K.D. Zang

Polysomy of chromosome 7 is correlated with overexpression of the erbB oncogene in human glioblastoma cell lines

SummaryChromosome analysis in a series of human glioblastoma cell lines (HeRo, HeRo-SV1, A172, T406, T508, T705) has indicated characteristic changes in the karyotype, the most striking and consistent of which is a significant increase in the copy number of chromosome 7, with up to 8 copies per metaphase. As determined by Spurr et al., chromosome 7 represents the genomic locus for the oncogene erbB (7pter-q22). Therefore, we have compared the number of chromosomes 7 to the levels of expression of the erbB oncogene. Interestingly, in all of them erbB-specific mRNA was found to be increased at levels even higher than expected from the number of chromosomes 7 found. In contrast, in an astrocytoma of slightly lower grade of malignancy (cell line T567), neither polysomy 7 nor significant expression of the erbB oncogene was noted.

Loss of heterozygosity and the origin of meningioma.

SummaryIn some human tumors, loss of particular genes manifested indirectly by loss of heterozygosity for specific RFLPs seems to uncover either heterozygous deletions leading to a gene dosis effect or homozygous deletions due to a silent allele at the corresponding locus, both causing the loss of regulatory functions (antioncogenes suppressor genes). Meningioma, a benign human tumor derived from the coverings of brain and spinal cord, is associated with complete loss, rarely deletion, of one chromosome 22. About 60% of meningiomas exhibit monosomy 22 in all or part of cells; however, about 40% display a normal karyotype. Comparison of constitutional and tumor genomes from 12 patients showed loss of heterozygosity on 22 in three cases, suggesting the involvement of events at the DNA level.

Enhanced expression of four cellular oncogenes in a human glioblastoma cell line

Examination of a human glioblastoma cell line displaying a relatively stable karyotype and absence of both copies of chromosome #13 (HeRo) as well as of a SV-40 transformed subline (HeRo-SV) using analysis on the DNA and RNA level showed that both cell lines express high levels of abl, erb B, myc, and Ha-ras mRNA. Neither gene amplification nor gene rearrangement at the loci concerned nor abnormal transcription account for this activation of expression. The possible influence of the deleted sequences in the context of a suppressor gene hypothesis is discussed.

Isolation and characterization of the human genomic locus coding for the putative metastasis control gene nm23-H1.

Nm23-H1 gene expression is inversely correlated with tumor metastatic potential in certain tumors, including melanomas, breast carcinomas, and hepatocellular carcinomas. Using nm23-H1 c-DNA primer and genomic polymerase chain reaction (PCR) amplification, we purified three PCR fragments (one of 4kb and two of 2 kb) covering the whole human genomic locus of the gene (8.460bp). We recombined the PCR products into pUC18 and produced a restriction map to perform subcloning. Complete sequencing of genomic PCR fragments, including the whole coding region of nm23-H1, revealed that the gene consists of five exons and four introns spanning 8.5kb. A sequence homology analysis between human nm23-H1 and the homolog gene of the rat (NDP-Kβ) shows that exon-intron boundaries are well conserved between these two species.

Assignment of human transcobalamin II (TC2) to chromosome 22 using somatic cell hybrids and monosomic meningioma cells.

SummaryHuman transcobalamin II (TC2), a vitamin B12 binding serum protein, is synthesized and secreted into the medium by cells growing in vitro. Mouse-man somatic cell hybrids were analyzed in order to map the locus of TC2. The presence of human TC2 in the culture media was correlated with the results of genetic marker and chromosome analysis of the hybrid cells. Chromosome 22 showed 100% concordancy. However, chromosome 6 (90% concordancy) and chromosome 7 (96% concordancy) were not completely excluded. Meningioma cells obtained from patients heterozygous for TC2 showed a concomitant loss of one chromosome 22 and one of the TC2 alleles, strongly supporting the assignment to chromosome 22.

Clonal chromosome aberrations in three of five sporadic angiomyolipomas of the kidney

Clonal chromosomal changes were detected in three of five sporadic angiomyolipomas of the kidney irrespective of a solitary or multifocal appearance of this benign tumor type. No specific chromosomal changes have been identified. Including the cytogenetic data of the four renal angiomyolipomas reported in the literature, trisomy 7 as the single clonal chromosomal abnormality was detected in two angiomyolipomas. Because trisomy 7 has been reported in both neoplastic and nonneoplastic kidney cells, it may be assumed that trisomy 7 is already physiologically resident in renal cells but undergoes positive selection in this tumor type.

Quantitative studies on the arrangement of human metaphase chromosomes. IX. Arrangement of chromosomes with and without spindle apparatus.

SummaryThe spatial relationships in human male metaphase cells treated with and without colcemide were compared with each other. The following results were obtained: (1) In normal male metaphases the overall distributions of chromosomal distances regardless of chromosome identification numbers did not show normal distribution, neither in the colcemid-free sample nor in the colcemide-treated sample. (2) In both samples larger chromosomes showed a more peripheral position, and smaller chromosomes showed a more central position. This finding was statistically significant. (3) No differences between the two samples could be observed concerning the following parameters: overall distributions of the centromere-centromere distances, distributions of the distances between the homologous chromosomes (except the small acrocentric chromosomes), rank positions of the mean distances between homologous chromosomes, and rank positions of the mean distances of the different chromosomes from the center of the mitosis (except few chromosomes). (4) Visible, but not statistically accessible, differences appeared between the two samples in respect to rank positions of the mean distances of all possible acrocentric pairing groups, rank positions of the mean distances of the homologous acrocentric chromosomes from the center of the mitosis, and distances of the X chromosome from the center of the mitosis. (5) Statistically significant differences appeared between the two samples with respect to distance distributions of the small acrocentric chromosomes and positions of the chromosomes 1, 16, 18, Y, and 21, 22 in relation to the center of the mitosis.

Non-radioactive in situ hybridization pattern of the M13 minisatellite sequences on human metaphase chromosomes.

SummaryA classical minisatellite family, the M13 tandem repeat, is shown here to be spread over all human chromosomes. M13 shows an R-band-like pattern, in contrast to the 33.15 family of Jeffreys, which preferentially clusters in the telomeric regions.

Differential activity of two oncogenes from chromosome 7 in human glioblastoma cell lines

Human glioblastoma cell lines are known to develop polysomy of cytogenetically intact chromosomes #7 and overexpression of the erbB oncogene (7p12-p14) at a level even higher than is to be expected from the number of #7 chromosomes. The met oncogene, however, which is also located on chromosome #7 (7q31-q32), was shown not to be overexpressed in a panel of 7-polysomic glioblastoma cell lines overexpressing erbB. Molecular analysis of the cell line HeRo gave proof that there is no detectable amplification or rearrangement of the erbB gene which could be responsible for its overexpression. These findings favor the assumption of differential regulation of the met and erbB oncogenes, e.g. by means of insufficient activity of a trans-acting erbB suppressor gene possibly located on a chromosome with a low copy number.