Two subsets of human alphoid repetitive DNA show distinct preferential localization in the pericentric regions of chromosomes 13, 18, and 21

Devilee, Peter; Cremer, Thomas; Slagboom, P. Eline; Bakker, Egbert; Schöll, H; Hager, Hans-Dieter; Stevenson, A. F. G.; Cj, Cornelisse; Pearson, P.

doi:10.1159/000132229

Cited by 154 publications

(71 citation statements)

References 12 publications

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“…18 (L1.84). 25 Probe pAE0.68 was labelled with digoxigenin-11-dUTP while all other probes were labelled with biotin-11-dUTP by means of standard nick-translation of complete plasmid DNA, according to the manufacturer's directions (Boehringer Mannheim).…”

Section: Probes For In Situ Hybridisationmentioning

confidence: 99%

True

1999

Leukemia

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Gastric MALT lymphoma is a distinct entity related to Helicobacter pylori gastritis. Some studies suggest a role for trisomy 3 in the genesis of these lymphomas, but they mainly focused on low-grade MALT lymphoma. Gastric MALT lymphoma, however, comprises a spectrum from low-to high-grade cases. Furthermore, its exact relation to primary diffuse large B cell lymphoma (DLBCL) of the stomach is not clear. We applied in situ hybridisation (ISH) with centromeric probes on 43 samples of 39 patients with primary gastric lymphoma (13 samples with low-grade MALT lymphoma, 25 with high-grade MALT lymphoma and five with DLBCL) to detect numerical aberrations of 10 chromosomes. ISH was performed immunohistochemically on nuclei isolated from paraffin-embedded resection tissue and on whole paraffin sections using immunofluorescence. In six of 13 low-grade MALT lymphomas trisomy was detected (46%) and mostly involved chromosome 3 (33%). In high-grade MALT lymphomas, trisomies were found in 16 of 25 cases (64%), mainly involving chromosomes 12 and 18. Trisomy 3 was present in only 13% of these cases. Of five DLBCL, only one showed trisomy. Nine of the 16 aberrant high-grade MALT lymphomas (56%) showed trisomy of more than one chromosome per case vs two of six for low-grade cases. In lymphomas with separate low-and high-grade tumour components some trisomies were detected in both components, whereas others occurred only in the high-grade tumour cells. This supports the hypothesis that high-grade MALT lymphomas can develop from a low-grade type and that this progression is accompanied by the acquisition of more genetic aberrations. However, trisomy 3 probably does not play a major role in this progression.

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Section: Probes For In Situ Hybridisationmentioning

confidence: 99%

True

1999

Leukemia

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“…Evidence is accumulating that the sequence heterogeneity within this family is distributed in a chromosome specific manner, so that each individual chromosome may be characterized by the presence of its own distinct alphoid DNA subfamily (Wolfe et al 1985;JCrgensen et al 1986). Alphoid subfamilies may display a characteristic restriction-site spacing, which would allow their detection in Southern blot experiments (Willard 1985;JCrgensen 1986;Devilee et al 1986b). Clone L1.84 represents such a subfamily on chromosome 18.…”

Section: Discussionmentioning

confidence: 99%

“…Our data indicate that the number of chromosomes 18 present in human interphase nuclei can be reliably detected under these conditions. Evaluation of a small number of cell nuclei is sufficient to discriminate between a normal cell population and a cell population (Devilee et al 1986b). After a further decrease of stringency hybridization signals become apparent over the centromeric heterochromatin of all chromosomes.…”

Section: Discussionmentioning

confidence: 99%

“…While further investigations of the chromosomal distribution of different distinct alphoid subfamilies and their molecular relationships are intriguing with regard to questions of chromosomal evolution in men and monkeys, their use as a diagnostic tool in "interphase cytogenetics" (see below) is limited by the fact that their occurrence seems to be largely restricted to the constitutive human heterochromatin. Furthermore, identical sequences from a given subfamily may likely occur (Mitchell et al 1986;Devilee et al 1986b).…”

Section: Discussionmentioning

confidence: 99%

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Detection of chromosome aberrations in the human interphase nucleus by visualization of specific target DNAs with radioactive and non-radioactive in situ hybridization techniques: diagnosis of trisomy 18 with probe L1.84

Cremer¹,

Landegent

Brückner³

et al. 1986

Hum Genet

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350

134

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Summary. The localization of chromosome 18 in human interphase nuclei is demonstrated by use of radioactive and nonradioactive in situ hybridization techniques with a DNA clone designated L1.84. This clone represents a distinct subpopulation of the repetitive human alphoid DNA family, located in the centric region of chromosome 18. Under stringent hybridization conditions hybridization of L1.84 is restricted to chromosome 18 and reflects the number of these chromosomes present in the nuclei, namely, two in normal diploid human cells and three in nuclei from cells with trisomy 18. Under conditions of low stringency, cross-hybridization with other subpopulations of the alphoid DNA family occurs in the centromeric regions of the whole chromosome complement, and numerous hybridization sites are detected over interphase nuclei. Detection of chromosome-specific target DNAs by non-radioactive in situ hybridization with appropriate DNA probes cloned from individual chromosomal subregions presents a rapid means of identifying directly numerical or even structural chromosome aberrations in the interphase nucleus. Present limitations and future applications of interphase cytogenetics are discussed.

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“…This is because of selective isolation and preferential in vitro growth of nonmalignant prostate epitheliumY The use of interphase cytogenetic techniques for characterization of uncultured PC material has been stimulated by these findings. Application of in situ hybridization with centromere-specific DNA probes to fixed sections of PC has shown numerical aberrations for chromosomes 1,7,8,10,12,17,18, X, and y4~7 The finding of numerical aberrations in different chromosomes is not surprising because about 50% of the PCs have an aneuploid DNA content. 8 In the present study, the authors investigated numerical changes of chromosomes 1,7,8,10,18, and Y using fluorescence in situ hybridization (FISH) with centromere-specific DNA probes on nuclear suspensions of fresh tissue samples from 11 benign prostatic hyperplasia (BPH) and 43 PC patients.…”

mentioning

confidence: 99%

Gain and loss of chromosomes 1, 7, 8, 10, 18, and Y in 46 prostate cancers

et al. 1996

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By cytogenetic analysis, structural and numerical aberrations of chromosomes 1, 7, 8, 10, 16, and Y~ were identified in about 25% of the prostate carcinomas (PCs) studied. However, this figure is probably an underestimation of the true extent of the aberrations. This is because of selective isolation and preferential in vitro growth of nonmalignant prostate epitheliumY The use of interphase cytogenetic techniques for characterization of uncultured PC material has been stimulated by these findings. Application of in situ hybridization with centromere-specific DNA probes to fixed sections of PC has shown numerical aberrations for chromosomes 1,7,8,10,12,17,18, X, and y4~7 The finding of numerical aberrations in different chromosomes is not surprising because about 50% of the PCs have an aneuploid DNA content. 8 In the present study, the authors investigated numerical changes of chromosomes 1,7,8,10,18, and Y using fluorescence in situ hybridization (FISH) with centromere-specific DNA probes on nuclear suspensions of fresh tissue samples from 11 benign prostatic hyperplasia (BPH) and 43 PC patients. Selection of this chromosome panel was based on evidence from the literature and previous studies 9-a2 that these chromosomes were possibly implicated in PC development or progression. Study of recurring patterns of specific chromosomal aberrations might provide new information about the genetic events involved in these processes.The BPH specimens showed no deviation fromFrom the

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Two subsets of human alphoid repetitive DNA show distinct preferential localization in the pericentric regions of chromosomes 13, 18, and 21

Cited by 154 publications

References 12 publications

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Detection of chromosome aberrations in the human interphase nucleus by visualization of specific target DNAs with radioactive and non-radioactive in situ hybridization techniques: diagnosis of trisomy 18 with probe L1.84

Gain and loss of chromosomes 1, 7, 8, 10, 18, and Y in 46 prostate cancers

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