CD11c在慢性淋巴细胞白血病诊断中的意义

目的:探讨CD11c抗原在慢性淋巴细胞白血病(chronic lymphocytic leukemia,CLL)中的表达及在临床诊断中的价值,以及CD11c抗原表达与患者的遗传学异常及预后参数的相关性。方法:采用多参数流式细胞术(flow cytometry,FCM)检测200例CLL患者、49例套细胞淋巴瘤(mantle cell lymphoma,MCL)患者CD11c的表达率和平均荧光强度(mean fluorescence intensity,MFI);并比较CLL患者CD11c的表达与预后参数ZAP-70和CD38表达的关系;同时采用荧光原位杂交(fluorescence in situ hybridization,FISH)技术检测CLL患者的P53缺失、13q14缺失、ATM缺失、6q23缺失、+12以及IGH重排,比较CD11c~+CLL患者与CD11c~-CLL患者遗传学特点。结果:CLL患者中CD11c阳性率为49.5%(99/200),MFI中位值为2.06(1.00～7.34);而MCL患者中CD11c阳性率为6.12%(3/49),MFI中位值为2.00(1.97～2.54)。CD11c在CLL中的表达率明显高于MCL,(x~2=30.62,P0.05)。CD11c~+CLL患者的ZAP-70和CD38阳性率均明显高于CD11c~-CLL患者(x~2=15.472,P0.05;x~2=11.556,P0.05),差异有统计学意义。而CLL患者的CD11c表达率与P53缺失、13q14缺失、ATM缺失、6q23缺失、+12、IGH重排的结果均无统计学差异。结论:CD11c对于辅助诊断CLL有重要价值,尤其有助于CLL和MCL的诊断和鉴别诊断。     

喉癌的比较基因组杂交研究

寻找与喉癌发生进展的相关基因,应用比较基因组杂交技术分析了18例喉癌患者。结果显示,每例喉癌细胞染色体均有不同程度的变化,包括染色体全部或部分的扩增或丢失。平均每例有12．9处异常区域,丢失多于扩增,分别为每例7．2处和5．7处。主要为3q(78％,)、5p(61％)、11q(56％)、1q(50％,)、8p(44％)、8q(39％)和15q(39％)的扩增;3p(70％)、5q(78％)、90(67%)、13q(50％)、1p(44％)和14q(39％)的丢失。有多条染色体区带上出现特异的扩增或丢失,特别是1p13-21(8／18)、3p21-23(14／18)、5p21-22(14／18)、9p12-pter(10／18)和13q21-31(8／18)的拷贝数增加明显,而1q11-2l(11／18)、3q15-21(12／18)、8p22-24(6／18)、11q12-13(8／18)、15q21-23(7／18)和18p11(8／18)区域的丢失为喉癌的特征性变化,说明这些区域中存在与喉癌发生发展密切相关的癌基因、抑癌基因或其他相关基因。     

CD56和CD117浆细胞免疫表型与多发性骨髓瘤患者染色体核型和预后的研究

目的:探讨CD56和CD117浆细胞免疫表型与多发性骨髓瘤患者染色体核型和预后的关系。方法:选取2011年1月至2017年3月我院收治的66例多发性骨髓瘤患者,均采用以硼替佐米为基础的VTD化疗方法。采集患者新鲜骨髓液,采用流式细胞术(FCM)和荧光原位杂交技术(FISH)检测浆细胞免疫表型和细胞染色体核型。分析浆细胞免疫表型与患者染色体核型和预后的关系。结果:66例患者浆细胞CD19+、CD20+、CD45+、CD56+、CD117+表达频率分别为7.6%(5/66)、18.2%(12/66)、45.5%(30/66)、66.7%(44/66)和40.9%(27/66)。20例行FISH检测的患者,18例(90.0%)核型异常,其中12例(66.7%)IgH重排,9例(50.0%)1q21+扩增,8例(44.4%)del(13q14.3)缺失,10例(55.6%)del(13q14)缺失,3例(16.7%)del(17p)缺失。CD56+患者1q21+扩增和del(13q14.3)发生率显著低于CD56-患者(27.3%vs 85.7%,18.2%vs 85.7%,P0.05)。CD117+患者1q21+扩增和del(17p)发生率显著低于CD117-患者(12.5%vs 80.0%,12.5%vs 20.0%,P0.05)。CD56+患者的PFS和OS明显延长[23.4(2.0-91.4)月vs 19.8(3.0-85.1)月,34.5(8.9-96.5)月vs 30.1(6.7-84.3)月,P0.05]。CD117+患者PFS和OS明显延长[22.9(1.0-94.3)月vs 20.3(2.0-84.3)月,33.9(7.4-93.5)月vs 31.4(6.7-89.7)月,P0.05]。Kaplan-Meier分析CD56和CD117阳性与阴性患者的PFS曲线和OS曲线存在显著性差异(P0.05)。结论:CD56+和CD117+患者的预后明显优于CD56-和CD117-患者,CD56-和CD117-患者染色体异常核型的发生率明显增加。     

应用荧光原位杂交(FISH)技术研究黑叶猴染色体易位

本文应用染色体荧光原位杂交(FISH)技术,利用人9号和14号染色体特异探针,对深低温冻存和长期传代的黑叶猴细胞株染色体畸变进行了分析.确定在长期冻存和传代过程中,一些黑叶猴细胞在No.12和No.17染色体之间发生了易位,一条 No.17染色体发生断裂,断裂点在17q13,断裂片段17q13-17qter易位到一条 No.12染色体长臂末端,形成一条小的中着丝粒的和一条具较长长臂的衍生染色体即 der(17) 和 der(12).结果表明,荧光原位杂交技术用人染色体特异探针不仅能检测出人类染色体畸变,也能有效地检测灵长类动物染色体畸变.     

CD138免疫磁珠细胞分选的FISH技术在多发性骨髓瘤诊断中的应用

为了分析CD138免疫磁珠细胞分选的染色体荧光原位杂交(FISH)技术在提高多发性骨髓瘤(MM)细胞遗传学异常检测敏感性的作用。本研究选取我院收治的30例确诊MM的患者为研究对象,分离骨髓单个核细胞,应用探针组合,同时采用2种方法进行细胞遗传学检测:实验组采用CD138免疫磁珠分选浆细胞后行荧光原位杂交技术(MACS-FISH)检测;对照组直接荧光原位杂交技术(D-FISH)检测。结果:30例MM患者,实验组采用CD138 MACS-FISH检出率为83.3%,对照组D-FISH法细胞遗传异常检出率为46.7%,两组差异具有统计学意义(p<0.05)。研究结果表明:分析不同类型的细胞遗传异常,MACS-FISH法1q21检出率为46.7%,RB1检出率为50.0%,Ig H检出率为70.0%,P53检出率为20.0%;D-FISH法检出率分别为23.3%,30.0%、36.7%、10.0%。通过细胞核型分析,30例MM患者中,发现5例患者为异常核型,仅为16.7%,其中1例患者为单一结构异常,复杂异常核型患者为4例。我们的研究结论表明:进行CD138免疫磁珠分选浆细胞的FISH技术在多发性骨髓瘤诊断应用中可显著提高细胞遗传学异常检测敏感性,具有临床推广应用的价值。     

荧光原位杂交技术检测骨髓增生异常综合征染色体异常的临床意义

目的:探讨荧光原位杂交(FISH)技术检测骨髓增生异常综合征(MDS)染色体异常的敏感性,特异性及临床意义。方法:采用细胞遗传学分析(CCA)和组合探针CSF1R/D5S23,D5S721(5q33),EGR1/D5S23,D5S721(5q31),D7S486/CSP7(7q31),D7S522/CSP7(7q31),D20S108/CSP8(20q12/CSP8)检测45例MDS患者骨髓细胞的染色体异常,并比较检测结果。结果:两种方法共检出染色体异常26例(58%),染色体数目异常9例,占34.6%;染色体结构异常13例,占50%;复杂核型4例。CCA检出+8和20q-各3例,7q-2例;FISH检出7号染色体异常8例占17.8%(8/45),两组间比较差异有统计学意义(P=0.0441713)。FISH检出+8和20q-各5例,5q-异常4例。7号染色体异常和复杂核型组与核型正常组比较转白率高。结论:组合探针检出MDS中5q-,-7/7q-,+8,20q-核型异常高于CCA,CCA结合FISH技术能提高MDS染色体异常的检出率,对于疾病诊断,判断预后具有重要价值。     

应用荧光原位杂交(FISH)技术研究 黑叶猴染色体易位

本文应用染色体荧光原位杂交(FISH)技术,利用人9号和14号染色体特异探针,对深低温冻存和长期传代的黑叶猴细胞株染色体畸变进行了分析。确定在长期冻存和传代过程中,一些黑叶猴细胞在No.12和No.17染色体之间发生了易位,一条 No.17染色体发生断裂,断裂点在17q13,断裂片段17q13-17qter易位到一条 No.12染色体长臂末端,形成一条小的中着丝粒的和一条具较长长臂的衍生染色体即 der(17) 和 der(12)。结果表明,荧光原位杂交技术用人染色体特异探针不仅能检测出人类染色体畸变,也能有效地检测灵长类动物染色体畸变。 Abstract　In this paper,the chromosome aberration of long-term cryopreserved and subcultured Francois' monkey (Semnopithecus francoisi) cell line(KCB 92008) was analyzed by fluoresence in situ hybridizaton (FISH) using human 9 and 14 chromosome DNA probes. After compared the hybridization pattern with the G-banding pattern on the same metaphase,a translocation between Nos.12 and 17 chromosomes was identified. In some Francois'monkey cells,one of chromosome No.17 was broken into two at the breakpoint 17q13,the segment(17q13-17qter) without centromere transfered to the long arm terminal of one chromosome No.12. Thus,two derivant chromosomes der(12) and der(17) were formed,the long arm of der(12) was longer than the normal partner,while the long arm of der(17) was shorter than the normal one. The result indicated that the technique of FISH using human whole chromosome probes was not only a powerful tool to detect human chromosome rearrangements,but also a usefulmethod to study the primate chromosome aberration.     

新近发现的自然流产夫妇的几种染色体异常

本文对218对自然流产夫妇进行了染色体分析,发现17种异常核型,其中46,XY,t(13;14)(q14;q32)、46,XX,t(11;18)(q25;q21)、46,XY,t(4;10)(q31;q11)、 46,XX,t(15;21)(q24;q11)和46,XY,t(6;16)(p24;q13)为世界首报核型。作者同时报道了7例单个细胞染色体异常病例。对染色体异常与流产的关系进行了讨论。 Abstract:Chontaneous abortions and 17 kinds of abnormal karyotypes were discovered.Among which,five abnormal karyotypes were first reported in the world.They are 46,XY,t (13;14)(q14;q32);46,XX;t(11;18)(q25;q21);46,XY,t (4;10) (q31;q11); 46,XX,t (15;21) (q24;q11) and 46,XY,t (6;16) (p24;q13). The chromosome abnormalitics and spontaneous abortious was discussed.     

一例t(1;5)相互易位并伴inv(12)臂内倒位的报告

人类染色体平衡易位携带者多为表型正常,其最显著的遗传效应是流产及生出染色体异常的子女。我们在男性不孕症的研究中发现一例核型为46,XY,t(1;5)(p12;q31),inv(12)(q15 q2405)的平衡易位携带者并伴一条12号染色体臂内倒位。现报告如下。     

不宁腿综合征遗传学研究进展

不宁腿综合征(Restless legs syndrome, RLS)遗传学研究近年来获得了许多重要的进展, 极大地丰富了对于这种疾病分子机制的认识。RLS是一种常见的复杂疾病, 几个遗传流行病学和双生子研究对RLS遗传组分进行了剖析, 说明RLS是一个遗传性很强的性状, 其遗传力约为50%。采用基于模型的连锁分析方法或者是不依赖于模型的连锁分析方法目前已定位了5个重要的RLS疾病连锁位点: 12q13-23, 14q13-21, 9p24-22, 2q33和20p13, 为定位克隆RLS致病基因或者易感基因提供了连锁图谱。最新基于高通量的SNPs分型平台开展的全基因组分析确立3个与RLS显著关联的区域: 6p21.2, 2p14和15q23。文章结合作者近年来从事不宁腿综合征遗传学的研究工作, 对该领域的重要成果进行了汇总和评述。     

Utility of Interphase FISH Panels for Routine Clinical Cytogenetic Evaluation of Chronic Lymphocytic Leukemia and Multiple Myeloma

Specific genetic abnormalities are of prognostic significance for patients with chronic lymphocytic leukemia (CLL) and multiple myeloma (MM); however, routine cytogenetic analysis usually provides normal results. We utilized two probe panels for interphase fluorescence in situ hybridization (FISH) studies to enhance the ability to detect genetic abnormalities in samples that were referred for routine cytogenetic studies for possible diagnoses of CLL or MM. The CLL panel consisted of probes for 11q22.3 (ATM gene), 13q14 (D13S319), the centromere of chromosome 12 (D12Z3) and 17p13.1 (P53 gene). The MM panel included probes for 14q32 (IgH gene) and/or t(11:14)(q13;q32) (BCL1/IgH), 13q14 (D13S319) and 17p13.1 (P53 gene). FISH detected clonal aberrations not identified by conventional cytogenetics in an additional 8 of 23 (35%) samples referred for possible CLL and 7 of 42 (17%) samples with possible MM. The prognostic significance of the aberrations identified ranged from favorable, to intermediate, to poor. Our studies indicate that many samples referred for routine cytogenetics testing for CLL and MM yield normal results for both conventional and FISH testing, likely due to lack of definitive diagnosis in a percentage of cases. However, FISH is more sensitive for the detection of clinically significant chromosome abnormalities and should be the testing methodology of choice for these disorders.     

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 aberrations in Tunisian patients with multiple myeloma identified by cIg-FISH in fixed bone marrow cells

Cytogenetic studies in multiple myeloma (MM) are hampered by the hypo-proliferative nature of plasma cells. In order to circumvent this problem, we have used a combination of immunolabeling of cytoplasmic Ig light chains (λ or κ) and FISH (cIg-FISH), which allowed a comprehensive detection of the most common and/or recurrent molecular cytogenetic aberrations on fixed bone marrow cells of 70 Tunisian patients. Translocations involving the chromosome 14q32 region were observed in 32 cases (45.7%), including 18 cases with a t(11;14), 8 cases with a t(4;14), and 2 cases with a t(14;16). Deletions of the 13q14 region (D13S319/RB1) were detected in 18.6%, and deletions of the 17p13 region (TP53) in 5.7% of the cases, respectively. Of all patients with a D13S319/RB1 deletion, 61.5% also carried a 14q32 translocation, whereas TP53 deletions were associated with a t(11;14) in 2 cases (50%) and a D13S319 deletion in 1 case (25%). Our results suggest that there is a correlation between the presence of 14q32 translocations and chromosome 13q14 deletions in MM patients and that cIg-FISH is more sensitive as compared to conventional karyotyping in detecting molecular cytogenetic abnormalities in this disease.     

Role of miR-15/16 in CLL

B-cell chronic lymphocytic leukemia (CLL) is the most common adult leukemia. The most common chromosomal abnormalities detectable by cytogenetics include deletion at 13q (55%), 11q (18%), trisomy 12 (12–16%) and 17p (8%). In 2002, we discovered that a microRNA cluster miR-15a/miR-16-1 (miR-15/16) is the target of 13q deletions in CLL. MicroRNAs encoded by the miR-15/16 locus (miR-15 and miR-16) function as tumor suppressors. Expression of these miRNAs downregulated in CLL, melanoma, colorectal cancer, bladder cancer and other solid tumors. miR-15/16 cluster targets multiple oncogenes, including BCL2, Cyclin D1, MCL1 and others. The most important target of miR-15/16 in CLL is arguably BCL2, as BCL2 is overexpressed in almost all CLLs. In this review, we discuss the discovery, functions, clinical relevance and treatment opportunities related to miR-15/16.     

Constitutional and somatic RB1 mutation spectrum in nonfamilial unilateral and bilateral retinoblastoma in India

An epidemiologic survey has indicated a comparatively high prevalence of retinoblastoma (Rb) in Asian countries. Recently, the development of preventive strategies in nonfamilial Rb has become a major goal. The present studies were designed for identification and characterization of constitutional and somatic RB1 gene mutations by conventional cytogenetics, fluorescent in situ hybridization (FISH) and polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP)-DNA sequencing. Of 34 patients 32 were nonfamilial and 2 were familial Rb. Maternal inheritance of del (13q14) was common. FISH was sensitive in detecting monoallelic RB1 deletion/deletion mosaicism as a first genetic hit in 20% of cases. Somatic and germline RB1 point mutations affected exons 3, 17, 20, and 21 and these were identified as novel mutations. Involvement of exon 20 as a predisposing mutation in sporadic unilateral retinoblastoma (URB) probably suggests the susceptibility of exon 20 to unknown etiologic factors in our population. A de novo RB1 deletion along with transmitted RB1 point mutation from an asymptomatic parent was identified as a unique predisposing RB1 mutation chimerism in a URB case that later evolved to bilateral retinoblastoma (BRB). The predisposing mutations such as del (13q), RB1 mono-allelic deletion and RB1 point mutation in sporadic Rb were de novo as well as transmitted mutations from asymptomatic/symptomatic parents. The RB1 mutation incidence was comparatively higher (25%) in nonfamilial Rb with emphasis on high prevalence in sporadic URB (18% versus 0%-9% in the literature series). The present studies demonstrated the efficacy of a multitechnique approach to detect various types of constitutional RB1 mutations such as RB1 deletion, deletion mosaicism, point mutation, mutation chimerism in patients of symptomatic/asymptomatic parents.     

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.     

A Yeast Artificial Chromosome Contig That Spans the RB1-D13S31 Interval on Human Chromosome 13 and Encompasses the Frequently Deleted Region in B-cell Chronic Lymphocytic Leukemia

Abnormalities involving chromosome 13 have been reported as the only cytogenetic change in B-cell chronic lymphocytic leukemia (BCLL). Deletions are the most common cytogenetic abnormality and always involve 13q14, but when translocations are seen, the consistent breakpoint is always in 13q14. It is now established that deletions, distal to the RB1 gene in 13q14, are invariably associated with these translocations. We have recently described the smallest such deletion from a series of rearrangements from these tumors isolated in somatic cell hybrids, which spans approximately 1 Mb. In this report, we present the results of a series of a chromosome walking experiments using YACs and have been able to span this small deletion, which must contain the gene that is frequently deleted in BCLL. Four probes from 13q14 (RBI-mgg15-D13S25-D13S31) were used to isolate corresponding YACs for each of the markers. The chromosomal location of these YACs was verified using FISH, which also demonstrated their nonchimeric nature. Vectorette end rescue was then used to demonstrate the overlap of the YACs and to isolate new clones to complete the contig. The extremes of the contig were shown to cross the chromosome 13 translocation breakpoints isolated in somatic cell hybrids that carry the derivatives of chromosome 13 involved in the smallest BCLL deletion. This YAC contig covers the entire deletion and will prove a valuable resource to begin isolating genes from this region. In addition, we have isolated YACs corresponding to the RB1 locus, which extends the contig over a 3.8-cM distance on the chromosome.     

Down-regulation of miR-199b associated with imatinib drug resistance in 9q34.1 deleted BCR/ABL positive CML patients

Chronic myeloid leukemia (CML) occurs due to t(9,22) (q34;q11) and molecularly BCR/ABL gene fusion. About 15–18% Philadelphia positive CML patients have gene deletions around the translocation breakpoints on 9q34.1. The microRNAs (miRNAs), namely miR-219-2 and miR-199b, centromeric to the ABL1 gene are frequently lost in CML patients. We have designed a study to determine miR-219-2 and miR-199b expression levels which would help to understand the prognosis of imatinib therapy. A total of 150 CML patients were analyzed to identify 9q deletion. Fluorescent in-situ hybridization (FISH) was performed using BCR/ABL dual color, dual fusion probe to study the signal pattern and BAC probes for miR-199b and miR-219-2 (RP11-339B21 and RP11-395P17) to study the miRNA deletions. The expression level of miRNA was analyzed by real-time polymerase chain reaction (RT-PCR). FISH analysis revealed 9q34.1 deletion in 34 (23%) CML patients. The deletions were not detected using BAC probes for miRNAs in 9q deleted patients. The expression analysis showed down-regulation of miR-199b and miR-219-2 in the 9q deleted patients (34 CML) as compared to a pool of patients without deletion. However, miR-199b (9q34.11) was significantly (p = 0.001) down-regulated compared to miR-219-2. The follow-up study showed that the miR-199b was found to be strongly associated with imatinib resistance, as 44.11% patients showed resistance to imatinib therapy. Hence, the deletion in 9q34.1 region (ABL) plays an important role in disease pathogenesis. Eventually, miRNAs can provide new therapeutic strategies and can be used as a prognostic indicator.