Your search keyword '"Dutrillaux, Bernard"' showing total 378 results

351. Multiple Chromosome Fissions, Including That of the X Chromosome, in Aulacocyclus tricuspis Kaup (Coleoptera, Passalidae) from New Caledonia: Characterization of a Rare but Recurrent Pathway of Chromosome Evolution in Animals.

Author

Dutrillaux B, Dutrillaux AM, Salazar K, and Boucher S

Subjects

Animals, Male, New Caledonia, X Chromosome genetics, Karyotyping, Heterochromatin, Coleoptera genetics

Abstract

The male karyotype of Aulacocyclus tricuspis Kaup 1868 (Coleoptera, Scarabaeoidea, Passalidae, Aulacocyclinae) from New Caledonia contains an exceptionally high number of chromosomes, almost all of which are acrocentric (53,X1X2Y). Unlike the karyotypes of other species of the pantropical family Passalidae, which are principally composed of metacentric chromosomes, this karyotype is derived by fissions involving almost all the autosomes after breakage in their centromere region. This presupposes the duplication of the centromeres. More surprising is the X chromosome fragmentation. The rarity of X chromosome fission during evolution may be explained by the deleterious effects of alterations to the mechanisms of gene dosage compensation (resulting from the over-expression of the unique X chromosome in male insects). Herein, we propose that its occurrence and persistence were facilitated by (1) the presence of amplified heterochromatin in the X chromosome of Passalidae ancestor, and (2) the capacity of heterochromatin to modulate the regulation of gene expression. In A. tricuspis, we suggest that the portion containing the X proper genes and either a gene-free heterochromatin fragment or a fragment containing a few genes insulated from the peculiar regulation of the X by surrounding heterochromatin were separated by fission. Finally, we show that similar karyotypes with multiple acrocentric autosomes and unusual sex chromosomes rarely occur in species of Coleoptera belonging to the families Vesperidae, Tenebrionidae, and Chrysomelidae. Unlike classical Robertsonian evolution by centric fusion, this pathway of chromosome evolution involving the centric fission of autosomes has rarely been documented in animals.

Published

2023

352. Why Are X Autosome Rearrangements so Frequent in Beetles? A Study of 50 Cases.

Author

Dutrillaux B and Dutrillaux AM

Subjects

Animals, Male, Heterochromatin genetics, Y Chromosome genetics, Sex Chromosomes, X Chromosome, Coleoptera genetics

Abstract

Amongst the 460 karyotypes of Polyphagan Coleoptera that we studied, 50 (10.8%) were carriers of an X autosome rearrangement. In addition to mitotic metaphase analysis, the correct diagnosis was performed on meiotic cells, principally at the pachytene stage. The percentages of these inter-chromosomal rearrangements, principally fusions, varied in relation to the total diploid number of chromosomes: high (51%) below 19, null at 19, low (2.7%) at 20 (the ancestral and modal number), and slightly increasing from 7.1% to 16.7% from 22 to above 30. The involvement of the X in chromosome fusions appears to be more than seven-fold higher than expected for the average of the autosomes. Examples of karyotypes with X autosome rearrangements are shown, including insertion of the whole X in the autosome (ins(A;X)), which has never been reported before in animals. End-to-end fusions (Robertsonian translocations, terminal rearrangements, and pseudo-dicentrics) are the most frequent types of X autosome rearrangements. As in the 34 species with a 19,X formula, there was no trace of the Y chromosome in the 50 karyotypes with an X autosome rearrangement, which demonstrates the dispensability of this chromosome. In most instances, C-banded heterochromatin was present at the X autosome junction, which suggests that it insulates the gonosome from the autosome portions, whose genes are subjected to different levels of expression. Finally, it is proposed that the very preferential involvement of the X in inter-chromosome rearrangements is explained by: (1) the frequent acrocentric morphology of the X, thus the terminal position of constitutive heterochromatin, which can insulate the attached gonosomal and autosomal components; (2) the dispensability of the Y chromosome, which considerably minimizes the deleterious consequences of the heterozygous status in male meiosis, (3) following the rapid loss of the useless Y chromosome, the correct segregation of the X autosome-autosome trivalent, which ipso facto is ensured by a chiasma in its autosomal portion.

Published

2023

353. Improved Basic Cytogenetics Challenges Holocentricity of Butterfly Chromosomes.

Author

Dutrillaux B, Dutrillaux AM, McClure M, Gèze M, Elias M, and Bed'hom B

Subjects

Humans, Animals, Heterochromatin, DNA, Satellite, Chromosomes, Centromere, Meiosis, Chromatids, Karyotyping, Mammals genetics, Butterflies genetics

Abstract

Mitotic chromosomes of butterflies, which look like dots or short filaments in most published data, are generally considered to lack localised centromeres and thus to be holokinetic. This particularity, observed in a number of other invertebrates, is associated with meiotic particularities known as "inverted meiosis," in which the first division is equational, i.e., centromere splitting-up and segregation of sister chromatids instead of homologous chromosomes. However, the accurate analysis of butterfly chromosomes is difficult because (1) their size is very small, equivalent to 2 bands of a mammalian metaphase chromosome, and (2) they lack satellite DNA/heterochromatin in putative centromere regions and therefore marked primary constrictions. Our improved conditions for basic chromosome preparations, here applied to 6 butterfly species belonging to families Nymphalidae and Pieridae challenges the holocentricity of their chromosomes: in spite of the absence of primary constrictions, sister chromatids are recurrently held together at definite positions during mitotic metaphase, which makes possible to establish karyotypes composed of acrocentric and submetacentric chromosomes. The total number of chromosomes per karyotype is roughly inversely proportional to that of non-acrocentric chromosomes, which suggests the occurrence of frequent robertsonian-like fusions or fissions during evolution. Furthermore, the behaviour and morphological changes of chromosomes along the various phases of meiosis do not seem to differ much from those of canonical meiosis. In particular, at metaphase II chromosomes clearly have 2 sister chromatids, which refutes that anaphase I was equational. Thus, we propose an alternative mechanism to holocentricity for explaining the large variations in chromosome numbers in butterflies: (1) in the ancestral karyotype, composed of about 62 mostly acrocentric chromosomes, the centromeres, devoid of centromeric heterochromatin/satellite DNA, were located at contact with telomeric heterochromatin; (2) the instability of telomeric heterochromatin largely contributed to drive the multiple rearrangements, principally chromosome fusions, which occurred during butterfly evolution., (© 2023 S. Karger AG, Basel.)

Published

2022

354. Transcription-mediated organization of the replication initiation program across large genes sets common fragile sites genome-wide.

Author

Brison O, El-Hilali S, Azar D, Koundrioukoff S, Schmidt M, Nähse V, Jaszczyszyn Y, Lachages AM, Dutrillaux B, Thermes C, Debatisse M, and Chen CL

Subjects

Cell Line, Humans, Replication Origin, Transcription, Genetic, Chromosome Fragile Sites genetics, DNA Replication Timing genetics, Genomic Instability, S Phase genetics, Transcription Termination, Genetic

Abstract

Common fragile sites (CFSs) are chromosome regions prone to breakage upon replication stress known to drive chromosome rearrangements during oncogenesis. Most CFSs nest in large expressed genes, suggesting that transcription could elicit their instability; however, the underlying mechanisms remain elusive. Genome-wide replication timing analyses here show that stress-induced delayed/under-replication is the hallmark of CFSs. Extensive genome-wide analyses of nascent transcripts, replication origin positioning and fork directionality reveal that 80% of CFSs nest in large transcribed domains poor in initiation events, replicated by long-travelling forks. Forks that travel long in late S phase explains CFS replication features, whereas formation of sequence-dependent fork barriers or head-on transcription-replication conflicts do not. We further show that transcription inhibition during S phase, which suppresses transcription-replication encounters and prevents origin resetting, could not rescue CFS stability. Altogether, our results show that transcription-dependent suppression of initiation events delays replication of large gene bodies, committing them to instability.

Published

2019

355. Different behaviour of C-banded peri-centromeric heterochromatin between sex chromosomes and autosomes in Polyphagan beetles.

Author

Dutrillaux AM and Dutrillaux B

Abstract

Heterochromatin variation was studied after C-banding of male karyotypes with a XY sex formula from 224 species belonging to most of the main families of Coleoptera. The karyotypes were classified in relation with the ratio heterochromatin/euchromatin total amounts and the amounts of heterochromatin on autosomes and gonosomes were compared. The C-banded karyotypes of 19 species, representing characteristic profiles are presented. This analysis shows that there is a strong tendency for the homogenization of the size of the peri-centromeric C-banded heterochromatin on autosomes. The amount of heterochromatin on the X roughly follows the variations of autosomes. At contrast, the C-banded heterochromatin of the Y, most frequently absent or very small and rarely amplified, looks quite independent from that of other chromosomes. We conclude that the Xs and autosomes, but not the Y, possibly share some, but not all mechanisms of heterochromatin amplification/reduction. The theoretical models of heterochromatin expansion are discussed in the light of these data.

Published

2019

356. The Relationship between the (In-)Stability of NORs and Their Chromosomal Location: The Example of Cercopithecidae and a Short Review of Other Primates.

Author

Gerbault-Seureau M, Cacheux L, and Dutrillaux B

Subjects

Animals, Cercopithecidae classification, In Situ Hybridization, Fluorescence, Karyotyping, Primates classification, RNA, Ribosomal, 28S genetics, Review Literature as Topic, Species Specificity, Cercopithecidae genetics, Chromosome Mapping methods, Chromosomes, Mammalian genetics, Primates genetics

Abstract

Amongst Cercopithecidae, the species of the Cercopithecini tribe underwent a very active chromosome evolution, principally by fissions, which increased their chromosome number up to 72. In contrast, all the species of Papionini have fairly similar karyotypes with 42 chromosomes. In animals, nucleolus organizer regions (NORs) are generally considered as instable structures, which frequently vary in size, number, and location at both infra- and interspecific levels. Although in Cercopithecinae the NORs, involved in breaks, exchanges, and translocations, behave like fragile sites in somatic cells, their number and location appear to be very stable between species. Fluorescence in situ hybridization of a 28S rDNA probe on metaphase chromosomes displayed a unique interstitial location in either an acrocentric pair (in 12 species of Cercopithecini) or a metacentric pair (in 6 species of Papionini). A non-exhaustive survey of literature data on NOR location in other primates shows that numerical variations of the NORs principally depend on their location: most multiple NORs are in terminal positions, while almost all unique NORs are in interstitial positions. We propose that this correlation is the consequence of the selection against gametic imbalances involving the chromosomal material distal to the NORs, which is effective when they are interstitially, but not terminally, located. Thus, the consequences of the interstitial NOR instability for reproduction are essentially limited to their size variations, as observed in Cercopithecidae., (© 2018 S. Karger AG, Basel.)

Published

2017

357. Evolution of the Sex Chromosomes in Beetles. I. The Loss of the Y Chromosome.

Author

Dutrillaux AM and Dutrillaux B

Subjects

Animals, Chromosome Banding, Karyotype, Male, Staining and Labeling, Biological Evolution, Coleoptera genetics, Sex Chromosomes genetics, Y Chromosome genetics

Abstract

In the males of Coleoptera, the most frequent sex chromosome constitution is XY. At metaphase I of meiosis, the X and Y are linked by nucleolar proteins, forming the so-called parachute bivalent (Xyp), which is assumed to allow the non-synapsed X and Y to segregate correctly at anaphase I. However, X0 males are not exceptional, and we explored the relationships between the X and nucleolar proteins in the absence of the Y chromosome in 6 species belonging to different families/subfamilies. Using C-banding and silver staining, we show that nucleolar proteins always remain in contact with the X until anaphase I. These proteins are generally more abundant than in the Xyp bivalent, may remain associated with the NOR during diakinesis, and frequently link the X to 1 or 2 autosomal bivalents, which seem to play the same role as the Y. This role may also be played by B chromosomes, which appear to be more frequent in X0 than in XY males. In conclusion, following Y chromosome loss, various strategies using nucleolar proteins have been developed to facilitate the migration of the unique X at meiotic anaphase I., (© 2017 S. Karger AG, Basel.)

Published

2017

358. Heterozygosity and Chain Multivalents during Meiosis Illustrate Ongoing Evolution as a Result of Multiple Holokinetic Chromosome Fusions in the Genus Melinaea (Lepidoptera, Nymphalidae).

Author

McClure M, Dutrillaux B, Dutrillaux AM, Lukhtanov V, and Elias M

Subjects

Animals, Chromosomes genetics, Female, Heterozygote, Hybridization, Genetic, Karyotyping, Male, Metaphase, Mitosis genetics, Peru, Species Specificity, Spermatocytes ultrastructure, Butterflies genetics, Chromosomes ultrastructure, Evolution, Molecular, Genetic Speciation, Meiosis genetics, Spindle Apparatus ultrastructure

Abstract

Mitotic and meiotic chromosomes from 2 taxa of the genus Melinaea, M. satevis cydon and M. "satevis" tarapotensis (Lepidoptera: Nymphalidae), and from hybrids produced in captivity were obtained using an improved spreading technique and were subsequently analyzed. In one of the taxa, the presence of trivalents and tetravalents at diakinesis/metaphase I is indicative of heterozygosity for multiple chromosome fusions or fissions, which might explain the highly variable number of chromosomes previously reported in this genus. Two large and complex multivalents were observed in the meiotic cells of the hybrid males (32 chromosomes) obtained from a cross between M. "s." tarapotensis (28 chromosomes) and M. s. cydon (40-43 chromosomes). The contribution of the 2 different haploid karyotypes to these complex figures during meiosis is discussed, and a taxonomic revision is proposed. We conclude that chromosome evolution is active and ongoing, that the karyotype of the common ancestor consisted of at least 48 chromosomes, and that evolution by chromosome fusion rather than fission is responsible for this pattern. Complex chromosome evolution in this genus may drive reproductive isolation and speciation, and highlights the difficulties inherent to the systematics of this group. We also show that Melinaea chromosomes, classically considered as holocentric, are attached to unique, rather than multiple, spindle fibers., (© 2018 S. Karger AG, Basel.)

Published

2017

359. Karyotype diversity suggests that Laonastes aenigmamus (Laotian rock rat) (Rodentia, Diatomyidae) is a multi-specific genus.

Author

Richard F, Gerbault-Seureau M, Douangboupha B, Keovichit K, Hugot JP, and Dutrillaux B

Subjects

Animals, Cell Line, Chromosome Banding, Chromosome Painting, DNA, Ribosomal genetics, Humans, In Situ Hybridization, Fluorescence, Laos, Phylogeny, RNA, Ribosomal, 28S genetics, Telomere genetics, Chromosomes, Mammalian genetics, Karyotype, Rodentia genetics, Translocation, Genetic genetics

Abstract

Laonastes aenigmamus (Khanyou) is a recently described rodent species living in geographically separated limestone formations of the Khammuan Province in Lao PDR. Chromosomes of 21 specimens of L. aenigmamus were studied using chromosome banding as well as fluorescent in situ hybridization (FISH) techniques using human painting, telomere repeats, and 28S rDNA probes. Four different karyotypes were established. Study with human chromosome paints and FISH revealed that four large chromosomes were formed by multiple common tandem fusions, with persistence of some interstitial telomeres. The rearrangements separating the different karyotypes (I to IV) were also reconstructed. Various combinations of Robertsonian translocations or tandem fusions involving the same chromosomes differentiate these karyotypes. These rearrangements create a strong gametic barrier, which isolates specimens with karyotype II from the others. C-banding and FISH with telomere repeats also exhibit large and systematized differences between karyotype II and others. These data indicate an ancient reproductive separation and suggest that Laonastes is not a mono-specific genus.

Published

2016

360. Chromosome comparison of 17 species / sub-species of African Goliathini (Coleoptera, Scarabaeidae, Cetoniinae).

Author

Dutrillaux AM and Dutrillaux B

Abstract

The mitotic karyotypes of 17 species of African Goliathini (Cetoniinae) are described using various chromosome banding techniques. All but one are composed of 20 chromosomes, mostly metacentric, forming a karyotype assumed to be close to that of the Polyphaga ancestor. The most derived karyotypes are those of Goliathus goliatus Drury, 1770, with eight pairs of acrocentrics and Chlorocana africana Drury, 1773, with only14 chromosomes. In species of the genera Cyprolais Burmeister, 1842, Megalorhina Westwood, 1847, Stephanocrates Kolbe, 1894 and Stephanorrhina Burmeister, 1842, large additions of variable heterochromatin are observed on both some particular autosomes and the X chromosome. Species of the genera Eudicella White, 1839 and Dicronorrhina Burmeister, 1842 share the same sub-metacentric X. Although each species possesses its own karyotype, it remains impossible to propose robust phylogenetic relationships on the basis of chromosome data only.

Published

2016

361. Common fragile site profiling in epithelial and erythroid cells reveals that most recurrent cancer deletions lie in fragile sites hosting large genes.

Author

Le Tallec B, Millot GA, Blin ME, Brison O, Dutrillaux B, and Debatisse M

Subjects

Cell Line, Tumor, Epithelial Cells metabolism, Erythroid Cells metabolism, HCT116 Cells, Humans, K562 Cells, Transcription, Genetic, Chromosome Fragile Sites, Epithelial Cells ultrastructure, Erythroid Cells ultrastructure, Neoplasms genetics

Abstract

Cancer genomes exhibit numerous deletions, some of which inactivate tumor suppressor genes and/or correspond to unstable genomic regions, notably common fragile sites (CFSs). However, 70%-80% of recurrent deletions cataloged in tumors remain unexplained. Recent findings that CFS setting is cell-type dependent prompted us to reevaluate the contribution of CFS to cancer deletions. By combining extensive CFS molecular mapping and a comprehensive analysis of CFS features, we show that the pool of CFSs for all human cell types consists of chromosome regions with genes over 300 kb long, and different subsets of these loci are committed to fragility in different cell types. Interestingly, we find that transcription of large genes does not dictate CFS fragility. We further demonstrate that, like CFSs, cancer deletions are significantly enriched in genes over 300 kb long. We now provide evidence that over 50% of recurrent cancer deletions originate from CFSs associated with large genes., (Copyright © 2013 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2013

362. The heterochromatic chromosome caps in great apes impact telomere metabolism.

Author

Novo C, Arnoult N, Bordes WY, Castro-Vega L, Gibaud A, Dutrillaux B, Bacchetti S, and Londoño-Vallejo A

Subjects

Animals, Cell Line, Hominidae, Mitosis genetics, RNA metabolism, Repetitive Sequences, Nucleic Acid, Telomere chemistry, Transcription, Genetic, Gorilla gorilla genetics, Heterochromatin chemistry, Pan troglodytes genetics, Telomere metabolism

Abstract

In contrast with the limited sequence divergence accumulated after separation of higher primate lineages, marked cytogenetic variation has been associated with the genome evolution in these species. Studying the impact of such structural variations on defined molecular processes can provide valuable insights on how genome structural organization contributes to organismal evolution. Here, we show that telomeres on chromosome arms carrying subtelomeric heterochromatic caps in the chimpanzee, which are completely absent in humans, replicate later than telomeres on chromosome arms without caps. In gorilla, on the other hand, a proportion of the subtelomeric heterochromatic caps present in most chromosome arms are associated with large blocks of telomere-like sequences that follow a replication program different from that of bona fide telomeres. Strikingly, telomere-containing RNA accumulates extrachromosomally in gorilla mitotic cells, suggesting that at least some aspects of telomere-containing RNA biogenesis have diverged in gorilla, perhaps in concert with the evolution of heterochromatic caps in this species.

Published

2013

363. Hormone escape is associated with genomic instability in a human prostate cancer model.

Author

Legrier ME, Guyader C, Céraline J, Dutrillaux B, Oudard S, Poupon MF, and Auger N

Subjects

Animals, Chromosome Aberrations, Chromosome Banding, Comparative Genomic Hybridization, Humans, Male, Mice, Receptors, Androgen genetics, Genomic Instability, Neoplasms, Hormone-Dependent genetics, Prostatic Neoplasms genetics

Abstract

Lack of hormone dependency in prostate cancers is an irreversible event that occurs through generation of genomic instability induced by androgen deprivation. Indeed, the cytogenetic profile of hormone-dependent (HD) prostate cancer remains stable as long as it received a hormone supply, whereas the profile of hormone-independent (HID) variants acquired new and various alterations. This is demonstrated here using a HD xenografted model of a human prostate cancer, PAC120, transplanted for 11 years into male nude mice and 4 HID variants obtained by surgical castration. Cytogenetic analysis, done by karyotype, FISH, CGH and array-CGH, shows that PAC120 at early passage presents numerous chromosomal alterations. Very few additional alterations were found between the 5th and 47th passages, indicating the stability of the parental tumor. HID variants largely maintained the core of chromosomal alterations of PAC120 - losses at 6q, 7p, 12q, 15q and 17q sites. However, each HID variant displayed a number of new alterations, almost all being specific to each variant and very few shared by all. None of the HID had androgen receptor mutations. Our study indicates that hormone castration is responsible for genomic instability generating new cytogenetic abnormalities susceptible to alter the properties of cancer cell associated with tumor progression, such as increased cell survival and ability to metastasize.

Published

2009

364. Phylogenomics of African guenons.

Author

Moulin S, Gerbault-Seureau M, Dutrillaux B, and Richard FA

Subjects

Animals, Biological Evolution, Chromosome Banding, Humans, Karyotyping, Sequence Homology, Nucleic Acid, Cercopithecinae genetics, Phylogeny

Abstract

The karyotypes of 28 specimens belonging to 26 species of Cercopithecinae have been compared with each other and with human karyotype by chromosome banding and, for some of them, by Zoo-FISH (human painting probes) techniques. The study includes the first description of the karyotypes of four species and a synonym of Cercopithecus nictitans. The chromosomal homologies obtained provide us with new data on a large number of rearrangements. This allows us to code chromosomal characters to draw Cercopithecini phylogenetic trees, which are compared to phylogenetic data based on DNA sequences. Our findings show that some of the superspecies proposed by Kingdon (1997 The Kingdon Field Guide to African Mammals, Academic Press.) and Groves (2001 Primates Taxonomy, Smithsonian Institution Press) do not form homogeneous groups and that the genus Cercopithecus is paraphyletic, in agreement with previous molecular analyses. The evolution of Cercopithecini karyotypes is mainly due to non-centromeric chromosome fissions and centromeric shifts or inversions. Non-Robertsonian translocations occurred in C. hamlyni and C. neglectus. The position of chromosomal rearrangements in the phylogenetic tree leads us to propose that the Cercopithecini evolution proceeded by either repeated fission events facilitated by peculiar genomic structures or successive reticulate phases, in which heterozygous populations for few rearranged chromosomes were present, allowing the spreading of chromosomal forms in various combinations, before the speciation process.

Published

2008

365. Establishment of human colon cancer cell lines from fresh tumors versus xenografts: comparison of success rate and cell line features.

Author

Dangles-Marie V, Pocard M, Richon S, Weiswald LB, Assayag F, Saulnier P, Judde JG, Janneau JL, Auger N, Validire P, Dutrillaux B, Praz F, Bellet D, and Poupon MF

Subjects

Animals, Cell Growth Processes physiology, Colonic Neoplasms drug therapy, Colonic Neoplasms genetics, Drug Screening Assays, Antitumor, Gene Expression Profiling, Humans, Karyotyping, Male, Mice, Mice, Nude, Neoplasm Transplantation, Reverse Transcriptase Polymerase Chain Reaction, Transplantation, Heterologous, Cell Line, Tumor, Colonic Neoplasms pathology

Abstract

Obtaining representative human colon cancer cell lines from fresh tumors is technically difficult. Using 32 tumor fragments from patients with colon cancer, the present study shows that prior xenograft leads to more efficient cell line establishment compared with direct establishment from fresh tumors (P < 0.05). From 26 tumor specimens, we successfully established 20 tumor xenografts in nude mice (77%); among 19 of these xenografts, 9 (47%) led to cell lines, including four from liver metastases. Only 3 of 31 tumor specimens (9.7%) grew immediately in vitro, and all were derived from primary tumors. To compare major phenotypic and genotypic characteristics of human colon cancer cell lines derived from the same tumor fragment using two protocols, the two pairs of cell lines obtained from 2 of 32 tumor fragments were extensively studied. They displayed similar morphology and were able to form compact spheroids. Chemosensitivity to 5-fluorouracil, CPT11, and L-OHP differed between cell lines obtained from patient tumors and those derived from xenografts. Matched cell lines shared a common core of karyotype alterations and distinctive additional chromosomal aberrations. Expression levels of genes selected for their role in oncogenesis evaluated by real-time quantitative PCR were found to be statistically correlated whatever the in vitro culture model used. In conclusion, xenotransplantation in mice of tumor fragments before establishment of cell lines enables generation of more novel human cancer cell lines for investigation of colon cancer cell biology, opening up the opportunity of reproducing the diversity of this disease.

Published

2007

366. Genetic alterations associated with acquired temozolomide resistance in SNB-19, a human glioma cell line.

Author

Auger N, Thillet J, Wanherdrick K, Idbaih A, Legrier ME, Dutrillaux B, Sanson M, and Poupon MF

Subjects

Antineoplastic Agents, Alkylating pharmacokinetics, Cell Line, Tumor, Dacarbazine pharmacokinetics, Dacarbazine pharmacology, Drug Resistance, Neoplasm genetics, Gene Expression, Glioma metabolism, Humans, In Situ Hybridization, Fluorescence methods, Karyotyping methods, O(6)-Methylguanine-DNA Methyltransferase biosynthesis, O(6)-Methylguanine-DNA Methyltransferase genetics, RNA, Messenger biosynthesis, RNA, Messenger genetics, Temozolomide, Antineoplastic Agents, Alkylating pharmacology, Dacarbazine analogs & derivatives, Glioma drug therapy, Glioma genetics

Abstract

Gliomas are highly lethal neoplasms that cannot be cured by currently available therapies. Temozolomide is a recently introduced alkylating agent that has yielded a significant benefit in the treatment of high-grade gliomas. However, either de novo or acquired chemoresistance occurs frequently and has been attributed to increased levels of O6-methylguanine-DNA methyltransferase or to the loss of mismatch repair capacity. However, very few gliomas overexpress O6-methylguanine-DNA methyltransferase or are mismatch repair-deficient, suggesting that other mechanisms may be involved in the resistance to temozolomide. The purpose of the present study was to generate temozolomide-resistant variants from a human glioma cell line (SNB-19) and to use large-scale genomic and transcriptional analyses to study the molecular basis of acquired temozolomide resistance. Two independently obtained temozolomide-resistant variants exhibited no cross-resistance to other alkylating agents [1,3-bis(2-chloroethyl)-1-nitrosourea and carboplatin] and shared genetic alterations, such as loss of a 2p region and loss of amplification of chromosome 4 and 16q regions. The karyotypic alterations were compatible with clonal selection of preexistent resistant cells in the parental SNB-19 cell line. Microarray analysis showed that 78 out of 17,000 genes were differentially expressed between parental cells and both temozolomide-resistant variants. None are implicated in known resistance mechanisms, such as DNA repair, whereas interestingly, several genes involved in differentiation were down-regulated. The data suggest that the acquisition of resistance to temozolomide in this model resulted from the selection of less differentiated preexistent resistant cells in the parental tumor.

Published

2006

367. Premature condensation induces breaks at the interface of early and late replicating chromosome bands bearing common fragile sites.

Author

El Achkar E, Gerbault-Seureau M, Muleris M, Dutrillaux B, and Debatisse M

Subjects

Bromodeoxyuridine, Chromosome Banding, Chromosomes, Artificial, Bacterial, Chromosomes, Human drug effects, Humans, In Situ Hybridization, Fluorescence, Interphase genetics, Marine Toxins, Aphidicolin toxicity, Chromosome Breakage genetics, Chromosome Fragile Sites genetics, Chromosomes, Human genetics, DNA Replication genetics, Interphase physiology, Oxazoles toxicity

Abstract

Various studies suggest a tight relationship between chromosome rearrangements driving tumor progression and breaks at loci called common fragile sites. Most of these sites are induced after perturbation of the replication dynamics, notably by aphidicolin treatment. We have mapped the majority of these sites to the interface of R and G bands, which calls into question the previous assignment of aphidicolin-sensitive sites to R bands. This observation suggests that most of them correspond to loci that ensure the transition between early and late replicating domains. We show that calyculin A, which triggers chromosome condensation at any phase of the cell cycle but does not markedly impair replication, induces damage in the chromosomes of human lymphocytes treated in G(2) but not in G(1) phase. We demonstrate that these lesions colocalize with those induced by aphidicolin treatment. Hence, common fragile site stability is compromised, whether aphidicolin delays replication or calyculin A advances condensation. We also show that, in cells that go through an unperturbed S phase, completion of their replication and/or replication-associated chromatin reorganization occur all along the G(2) phase, which may explain their inability to condense properly after calyculin A treatment during this phase of the cell cycle.

Published

2005

368. Preferential binding of a G-quadruplex ligand to human chromosome ends.

Author

Granotier C, Pennarun G, Riou L, Hoffschir F, Gauthier LR, De Cian A, Gomez D, Mandine E, Riou JF, Mergny JL, Mailliet P, Dutrillaux B, and Boussin FD

Subjects

Binding Sites, Cell Line, Tumor, Cells, Cultured, Chromosomes, Human metabolism, DNA chemistry, G-Quadruplexes, Guanine chemistry, Humans, Ligands, Lymphocytes ultrastructure, Metaphase, Pyridines chemistry, Quinolines chemistry, Telomere metabolism, Chromosomes, Human chemistry, DNA metabolism, Pyridines metabolism, Quinolines metabolism, Telomere chemistry

Abstract

The G-overhangs of telomeres are thought to adopt particular conformations, such as T-loops or G-quadruplexes. It has been suggested that G-quadruplex structures could be stabilized by specific ligands in a new approach to cancer treatment consisting in inhibition of telomerase, an enzyme involved in telomere maintenance and cell immortality. Although the formation of G-quadruplexes was demonstrated in vitro many years ago, it has not been definitively demonstrated in living human cells. We therefore investigated the chromosomal binding of a tritiated G-quadruplex ligand, 3H-360A (2,6-N,N'-methyl-quinolinio-3-yl)-pyridine dicarboxamide [methyl-3H]. We verified the in vitro selectivity of 3H-360A for G-quadruplex structures by equilibrium dialysis. We then showed by binding experiments with human genomic DNA that 3H-360A has a very potent selectivity toward G-quadruplex structures of the telomeric 3'-overhang. Finally, we performed autoradiography of metaphase spreads from cells cultured with 3H-360A. We found that 3H-360A was preferentially bound to chromosome terminal regions of both human normal (peripheral blood lymphocytes) and tumor cells (T98G and CEM1301). In conclusion, our results provide evidence that a specific G-quadruplex ligand interacts with the terminal ends of human chromosomes. They support the hypothesis that G-quadruplex ligands induce and/or stabilize G-quadruplex structures at telomeres of human cells.

Published

2005

369. Ductal breast carcinoma develops through different patterns of chromosomal evolution.

Author

Molist R, Gerbault-Seureau M, Sastre-Garau X, Sigal-Zafrani B, Dutrillaux B, and Muleris M

Subjects

Aged, Aged, 80 and over, Breast Neoplasms genetics, Carcinoma, Ductal genetics, Female, Humans, Middle Aged, Nucleic Acid Hybridization, Biological Evolution, Breast Neoplasms pathology, Carcinoma, Ductal pathology, Chromosomes

Abstract

In a previous study that used comparative genomic hybridization (CGH) to analyze 43 ductal breast carcinomas selected for hyperdiploidy, we proposed the existence of two distinct pathways of chromosomal evolution. In the present study, in which we reassessed our cytogenetic findings on 158 ductal breast carcinomas selected for having a modal number of chromosomes of fewer than 60, we confirmed the existence of two subtypes of tumors. Along with the great majority of tumors (142 of 158) that evolved through structural rearrangements with no or very few whole-chromosome gains, we found that a minor subset (16 of 158) evolved through progressive gains of whole chromosomes with no or only a few associated rearrangements. In this article, we describe the karyotypes of these 16 tumors together with data from CGH, which was performed for 10 of them. Chromosomes 5, 7, 8, and 20 were the most frequently gained. Our findings support the evidence of a new pathway of chromosomal evolution in a small subset of ductal breast carcinomas characterized by numerical chromosome aberrations., (Copyright 2005 Wiley-Liss, Inc.)

Published

2005

370. Quantitative fish determination of chromosome 3 arm imbalances in lung tumors by automated image cytometry.

Author

Truong K, Gibaud A, Zalcman G, Guilly MN, Antoine M, Commo F, Fouquet C, Cadranel J, Soussi T, Dutrillaux B, and Malfoy B

Subjects

Cell Transformation, Neoplastic genetics, Chromosomal Instability genetics, Cohort Studies, Female, Humans, Lung Neoplasms genetics, Male, Mutation, Chromosomes, Human, Pair 3 genetics, Image Cytometry methods, In Situ Hybridization, Fluorescence, Lung Neoplasms diagnosis

Abstract

Background: Clonal heterogeneity is a major difficulty in the analysis of chromosome rearrangements within tumor tissue. Using in situ hybridization, a cell-to-cell analysis can be performed and should allow a better understanding of the genetic process. In addition, detection of pre-neoplastic lesions with only a few cells involved may improve the diagnosis of such lesions and their precocious treatment., Material/methods: Automated analysis was performed on tissue sections with our previously described two-color fluorescence in situ hybridization-based method for quantitative determination of chromosome arm imbalance. The imbalance between the long and short arms of chromosome 3 was determined in 24 cases of non-small-cell and small-cell lung cancers in which only small snap-frozen sections were used, allowing other simultaneous molecular analyses, such as TP53 gene mutation detection., Results: Specifically developed software allowed localization of each nucleus within the section with regard to its chromosome imbalance and to reconstitute a multi-clonal panel within an apparently homogeneous sample. In some cases, discrepancies in the imbalance values were observed between the biopsy and the tumor obtained after surgery from the same patient., Conclusions: The discrepancies observed between biopsies and tumors, likely linked to the samples' heterogeneity, demonstrate the necessity to analyze tissue sections collected at various locations. The fully automated approach developed in this study rendered such investigations possible.

Published

2004

371. Gamma-H2AX expression pattern in non-irradiated neonatal mouse germ cells and after low-dose gamma-radiation: relationships between chromatid breaks and DNA double-strand breaks.

Author

Forand A, Dutrillaux B, and Bernardino-Sgherri J

Subjects

Animals, Animals, Newborn, Azure Stains, Dose-Response Relationship, Radiation, Gamma Rays, Gene Expression radiation effects, Male, Metaphase, Mice, Mice, Inbred Strains, Sister Chromatid Exchange radiation effects, Spermatogenesis genetics, Spermatogenesis radiation effects, Spermatogonia physiology, Chromatids radiation effects, Chromosome Aberrations, DNA radiation effects, Histones genetics, Spermatogonia radiation effects

Abstract

The DNA double-strand breaks (DSBs) are considered to be the most relevant lesions for the deleterious effects of ionizing radiation exposure. The discovery that the induction of DSBs is rapidly followed by the phosphorylation of H2AX histone at Ser-139, favoring repair protein recruitment or access, opens the possibility for a wide range of research. This phosphorylated histone, named gamma-H2AX, has been shown to form foci in interphase nuclei as well as megabase chromatin domains surrounding the DNA lesion on chromosomes. Using detection of gamma-H2AX on germ cell mitotic chromosomes 2 h after gamma-irradiation, we studied radiation-induced DSBs during the G(2)/M phase of the cell cycle. We show that 1) non-irradiated neonatal germ cells express gamma-H2AX with variable patterns at metaphase, 2) gamma-irradiation induces foci whose number increases in a dose-dependent manner, 3) some foci correspond to visible chromatid breaks or exchanges, 4) sticky chromosomes characterizing cell radiation exposure during mitosis are a consequence of DSBs, and 5) gamma-H2AX remains localized at the sites of the lesions even after end-joining has taken place. This suggests that completion of DSB repair does not necessarily imply disappearance of gamma-H2AX.

Published

2004

372. Comparative genomic hybridization analysis of hereditary swine cutaneous melanoma revealed loss of the swine 13q36-49 chromosomal region in the nodular melanoma subtype.

Author

Apiou F, Vincent-Naulleau S, Spatz A, Vielh P, Geffrotin C, Frelat G, Dutrillaux B, and Le Chalony C

Subjects

Animals, Chromosomes, Human, Pair 13, Chromosomes, Human, Pair 3, Female, Humans, Male, Melanoma pathology, Nucleic Acid Hybridization, Skin Neoplasms pathology, Swine, Chromosome Deletion, Melanoma genetics, Skin Neoplasms genetics

Abstract

Genetic alterations implicated in malignant melanoma are still poorly understood. Malignant melanomas present highly variable histologic and cytologic patterns. The aim of the present study is to define genomic imbalances associated with the development of 2 histologic types of swine hereditary cutaneous melanoma. We have investigated 11 swine tumors by comparative genomic hybridization (CGH), 4 superficial spreading melanomas (SSMs) and 7 nodular melanomas (NMs). Following laser capture microdissection and degenerate oligonucleotide primed-polymerase chain reaction, we were able to isolate and then amplify DNA from the 2 histologic subtypes. Consensus regions of chromosome gains were identified on both histologic subtypes, on swine chromosomes 3p13-p17 (75% of the SSMs and 71% of the NMs), 12q (100% of the SSMs and 57% of the NMs) and 14q11-q21 (75% of the SSMs and 42% of NMs). Chromosomal loss was restricted to NM lesions and the swine 13q36-49 region was lost in 100% of the NMs. Interphase fluorescence in situ hybridization with a probe mapping to the 13q41-q42 region indicates loss of the corresponding region on NM lesions. Taking into account this CGH analysis and the comparative genomic data between swine and human genomes, we suggest that a role for the human chromosomes 3p11-qter and chromosome 21 losses should be investigated in human nodular melanoma progression., (Copyright 2004 Wiley-Liss, Inc.)

Published

2004

373. Homophilic anchorage of brain-hexokinase to mitochondria-porins revealed by specific-peptide antibody cross recognition.

Author

Oudard S, Miccoli L, Beurdeley-Thomas A, Dutrillaux B, and Poupon MF

Subjects

Amino Acid Sequence, Animals, Antibody Specificity, Binding Sites, Cross Reactions, Dicyclohexylcarbodiimide pharmacology, Enzyme-Linked Immunosorbent Assay, Epitopes immunology, Glycolysis, Hexokinase genetics, Hexokinase immunology, Mitochondria drug effects, Peptide Fragments immunology, Peptide Fragments metabolism, Porins immunology, Rats, Voltage-Dependent Anion Channels, Antibodies metabolism, Brain enzymology, Hexokinase metabolism, Mitochondria metabolism, Porins metabolism

Abstract

In brain tumors the main source of energy is from glycolysis, which is initiated by hexokinase 1 (HK1), an enzyme bound to the mitochondrial porin. Disruption of HK binding greatly affects tumor cell survival. Little is known about the acceptor site of HK1. Therefore, a polyclonal antibody (Pab) directed to MIAAQLLAYYFTELK (MK) peptide, corresponding to the 15-amino acids of the N-terminal sequence of brain HK1 was obtained. Anti MK antibody (aMK-Pab)bound specifically to HK as shown by ELISA. The aMK-Pab binding to MK peptide was antibody-concentration dependent and was completely abolished by its preincubation with the peptide at 6 x 10-8 M. The aMK-Pab recognized cytosolic HK (cHK) and HK solubilized (sHK)from rat-brain mitochondrial preparations, but not the yeast HK which does not have the MK sequence. An anti-brain HK Pab (aHK-Pab) directed to purified HK recognized the MK peptide; aHK-Pab bound to MK and this binding was inhibited by preincubation of the antibody with the MK peptide. It was previously demonstrated that brain HK anchors to mitochondria porins, also designated as voltage dependent-anion channels (VDAC) via the MK sequence. A specific anti-VDAC antibody (aVDAC-Pab) which specifically bound the N and C-terminal sequences of VDACwas found to bind to c-HK, sHK and MK-coated wells and this binding was abolished by aVDACPabpreincubation with MK peptide. These data suggest that the three Pabs cross-react with an epitope present in HK and VDAC, and which was presented in the MK peptide. Comparison of alignment of HK or VDAC sequences, available in the protein data bank (PDB), did not allow putative homologues responsible for the cross-reaction to be identified, suggesting that the epitope is conformational. This, added to inhibition of mitochondria-isolated HK binding by the MK peptide,suggests that there is an homophilic-type interaction between HK and porin, through a peptidic structure represented at least in part in the MK peptide.

Published

2004

374. Potential rapid assessment of breast cancer prognosis using induced chromosome condensation performed on cytological specimens.

Author

Molist R, Gerbault-Seureau M, Klijanienko J, Vielh P, and Dutrillaux B

Subjects

Adult, Aged, Aged, 80 and over, Breast Neoplasms chemistry, Breast Neoplasms pathology, Chromosome Painting, Female, Humans, Middle Aged, Neoplasm Staging, Prognosis, Receptors, Estrogen analysis, Breast Neoplasms genetics, Chromosome Aberrations

Abstract

We have previously shown that assessment of chromosome alteration rate by cytogenetics is well correlated with breast cancer prognosis factors. As karyotypes are usually difficult to obtain from solid tumors using conventional methods, a new approach is proposed. Metaphase-like chromosomes were directly obtained following chromosome condensation using calyculin A (okadaic acid) from cytologic specimens of breast cancers sampled by fine needle. Chromosome counts and rearrangement rates were established in a series of 45 tumors, as early as 24-48 h after sampling. A high rate of rearranged chromosomes was found to correlate with high histological grade, TNM stage and S-phase fraction, loss of estrogen receptor expression and DNA aneuploidy. The indication of genome alteration provided by this method constitutes a simple, potent and early potential prognostic factor in breast cancer directly applied on cytological specimens.

Published

2004

375. Segmental duplications in euchromatic regions of human chromosome 5: a source of evolutionary instability and transcriptional innovation.

Author

Courseaux A, Richard F, Grosgeorge J, Ortola C, Viale A, Turc-Carel C, Dutrillaux B, Gaudray P, and Nahon JL

Subjects

Animals, Chromosome Mapping, Genetic Markers genetics, Genetic Variation genetics, Humans, Multigene Family genetics, Primates genetics, Chromosome Fragility genetics, Chromosomes, Human, Pair 5 genetics, Euchromatin genetics, Evolution, Molecular, Gene Duplication, Transcription, Genetic genetics

Abstract

Recent analyses of the structure of pericentromeric and subtelomeric regions have revealed that these particular regions of human chromosomes are often composed of blocks of duplicated genomic segments that have been associated with rapid evolutionary turnover among the genomes of closely related primates. In the present study, we show that euchromatic regions of human chromosome 5-5p14, 5p13, 5q13, 5q15-5q21-also display such an accumulation of segmental duplications. The structure, organization and evolution of those primate-specific sequences were studied in detail by combining in silico and comparative FISH analyses on human, chimpanzee, gorilla, orangutang, macaca, and capuchin chromosomes. Our results lend support to a two-step model of transposition duplication in the euchromatic regions, with a founder insertional event at the time of divergence between Platyrrhini and Catarrhini (25-35 million years ago) and an apparent burst of inter- and intrachromosomal duplications in the Hominidae lineage. Furthermore, phylogenetic analysis suggests that the chronology and, likely, molecular mechanisms, differ regarding the region of primary insertion-euchromatic versus pericentromeric regions. Lastly, we show that as their counterparts located near the heterochromatic region, the euchromatic segmental duplications have consistently reshaped their region of insertion during primate evolution, creating putative mosaic genes, and they are obvious candidates for causing ectopic rearrangements that have contributed to evolutionary/genomic instability.

Published

2003

376. Recurrent allelic deletions at mouse chromosomes 4 and 14 in Myc-induced liver tumors.

Author

Wu Y, Renard CA, Apiou F, Huerre M, Tiollais P, Dutrillaux B, and Buendia MA

Subjects

Adenoma, Liver Cell etiology, Adenoma, Liver Cell genetics, Animals, Carcinoma, Hepatocellular etiology, Chromosome Mapping, Cytoskeletal Proteins genetics, DNA Mutational Analysis, DNA, Neoplasm analysis, Flow Cytometry, Hepatitis B Virus, Woodchuck genetics, Liver Neoplasms, Experimental etiology, Mice, Mice, Inbred C57BL, Mice, Transgenic, Microscopy, Fluorescence, Nucleic Acid Hybridization, Ploidies, beta Catenin, Carcinoma, Hepatocellular genetics, Genes, myc, Liver Neoplasms, Experimental genetics, Loss of Heterozygosity, Trans-Activators

Abstract

Transgenic mice expressing the c-Myc oncogene driven by woodchuck hepatitis virus (WHV) regulatory sequences develop hepatocellular carcinoma with a high frequency. To investigate genetic lesions that cooperate with Myc in liver carcinogenesis, we conducted a genome-wide scan for loss of heterozygosity (LOH) and mutational analysis of beta-catenin in 37 hepatocellular adenomas and carcinomas from C57BL/6 x castaneus F1 transgenic mice. In a subset of these tumors, chromosome imbalances were examined by comparative genomic hybridization (CGH). Allelotyping with 99 microsatellite markers spanning all autosomes revealed allelic imbalances at one or more chromosomes in 83.8% of cases. The overall fractional allelic loss was rather low, with a mean index of 0.066. However, significant LOH rates involved chromosomes 4 (21.6% of tumors), 14, 9 and 1 (11 to 16%). Interstitial LOH on chromosome 4 was mapped at band C4-C7 that contains the INK4a/ARF and INK4b loci, and on chromosome 14 at band B-D including the RB locus. In man, the homologous chromosomal regions 9p21, 13q14 and 8p21-23 are frequently deleted in liver cancer. LOH at chromosomes 1 and 14, and beta-catenin mutations (12.5% of cases) were seen only in HCCs. All tumors examined were found to be aneuploid. CGH analysis of 10 representative cases revealed recurrent gains at chromosomes 16 and 19, but losses or deletions involving mostly chromosomes 4 and 14 generally prevailed over gains. Thus, Myc activation in the liver might select for inactivation of tumor suppressor genes on regions of chromosomes 4 and 14 in a context of low genomic instability. Myc transgenic mice provide a useful model for better defining crosstalks between oncogene and tumor suppressor pathways in liver tumorigenesis.

Published

2002

377. [Update in radiation-induced neoplasms: genetic studies].

Author

Chauveinc L, Lefevre S, Malfoy B, and Dutrillaux B

Subjects

Age Factors, Chromosome Mapping, DNA radiation effects, DNA Damage, Dose-Response Relationship, Radiation, Humans, Karyotyping, Leukemia, Radiation-Induced genetics, Meningioma genetics, Risk, Thyroid Neoplasms genetics, Neoplasms, Radiation-Induced genetics

Abstract

Radiation induced tumors are a possible (very) late complications of radiotherapy. The evaluation of the risks of radiation-induced tumors has been presented in different epidemiological studies, with the evaluation of the relative risk for different tissues. But, the genetic studies are rare, and no global theory exists. Two cytogenetic profiles are described, one with translocations and one with genetic material losses, evoking two different genetic evolutions. Two questions are stated. What are the radiation-induced genetic mechanisms? Is it possible to differentiate the radiation-induced and spontaneous tumors with genetic approaches? With 37 cytogenetic cases, 12 analyzed in our laboratory, the radiation-induced tumors were characterized by genetic material losses. An anti-oncogenic evolution is probable. A new molecularly study confirm these results. Only thyroid tumors do not have this evolution. For tumors with simple karyotype, like meningioma, radiation-induced tumors seem to be more complex than spontaneous tumors. But for the others, the differentiation is impossible to be done with cytogenetic. The mechanism of the chromosomic material losses in unknown, but some hypothesis are discussed.

Published

2002

378. Chromosomal evolution of the Hapalemur griseus subspecies (Malagasy Prosimian), including a new chromosomal polymorphic cytotype.

Author

Rumpler Y, Prosper, Hauwy M, Rabarivola C, Rakotoarisoa G, and Dutrillaux B

Subjects

Animals, Chromosome Banding, Chromosomes, Evolution, Molecular, Female, Heterochromatin, Karyotyping, Male, Translocation, Genetic, Lemuridae genetics

Abstract

A cytogenetic study has been performed on Hapalemur griseus caught in different locations of the eastern and northern forests of Madagascar. This allowed the determination of the more precise distribution areas of the different subspecies and the isolation of a new cytogenetic polymorphic subspecies of H. griseus. The chromosomal changes distinguishing the different subspecies are Robertsonian translocations and gain of heterochromatin. The phylogeny established on chromosome comparison is compatible with the geographic distribution of the subspecies.

Published

2002