Étude de l'inactivation des kinétochores à l'aide de deux isodicentriques du bras long du chromosome Y caractérisés par les techniques de cytogénétique

La cytogénétique est une branche de la génétique qui étudie les chromosomes et leur intégrité ainsi que les conséquences de leur transmission et de leur expression. Plusieurs syndromes et maladies ont pu être expliqués par cette discipline. Certaines anomalies chromosomiques de structure ont d'ailleurs contribué à identifier des gènes, des fonctions de gènes ou à caractériser des structures chromosomiques. Dans cet ordre d'idées, nous avons utilisé deux isodicentriques du bras long du chromosome Y (idic(Y)(p11.3)) pour étudier la fonction d'une protéine du kinétochore, CENP-B, dans le mécanisme d'inactivation de kinétochore. Pour ce faire, nous avons premièrement fait une caractérisation cytogénétique des deux idic(Y)(p11.3) à l'aide des techniques de cytogénétique classique et de cytogénétique moléculaire. Nous avons ainsi déterminé approximativement le point de cassure des deux isodicentriques, soit en Yp11.3. Comme les deux chromosomes avaient une structure très semblable, mais que les patients présentaient un phénotype clinique très différent, nous avons investigué les niveaux de mosaïcisme dans différents tissus chez les deux patients. Il est connu qu'un chromosome possédant deux centromères capables de former le kinétochore peut être très instable lors des divisions cellulaires. Ainsi, la cellule a mis au point un mécanisme permettant d'inactiver un des kinétochores du chromosome dicentrique. Une récente revue a proposé que la protéine CENP-B jouerait un rôle dans ce mécanisme. Cependant, comme le chromosome Y ne possède pas la séquence d'ADN liant cette protéine, il était intéressant de vérifier si une inactivation des kinétochores avait eu lieu dans nos idic(Y)(p11.3). À l'aide d'un anticorps dirigé contre la protéine CENP-C, connue comme un marqueur de kinétochore actif, nous avons montré que plus de 40% des chromosomes dicentriques avaient subi une inactivation d'un de leur kinétochore. Enfin, la présence de la protéine CENP-B dans ces kinétochores a été étudiée. Nous avons montré que la protéine CENP-B était présente à tous les autres centromères, sauf ceux de l'idic(Y)(p11.3). Ainsi, nous proposons que la protéine CENP-B n'est pas impliquée directement dans le mécanisme d'inactivation de kinétochore du chromosome Y. Par contre, nous ne pouvons pas exclure qu'elle joue un rôle indirect, soit par une interaction protéine/protéine, soit à une étape en amont dans le mécanisme d'inactivation

Mesenchymal Stromal Cell Therapy in Ischemia/Reperfusion Injury.

Ischemia/reperfusion injury (IRI) represents a worldwide public health issue of increasing incidence. IRI may virtually affect all organs and tissues and is associated with significant morbidity and mortality. Particularly, the duration of blood supply deprivation has been recognized as a critical factor in stroke, hemorrhagic shock, or myocardial infarction, as well as in solid organ transplantation (SOT). Pathophysiologically, IRI causes multiple cellular and tissular metabolic and architectural changes. Furthermore, the reperfusion of ischemic tissues induces both local and systemic inflammation. In the particular field of SOT, IRI is an unavoidable event, which conditions both short- and long-term outcomes of graft function and survival. Clinically, the treatment of patients with IRI mostly relies on supportive maneuvers since no specific target-oriented therapy has been validated thus far. In the present review, we summarize the current literature on mesenchymal stromal cells (MSC) and their potential use as cell therapy in IRI. MSC have demonstrated immunomodulatory, anti-inflammatory, and tissue repair properties in rodent studies and in preliminary clinical trials, which may open novel avenues in the management of IRI and SOT

Efficiency of Manual Scanning in Recovering Rare Cellular Events Identified by Fluorescence In Situ Hybridization: Simulation of the Detection of Fetal Cells in Maternal Blood

Fluorescence in situ hybridization (FISH) and manual scanning is a widely used strategy for retrieving rare cellular events such as fetal cells in maternal blood. In order to determine the efficiency of these techniques in detection of rare cells, slides of XX cells with predefined numbers (1–10) of XY cells were prepared. Following FISH hybridization, the slides were scanned blindly for the presence of XY cells by different observers. The average detection efficiency was 84% (125/148). Evaluation of probe hybridization in the missed events showed that 9% (2/23) were not hybridized, 17% (4/23) were poorly hybridized, while the hybridization was adequate for the remaining 74% (17/23). In conclusion, manual scanning is a relatively efficient method to recover rare cellular events, but about 16% of the events are missed; therefore, the number of fetal cells per unit volume of maternal blood has probably been underestimated when using manual scanning

Genome-Wide Mapping of DNA Strand Breaks

Determination of cellular DNA damage has so far been limited to global assessment of genome integrity whereas nucleotide-level mapping has been restricted to specific loci by the use of specific primers. Therefore, only limited DNA sequences can be studied and novel regions of genomic instability can hardly be discovered. Using a well-characterized yeast model, we describe a straightforward strategy to map genome-wide DNA strand breaks without compromising nucleotide-level resolution. This technique, termed “damaged DNA immunoprecipitation” (dDIP), uses immunoprecipitation and the terminal deoxynucleotidyl transferase-mediated dUTP-biotin end-labeling (TUNEL) to capture DNA at break sites. When used in combination with microarray or next-generation sequencing technologies, dDIP will allow researchers to map genome-wide DNA strand breaks as well as other types of DNA damage and to establish a clear profiling of altered genes and/or intergenic sequences in various experimental conditions. This mapping technique could find several applications for instance in the study of aging, genotoxic drug screening, cancer, meiosis, radiation and oxidative DNA damage

Genome-wide mapping of DNA double-strand breaks during spermatid chromatin remodeling and development of associated tools

Résumé : La phase haploïde de la spermatogenèse (spermiogenèse) est caractérisée par une modification importante de la structure de la chromatine et un changement de la topologie de l’ADN du spermatide. Les mécanismes par lesquels ce changement se produit ainsi que les protéines impliquées ne sont pas encore complètement élucidés. Mes travaux ont permis d’établir la présence de cassures bicaténaires transitoires pendant ce remodelage par l’essai des comètes et l’électrophorèse en champ pulsé. En procédant à des immunofluorescences sur coupes de tissus et en utilisant un extrait nucléaire hautement actif, la présence de topoisomérases ainsi que de marqueurs de systèmes de réparation a été confirmée. Les protéines de réparation identifiées font partie de systèmes sujets à l’erreur, donc cette refonte structurale de la chromatine pourrait être génétiquement instable et expliquer le biais paternel observé pour les mutations de novo dans de récentes études impliquant des criblages à haut débit. Une technique permettant l’immunocapture spécifique des cassures bicaténaires a été développée et appliquée sur des spermatides murins représentant différentes étapes de différenciation. Les résultats de séquençage à haut débit ont montré que les cassures bicaténaires (hotspots) de la spermiogenèse se produisent en majorité dans l’ADN intergénique, notamment dans les séquences LINE1, l’ADN satellite et les répétions simples. Les hotspots contiennent aussi des motifs de liaisons des protéines des familles FOX et PRDM, dont les fonctions sont entre autres de lier et remodeler localement la chromatine condensée. Aussi, le motif de liaison de la protéine BRCA1 se trouve enrichi dans les hotspots de cassures bicaténaires. Celle-ci agit entre autres dans la réparation de l’ADN par jonction terminale non-homologue (NHEJ) et dans la réparation des adduits ADN-topoisomérase. De façon remarquable, le motif de reconnaissance de la protéine SPO11, impliquée dans la formation des cassures méiotiques, a été enrichi dans les hotspots, ce qui suggère que la machinerie méiotique serait aussi utilisée pendant la spermiogenèse pour la formation des cassures. Enfin, bien que les hotspots se localisent plutôt dans les séquences intergéniques, les gènes ciblés sont impliqués dans le développement du cerveau et des neurones. Ces résultats sont en accord avec l’origine majoritairement paternelle observée des mutations de novo associées aux troubles du spectre de l’autisme et de la schizophrénie et leur augmentation avec l’âge du père. Puisque les processus du remodelage de la chromatine des spermatides sont conservés dans l’évolution, ces résultats suggèrent que le remodelage de la chromatine de la spermiogenèse représente un mécanisme additionnel contribuant à la formation de mutations de novo, expliquant le biais paternel observé pour certains types de mutations.Abstract : Germline mutations may arise from several endogenous and exogenous mechanisms in both male and female. However, recent next-generation sequencing (NGS) data confirmed that de novo mutations arise primarily in males. This observation suggests that specific spermatogenesis events are involved in the male mutation bias. One potential origin for male-driven mutations is the differentiation of spermatids into spermatozoa, which involves one of the most striking and global chromatin remodeling processes, where histone-bound chromatin is converted into highly condensed protaminated DNA toroid. Using pulse-field gel electrophoresis and comet assay on flow cytometry sorted cells, it was established that chromatin remodeling process is characterized by a transient surge in DNA double strand breaks (DSBs) in the whole population of murine spermatids, which get repaired by the end of spermiogenesis. Using a highly active nuclear extract and immunofluorescences, topoisomerases and markers of DNA repair systems were shown at these steps. Since haploid cells cannot rely on homologous recombination for templated DNA repair, it was hypothesized that this process may be genetically unstable and largely responsible for the observed male de novo mutations bias. Although very challenging, a method allowing the specific genome-wide mapping of DSBs using NGS was developed to establish the genomic distribution of DSBs during chromatin remodeling. It was shown that intergenic regions were enriched in DSBs, particularly LINE1, satellite DNA and simple repeats. Motif finding on potential hotspots showed that proteins from FOX and PRDM families may be implicated. Although homologous recombination cannot take place during spermiogenesis, an enrichment in BRCA1 motif was found, which is also known to be implicated in NHEJ and removal of topoisomerase adducts. Topoisomerase-like SPO11 motif was also enriched suggesting that the meiotic machinery may also be implicated during chromatin remodeling. Moreover, although DSBs tend to accumulate in intergenic regions, gene ontology analysis of hotspot-containing genes showed a marked enrichment in genes related to neurons and brain development. This result hence supports the fact that neurological disease associated mutations are also male biased and associated with advanced paternal age. Since DSB formation during spermiogenesis is conserved through evolution, these results suggest that chromatin remodeling in spermatids represents a significant component in the reported male de novo mutation bias

Identification of Metabolomic Biomarkers for Endometrial Cancer and Its Recurrence after Surgery in Postmenopausal Women

Endometrial cancer (EC) is the most frequent gynecological cancer in developed countries. Most EC occurs after menopause and is diagnosed as endometrioid (type I) carcinomas, which exhibit a favorable prognosis. In contrast, non-endometrioid (type II) carcinomas such as serous tumors have a poor prognosis. Our goal was to identify novel blood-based markers associated with EC subtypes and recurrence after surgery in postmenopausal women. Using mass spectrometry-based untargeted metabolomics, we examined preoperative serum metabolites among control women (n = 18) and those with non-recurrent (NR) and recurrent (R) cases of type I endometrioid (n = 24) and type II serous (n = 12) carcinomas. R and NR cases were similar with respect to pathological characteristics, body mass index, and age. A total of 1,592 compounds were analyzed including 14 different lipid classes. When we compared EC cases with controls, 137 metabolites were significantly different. A combination of spermine and isovalerate resulted in an age-adjusted area under the receiver-operating characteristic curve (AUCadj) of 0.914 (P < 0.001) for EC detection. The combination of 2-oleoylglycerol and TAG42:2-FA12:0 allowed the distinction of R cases from NR cases with an AUCadj of 0.901 (P < 0.001). Type I R cases were also characterized by much lower levels of bile acids and elevated concentrations of phosphorylated fibrinogen cleavage peptide, whereas type II R cases displayed higher levels of ceramides. The findings from our pilot study provide a detailed metabolomics study of EC and identify putative serum biomarkers for defining clinically relevant risk groups

Information and decision-making process for selective termination of dichorionic pregnancies: some French obstetricians' points of view.

International audienceBACKGROUND: In France, neither Bioethics Law nor law related to abortion make reference to selective terminations (ST). Because they apply in the context of multiple pregnancies, ST raises problems which differ from those we usually see in prenatal medicine.We wanted to know: 1) which approaches were used by obstetricians to inform couples about processes and risks of ST, 2) their role in the decision-making process of couples, and 3) their representations about the level of autonomy that couples are able to assume. METHODS: Qualitative research, eight semi-structured interviews performed with eight obstetricians from seven public hospitals in Parisian region. RESULTS: Similarities: *Necessity to devote a lot of time to information. *Importance to give the couples the maximum of time for reflection. *Belief that the final decision belongs to couples. Discordances: *Heterogeneity of revealed information. *Discrepancy in the will to assure a complete and non directive information transfer. *Divergence in representations of what is an ethical support. *Differences in the limits of the autonomy of couples. CONCLUSIONS: All physicians believe that they respect the autonomy of couples, arguing that final decision belongs to them. Paradoxically, some results are indicative of a sizeable level of directiveness from the physicians

[Intracranial Plasmacytoma Symptomatic of Multiple-myeloma - Case-report]

Neurological complications of myeloma are multiple and various. Cranial and intracranial locations have been rarely reported. They can be classified into three clinical groups : (1) cranial nerve palsies se to single or multiple lesions in the base of the skull, (2) intraorbital tumors, (3) intracranial tumors, either cranial myeloma extending intracranially or pure intracranial tumor (dural and/or cerebral). In our case, macroscopic and microscopic examination of the brain showed dural and cerebral involvement, confirmed by immunohistochemical studies. The radiological features are discussed (CT scan, MRI, angiography) To our knowledge, a single report of intracranial plasmacytoma documented by MRI has been reported in the literature