = 0.0407) were observed in significantly high abundance in the cisplatin-resistant tumor group, compared with the cisplatin-sensitive tumor group. These genetic alterations were suggested to be potential indicators for drug resistance.