R.J. Sinke

Overrepresentation of chromosome 12p sequences and karyotypic evolution in i(12p)-negative testicular germ-cell tumors revealed by fluorescence in situ hybridization

Human testicular germ-cell tumors (TGCTs) comprise a heterogeneous group of solid neoplasms. These tumors are characterized by the presence of a highly specific chromosomal abnormality, i.e., an isochromosome of the short arm of chromosome 12. At present, this i(12p) chromosome is found in more than 80% of TGCTs. Isochromosome 12p has also been observed in some ovarian and extragonadal germ cell tumors. In the remaining so-called i(12p)-negative TGCTs other abnormalities involving chromosome 12, mainly 12p, can be found. In order to establish whether 12p abnormalities other than i(12p) are a common phenomenon in TGCTs, a panel of 11 i(12p)-negative tumors was investigated using multicolor fluorescence in situ hybridization. All TGCTs examined appeared to contain chromosomal abnormalities involving 12p, resulting in a distinct overrepresentation of short arm sequences. In addition, indications were obtained for a clonal evolution in one of the tumors. Our data suggest that the occurrence of 12p abnormalities is a common phenomenon in i(12p)-negative TGCTs and that these abnormalities, analogous to i(12p), may contribute to the process of tumor development.

Pooled genome-wide linkage data on 424 ADHD ASPs suggests genetic heterogeneity and a common risk locus at 5p13.

Pooled genome-wide linkage data on 424 ADHD ASPs suggests genetic heterogeneity and a common risk locus at 5p13

Assignment of the human gene for the water channel of renal collecting duct Aquaporin 2 (AQP2) to chromosome 12 region q12→q13

The chromosomal localization of the gene encoding Aquaporin 2 (previously called WCH-CD), which acts as a water channel in the collecting tubules of the kidney, was determined. Southern blot hybridizations of chromosomal DNA from a panel of 25 different human-rodent hybrid cell lines assigned AQP2 to the q-arm of human chromosome 12. Additionally, in situ hybridization on R-banded metaphase chromosomes localized AQP2 to the q12-->q13 region of this chromosome.

Molecular cytogenetics of human germ cell tumours: i(12p) and related chromosomal anomalies

Human testicular germ cell tumours (TGCTs) comprise a heterogeneous group of solid neoplasms. These tumours are characterized by a highly specific chromosomal anomaly, i.e. an isochromosome of the short arm of chromosome 12. At present, this i(12p) chromosome has been observed in about 80% of TGCTs. Also in dysgerminomas of the ovary and in some extragonadal germ cell tumours i(12p) has been observed. In the remaining so-called i(12p)-negative tumours other cytogenetic abnormalities can be found. In addition, TGCTs are usually highly aneuploid. The exact nature and role of these different anomalies in tumour development are as yet undefined. Here we present a molecular cytogenetic analysis of a diverse group of gonadal and extragonadal germ cell tumours. Our results indicate that all tumours examined exhibit anomalies involving 12p [i(12p) and/or others], resulting in a distinct overrepresentation of short arm sequences. Thus, we argue that the occurrence of 12p abnormalities may be a characteristic of both i(12p)-positive and -negative TGCTs and that these abnormalities may, through similar mechanisms, contribute to the process of TGCT development. This notion is substantiated by our finding that in all cases the supernumerary 12p sequences are of uniparental origin.

Generation of a panel of somatic cell hybrids containing fragments of human chromosome 12P by X-ray irradiation and cell fusion

We have employed an irradiation and fusion procedure to generate somatic cell hybrids containing various fragments of the short arm of human chromosome 12 using a 12p-only hybrid (M28) as starting material. For the initial identification of hybrids retaining human DNA, nonradioactive in situ hybridization was performed. Seventeen cell lines appeared to contain detectable amounts of human material. Detailed characterization of these hybrids by Southern blot analysis and chromosomal in situ suppression hybridization (chromosome painting), using hybrid DNAs as probes after Alu element-mediated PCR, resulted in a hybrid panel encompassing the entire chromosome 12p arm. This panel will provide a valuable resource for the rapid isolation of region-specific DNA markers. In addition, this panel may be useful for the characterization of chromosome 12 aberrations in, e.g., human germ cell tumors.

Molecular characterization of a recurring complex chromosomal translocation in two human extragonadal germ cell tumors.

The molecular characterization of a recurring complex chromosomal translocation involving 6p21, 6p22, 6q23, and 11q13 in two independent but similar extragonadal human germ cell tumors was initiated using fluorescence in situ hybridization (FISH) and pulse field gel electrophoresis (PFGE) techniques. By using a series of specific probes from the 11q13 region, the translocation breakpoint in this chromosomal band could be located within a long-range restriction enzyme map in between the markers D11S457 and D11S546. In addition, aberrantly hybridizing restriction fragments were revealed by PFGE in both tumors, indicating that the breakpoint region must be located within a distance of at maximum 200 kilobase pairs (kbp) from the nearest DNA marker (D11S546).

Localization of X chromosome short arm markers relative to synovial sarcoma- and renal adenocarcinoma-associated translocation breakpoints

A series of thirteen different DNA markers was mapped relative to papillary renal cell carcinoma- and synovial sarcoma-associated translocation breakpoints in Xp11.2 using a panel of tumor-derived somatic cell hybrids in conjunction with Southern blot analysis. Our results indicate that the two translocation breakpoints differ from each other and that the chromosomal break in t(X; 1)-positive papillary renal cell carcinoma is located between the markers PFC-TIMP-OATL1-SYP-TFE3 and DXS226-DXS146-DXS255-OATL2-DXS14. In addition, our current breakpoint analysis has resulted in a revision of the regional localization of the proximal Xp marker DXS226.

Exclusion of the phosphatidylinositol-specific phospholipase C beta 3 (PLC beta 3) gene as candidate for the multiple endocrine neoplasia type 1 (MEN 1) gene.

Abstract Multiple endocrine neoplasia type 1 (MEN 1) is inherited as an autosomal dominant disorder, characterized by hyperplasia and neoplasia in several endocrine organs. The MEN 1 gene, which is most probably a tumor suppressor gene, has been localized to a 900-kb region on chromosome 11q13. The human phosphatidylinositol-specific phospholipase C β3 (PLC β3) gene, which is located within this region, was considered to be a good candidate for the MEN 1 gene. In this study, the structure and expression of the PLC β3 gene in MEN 1 patients were investigated in more detail, to determine its potential role in MEN 1 tumorigenesis. Southern blot analysis, using blood and tumor DNA from affected persons from seven different MEN 1 families, did not reveal structural abnormalities in the PLC β3 gene. To detect possible point mutations, or other small structural aberrations, direct sequencing of PLC β3 cDNAs from two affected persons from two different MEN 1 families was performed, but no MEN 1-specific abnormalities were revealed. Several common nucleotide sequence polymorphisms were detected in these cDNAs, proving that both alleles of the PLC β3 gene were expressed and analyzed. In conclusion, these results exclude the PLC β3 gene as a candidate gene for MEN 1.

Identification of a yeast artificial chromosome that spans the human papillary renal cell carcinoma-associated t(X;1) breakpoint in Xp11.2

Recently, a specific chromosome abnormality, t(X;1)(p11;q21), was described for a subgroup of human papillary renal cell carcinomas. The translocation breakpoint in Xp11 is located in the same region as that in t(X;18)(p11;q11)-positive synovial sarcoma. We used fluorescence in situ hybridization (FISH) and somatic cell hybridization techniques to demonstrate 1) that the Xp11 translocation breakpoint in papillary renal cell carcinoma differs from that observed in synovial sarcoma and has a more proximal location, and 2) that an ornithine aminotransferase (OAT)L2 containing yeast artificial chromosome (YAC) spans the X;1 translocation. This YAC provides an ideal starting point from which the breakpoint itself and the gene(s) involved can be isolated and characterized.

Towards the isolation of a human malignant extragonadal germ cell tumour-associated breakpoint in chromosome 11q13.

In a previous study we have defined a subgroup of human malignant extragonadal germ cell tumours that is characterized by complex translocations involving chromosomes 6 and 11 (Echten et al. 1995). Here we report (i) the use of fluorescent in situ hybridization, pulsed field gel electrophoresis and direct visual hybridization techniques to localize the tumour‐associated breakpoint within band 11q13, and (ii) the construction of a phage library enriched for this region to facilitate genomic walks towards the breakpoint. Extensive breakpoint‐flanking contigs were generated and within these contigs six candidate genes could be identified.