Neutral Comet Assay

The Comet assay (or Single Cell Gel Electrophoresis assay) is a sensitive technique to detect DNA damage at the level of an individual cell. This technique is based on micro-electrophoresis of cells DNA content. Briefly, cells are embedded in agarose, lysed and submitted to an electric field, before the staining step with a fluorescent DNA binding dye. Damaged DNA (charged DNA) migrates in this field, forming the tail of a “comet”, while undamaged DNA remained in the head of the “comet”. The following document describes the protocol to realize a neutral comet assay. This assay can be applied to different cell types and has been useful for numerous applications in fields of toxicology or DNA damage and repair

The DNA polymerase λ is required for the repair of non-compatible DNA double strand breaks by NHEJ in mammalian cells

DNA polymerase lambda (polλ) is a recently identified DNA polymerase whose cellular function remains elusive. Here we show, that polλ participates at the molecular level in a chromosomal context, in the repair of DNA double strand breaks (DSB) via non-homologous end joining (NHEJ) in mammalian cells. The expression of a catalytically inactive form of polλ (polλDN) decreases the frequency of NHEJ events in response to I-Sce-I-induced DSB whereas inactivated forms of its homologues polβ and polμ do not. Only events requiring DNA end processing before ligation are affected; this defect is associated with large deletions arising in the vicinity of the induced DSB. Furthermore, polλDN-expressing cells exhibit increased sensitization and genomic instability in response to ionizing radiation similar to that of NHEJ-defective cells. Our data support a requirement for polλ in repairing a subset of DSB in genomic DNA, thereby contributing to the maintenance of genetic stability mediated by the NHEJ pathway

La globalización y el malestar en la democracia

El origen de este texto es una conferencia en el VII Congreso de la FES (Salamanca, 20-22 de septiembre de 2001) con el título "Estados, mercados y ciudadanía". Publicado en: Revista Internacional de Filosofía Política, 20: 5-24, 2002.En años recientes se ha convertido en un lugar común la idea de que los ciudadanos de los países democráticos, independientemente de que apoyen esta forma de gobierno por encima de cualquier otra, otorgan un nivel de confianza muy bajo a las instituciones de la democracia representativa, desde los partidos y los parlamentos hasta los gobiernos (Nye et al., 1997; Norris, 1999; Pharr y Putnam, 2000). En América Latina, además, los alarmantes resultados del Latinobarómetro de 2001 (Economist, 2001) hicieron temer que, ante la mala marcha de la economía, la insatisfacción de los ciudadanos pudiera conducir de forma imparable a la erosión del apoyo a la propia democracia.Proyecto Desconfianza Política y Gobernación Democrática (BSO2000- 1082) del Plan Nacional de I+D (Ministerio de Ciencia y Tecnología, España)Peer reviewe

Characterization of a Natural Mutator Variant of Human DNA Polymerase l which Promotes Chromosomal Instability by Compromising NHEJ

PLoS ONE 4(10): e7290.Background: DNA polymerase lambda (Poll) is a DNA repair polymerase, which likely plays a role in base excision repair (BER) and in non-homologous end joining (NHEJ) of DNA double-strand breaks (DSB). Principal Findings: Here, we described a novel natural allelic variant of human Poll (hPoll) characterized by a single nucleotide polymorphism (SNP), C/T variation in the first base of codon 438, resulting in the amino acid change Arg to Trp. In vitro enzyme activity assays of the purified W438 Poll variant revealed that it retained both DNA polymerization and deoxyribose phosphate (dRP) lyase activities, but had reduced base substitution fidelity. Ectopic expression of the W438 hPoll variant in mammalian cells increases mutation frequency, affects the DSB repair NHEJ pathway, and generates chromosome aberrations. All these phenotypes are dependent upon the catalytic activity of the W438 hPoll. Conclusions: The expression of a cancer-related natural variant of one specialized DNA polymerase can be associated to generic instability at the cromosomal level, probably due a defective NHEJ. These results establish that chromosomal aberrations can result from mutations in specialized DNA repair polymerases.This work was supported by Ministerio de Ciencia y Tecnologia Grants BFU2006-14390/BMC, CONSOLIDER CSD2007-00015 and Comunidad Autonoma de Madrid Grants P2006/BIO-0306 to L.B., by INCa ‘‘Checkpol’’, ARC, and ‘‘Ligue contre le Cancer (Region Midi-Pyrenees)’’ to J-S.H., by the Division of Intramural Research, NIEHS, NIH, DHHS to T.A.K., by SAF2002-02265 to A.V., and by an institutional grant to Centro de Biologia Molecular ‘‘Severo Ochoa’’ from Fundacion Ramon Areces. G.T. was recipient of a fellowship from the Ministerio de Educacion y Ciencia. A.V. is an Investigator of the Ramon y Cajal ProgramPeer reviewe

Involvement of DNA polymerase μ in the repair of a specific subset of DNA double-strand breaks in mammalian cells

The repair of DNA double-strand breaks (DSB) requires processing of the broken ends to complete the ligation process. Recently, it has been shown that DNA polymerase μ (polμ) and DNA polymerase λ (polλ) are both involved in such processing during non-homologous end joining in vitro. However, no phenotype was observed in animal models defective for either polμ and/or polλ. Such observations could result from a functional redundancy shared by the X family of DNA polymerases. To avoid such redundancy and to clarify the role of polμ in the end joining process, we generated cells over-expressing the wild type as well as an inactive form of polμ (polμD). We observed that cell sensitivity to ionizing radiation (IR) was increased when either polμ or polμD was over-expressed. However, the genetic instability in response to IR increased only in cells expressing polμD. Moreover, analysis of intrachromosomal repair of the I-SceI-induced DNA DSB, did not reveal any effect of either polμ or polμD expression on the efficiency of ligation of both cohesive and partially complementary ends. Finally, the sequences of the repaired ends were specifically affected when polμ or polμD was over-expressed, supporting the hypothesis that polμ could be involved in the repair of a DSB subset when resolution of junctions requires some gap filling

The E1A-Associated p400 Protein Modulates Cell Fate Decisions by the Regulation of ROS Homeostasis

The p400 E1A-associated protein, which mediates H2A.Z incorporation at specific promoters, plays a major role in cell fate decisions: it promotes cell cycle progression and inhibits induction of apoptosis or senescence. Here, we show that p400 expression is required for the correct control of ROS metabolism. Depletion of p400 indeed increases intracellular ROS levels and causes the appearance of DNA damage, indicating that p400 maintains oxidative stress below a threshold at which DNA damages occur. Suppression of the DNA damage response using a siRNA against ATM inhibits the effects of p400 on cell cycle progression, apoptosis, or senescence, demonstrating the importance of ATM–dependent DDR pathways in cell fates control by p400. Finally, we show that these effects of p400 are dependent on direct transcriptional regulation of specific promoters and may also involve a positive feedback loop between oxidative stress and DNA breaks since we found that persistent DNA breaks are sufficient to increase ROS levels. Altogether, our results uncover an unexpected link between p400 and ROS metabolism and allow deciphering the molecular mechanisms largely responsible for cell proliferation control by p400

Cohesin Protects Genes against γH2AX Induced by DNA Double-Strand Breaks

Chromatin undergoes major remodeling around DNA double-strand breaks (DSB) to promote repair and DNA damage response (DDR) activation. We recently reported a high-resolution map of γH2AX around multiple breaks on the human genome, using a new cell-based DSB inducible system. In an attempt to further characterize the chromatin landscape induced around DSBs, we now report the profile of SMC3, a subunit of the cohesin complex, previously characterized as required for repair by homologous recombination. We found that recruitment of cohesin is moderate and restricted to the immediate vicinity of DSBs in human cells. In addition, we show that cohesin controls γH2AX distribution within domains. Indeed, as we reported previously for transcription, cohesin binding antagonizes γH2AX spreading. Remarkably, depletion of cohesin leads to an increase of γH2AX at cohesin-bound genes, associated with a decrease in their expression level after DSB induction. We propose that, in agreement with their function in chromosome architecture, cohesin could also help to isolate active genes from some chromatin remodelling and modifications such as the ones that occur when a DSB is detected on the genome

The chromatin remodeler p400 ATPase facilitates Rad51-mediated repair of DNA double-strand breaks

DNA damage signaling and repair take place in a chromatin context. Consequently, chromatin-modifying enzymes, including adenosine triphosphate–dependent chromatin remodeling enzymes, play an important role in the management of DNA double-strand breaks (DSBs). Here, we show that the p400 ATPase is required for DNA repair by homologous recombination (HR). Indeed, although p400 is not required for DNA damage signaling, DNA DSB repair is defective in the absence of p400. We demonstrate that p400 is important for HR-dependent processes, such as recruitment of Rad51 to DSB (a key component of HR), homology-directed repair, and survival after DNA damage. Strikingly, p400 and Rad51 are present in the same complex and both favor chromatin remodeling around DSBs. Altogether, our data provide a direct molecular link between Rad51 and a chromatin remodeling enzyme involved in chromatin decompaction around DNA DSBs

Etude de l'intervention des ADN polymérases de la famille X dans la génération et la prise en charge des cassures double-brin de l'ADN. (conséquences en termes d'instabilité génétique, thérapeutiques et théoriques)

TOULOUSE3-BU Sciences (315552104) / SudocSudocFranceF

Étude du rôle du remodeleur de la chromatine p400 dans la stabilité génomique

TOULOUSE3-BU Sciences (315552104) / SudocSudocFranceF