Martine Muleris

Restriction of ocular fundus lesions to a specific subgroup of APC mutations in adenomatous polyposis coli patients

In humans, alteration of the tumor suppressor gene, APC, causes adenomatous polyposis coli, a condition causing predisposition to colorectal cancer. The syndrome inconsistently associates characteristic patches of congenital hypertrophy of the retinal pigment epithelium (CHRPE). Ocular examination revealed that patients expressing CHRPE tend to cluster within specific families. The exact APC mutation was identified in 42 unrelated patients. In all cases these mutations were predicted to lead to the synthesis of a truncated protein. The extent of CHRPE was found to be dependent on the position of the mutation along the coding sequence. CHRPE lesions are almost always absent if the mutation occurs before exon 9, but are systematically present if it occurs after this exon. Thus, the range of phenotypic expression observed among affected patients may result in part from different allelic manifestations of APC mutations.

Cytogenetics of colorectal adenocarcinomas

The occurrence of nonrandom chromosomal anomalies in colorectal adenocarcinomas could be demonstrated from the cytogenetic study of 100 cases. The most frequent changes are a rearrangement of chromosome 17, leading to the loss of its short arm and a loss of one chromosome 18. Three types of tumors with abnormal karyotypes can be defined. First are the monosomic-type near-diploid tumors (MD), characterized by a monosomy of both 17p and chromosome 18 mostly associated with other recurrent monosomies. In two of three cases, one or several minor derived polyploid subclones are also observed. Second are the monosomic-type polyploid tumors (MP), which have a pattern of chromosome imbalance very similar to that of MD tumors. They derive from MD tumors by endoreduplication followed by complete disappearance of the original MD clone. Third are the trisomic-type tumors (TT), which lose either 17p or chromosome 18 or none, most of the anomalies being gains of entire chromosomes. These TT tumors never undergo endoreduplication. In addition, seven tumors with normal karyotypes were found and may constitute another category (NT). A nonrandom distribution of these tumor types in relation to tumor site was observed, since in the distal colon, TT and NT tumors are underrepresented and endoreduplications are significantly more frequent. The level of chromosomal mutagenesis is two- to threefold higher in MD and MP than in TT tumors. More than 95% of the rearrangements are unbalanced, and most of them result from breakpoints located in juxtacentromeric heterochromatin. A good correlation is found between our results and the available molecular data on allelic losses. The involvement of recessive tumor suppressor genes in colorectal tumorigenesis and the possible relationship between chromosomal imbalances and deviations in metabolic pathways is described.

MLL2, the second human homolog of the Drosophila trithorax gene, maps to 19q13.1 and is amplified in solid tumor cell lines

The Mixed Lineage Leukemia (MLL) gene is commonly involved in translocations in infantile leukemia and is amplified in some cases of adult myeloid leukemia. A homolog of MLL denoted MLL2, which represents the second human homolog of the Drosophila trithorax gene, was characterized by assembling ESTs, the KIAA0304 cDNA clone, RT – PCR fragments and a new clone isolated from a cDNA phage library and compared to the available genomic sequence. The MLL2 gene maps to 19q13.1, a region of frequent rearrangement or amplification in solid tumors. MLL2 consists of an 8.5 – 9 kb transcript and spans 20 kb of genomic DNA. The predicted MLL2 protein possesses all of the major domains defined in MLL and the two genes have a similar genomic structure. We find that MLL2 is amplified in two of 14 pancreatic carcinoma cell lines and one of five glioblastoma cell lines and is a likely critical gene in 19q13.1 amplifications. It is also a candidate for chromosomal rearrangements involving this chromosome locus. MLL2 is one additional mammalian trithorax-group gene with involvement in human cancer.

Characteristic chromosomal imbalances in 18 near-diploid colorectal tumors

The cytogenetic study of 18 near-diploid colorectal tumors shows that the observed numerical and structural abnormalities resulted in recurrent chromosomal losses and gains. By order of decreasing frequencies, they are: monosomy 17p (16/18), partial or more frequently complete monosomy 18 (14/18), trisomy 20q (11/18), trisomy or tetrasomy 13 (10/18), monosomy lp and trisomies X and 8q (9/18). The absence of recurrent breakpoints in euchromatin contrasts with the high preponderance of breakage at various places of heterochromatic region. Because these tumors are characterized by very recurrent chromosomal imbalances, it is assumed that the observed chromosomal changes may be related to a recessive genetic determinism and to gene dosage imbalances.

The rate of chromosome breakage is age dependent in lymphocytes of adult controls.

SummaryChromosome breaks and chromatid-type lesions from a prospective study of more than 1000 lymphocyte karyotypes from each of six controls were analysed. These lesions were more frequent in older (75 years old on average) than in younger (29 years old on average) controls, especially after 72h cultures. All controls were found to be carriers of fragile sites. The most frequent were 3p14.3 and 16q23, especially in older controls. At least one fra(X)(q27) mitosis was found in each control. Most deletions occurred after breakage in heterochromatin or in late-replicating euchromatin. As almost all radials were either “mitotic chiasmata” or triradials (branched chromosomes), it is concluded that chromatid exchanges between non-homologous segments are very rare, and indicate chromosomal instability syndrome or recent exposure to a mutagen.

GAC1, a new member of the leucine-rich repeat superfamily on chromosome band 1q32.1, is amplified and overexpressed in malignant gliomas

We have used two-dimensional electrophoresis of enzyme-digested genomic DNA to identify a novel gene GAC1, which maps at 1q32.1 and which is overexpressed in malignant gliomas in which it is amplified. GAC1 encodes a protein which belongs to the leucine-rich repeat superfamily. Amplification and overexpression of GAC1 was demonstrated in two of eight tumors where amplifications were previously evidenced by comparative genomic hybridization (one glioblastoma multiforme and one anaplastic astrocytoma), and in one of eight unselected glioblastomas multiforme. GAC1 exhibits sequence homology with other proteins which function as cell-adhesion molecules or as signal transduction receptor and is a likely candidate for the target gene in the 1q32.1 amplicon in malignant gliomas.

Existence of two distinct processes of chromosomal evolution in near-diploid colorectal tumors

The comparison of all the karyotypes established in each of 18 near-diploid colorectal tumors made it possible to reconstruct a clonal evolution and to distinguish between early and late chromosomal aberrations. Because no abnormalities were observed in all tumors, and as even the most frequent changes, i.e., monosomy 17p and monosomy 18, may be present in mosaic, no chromosomal change can be regarded as a common primary event in the carcinogenetic process. However, the repeated occurrence of several changes favors the hypothesis of two karyotypic evolutionary processes. In most tumors, monosomy 17p and 18 were found, and the karyotypic evolution involved mainly several additional monosomies due to unbalanced rearrangements or losses that affect, by order of decreasing frequency, chromosomes 1p, 4, 14, 5q, 6q, 2p, and 11q, as well as gains of chromosomes 20, 8q, 13, 17q, and X. In this group of tumors, the mean number of chromosomes remains close to 46. In the other tumors, either only a monosomy 17p or a monosomy 18 was found and the karyotypic evolution involved essentially trisomies, resulting from gains with, by order of decreasing frequency, a preferential involvement of chromosomes 7, 8q, 13, 17q, 20, X, 2p, 5, and 16, the only additional recurrent deletion affecting chromosome 1p. In these tumors, the mean chromosome number is close to 51. Ten out of 11 polyploid sidelines emerged from monosomic-type tumors.

Acquired chromosome rearrangements in human lymphocytes: effect of aging.

SummaryA prospective study of structural rearrangements occurring in normal lymphocytes was carried out. For each of two newborns and four young and two old adults, about 1000 metaphases from 72-h and 120 from 48-h cultures were studied. The frequency of rearrangements between bands 7p14, 7q35, 14q11.2 or 14q12 and 14qter, which is on the average about 0.003, is higher in newborns (0.0043) than in adults (0.0024). Conversely, the rearrangements involving other bands, which have a frequency of 0.025 on the average, are more frequent in old adults (f=0.038) than in young adults (f=0.025) and newborns (f=0.013). The first type of rearrangement, which occurs in utero, may correspond to immunoglobulin and related gene rearrangements. The other rearrangements seem to accumulate progressively and may reflect exposure to mutagens. It is import to discriminate these two types of rearrangements when studying the effect of low doses of mutagens.

Aneuploidy in human lymphocytes: an extensive study of eight individuals of various ages.

Data on aneuploidy from a prospective study on a large number of lymphocyte metaphases (over 1000 in 72-h and 100 in 48-h cultures) per individual from eight healthy donors of various ages are reported. Chromosome losses were dependent on culture time, being significantly more frequent in 72-h than in 48-h cultures. All donors exhibited various degrees of aneuploidy which increased with age in women. This increase resulted essentially from X chromosome losses, as previously reported. Although the rate of aneuploidy limited to autosomes was similar in newborns and in adults, the distributions of the missing autosomes were different. In the two newborns studied, autosome aneuploidy was random. In the adults, a significant inverse correlation with autosome lengths was observed. The inverse correlation between chromosome lengths and losses may be explained by selective pressure against monosomic cells in the adults.

The frequency of micronuclei with X chromosome increases with age in human females

The rate of micronuclei counted on lymphocyte cultures from five healthy female donors, 27-80 years old, increased with age. Using pXBR1 probe, specific for the alphoid DNA of the X chromosome, the presence of this chromosome was investigated by FISH (fluorescence in situ hybridization) in both micronuclei and metaphases. Both X aneuploidy and frequency of X chromosome per micronuclei increased with age. However, this overinvolvement of X chromosome was not sufficient to explain the overall increase of micronuclei with age, suggesting that autosomes are also involved. Thus, the higher increase of X than autosome aneuploidy in lymphocytes may result from both an excess of X chromosome losses and a better survival of cells with a monosomy X.