Higher order chromatin structure presents a barrier to the recognition and repair of DNA damage. Double-strand breaks (DSBs) induce histone H2AX phosphorylation, which is associated with the recruitment of repair factors to damaged DNA. To help clarify the physiological role of H2AX, we targeted H2AX in mice. Although H2AX is not essential for irradiation-induced cell-cycle checkpoints, H2AX −/− mice were radiation sensitive, growth retarded, and immune deficient, and mutant males were infertile. These pleiotropic phenotypes were associated with chromosomal instability, repair defects, and impaired recruitment of Nbs1, 53bp1, and Brca1, but not Rad51, to irradiation-induced foci. Thus, H2AX is critical for facilitating the assembly of specific DNArepair complexes on damaged DNA.The first 120 amino acids of the H2AX and the H2A1/2 bulk isoprotein species exhibit a high degree of similarity, but H2AX carries a unique COOH-terminal tail that contains the * To whom correspondence should be addressed. andre_nussenzweig@nih.gov. HHS Public Access Author Manuscript Author ManuscriptAuthor ManuscriptAuthor Manuscript consensus phosphatidyl inositol 3-kinase (PI-3 kinase) motif that is activated by DSBs (1, 2). Phosphorylation of H2AX (γ-H2AX) is induced by external genotoxic agents (2, 3) and is activated at physiological sites of recombination in lymphocytes (4, 5) and germ cells (6). Several essential DNA-repair factors implicated in homologous recombination (HR) (e.g., Brca1, Brca2, and Rad51) or that participate in both HR and nonhomologous end-joining (NHEJ) (e.g., Rad50, Mre11, Nbs1) form immunofluorescent foci that colocalize with γ-H2AX (7). However, the precise relation between focus formation and DNA repair is not understood.To determine the physiological role of H2AX in mammalian cells, we produced a targeted disruption of mouse H2AX (Web fig. 1A) (5,8). H2AX −/− mice were born at the expected frequency, and absence of H2AX protein was confirmed by two-dimensional gel electrophoresis and Western blotting (Web fig. 1, B to E) (8). Despite the loss of H2AX, treatment with γ-irradiation resulted in normal phosphorylation of Nbs1 (Web fig. 1E) (8).We conclude that H2AX is not essential for survival, or for irradiation-induced phosphorylation of Nbs1.H2AX −/− mice were growth retarded (Web fig. 2) (8), and H2AX −/− mouse embryo fibroblasts (MEFs) proliferated poorly in vitro (Fig. 1A). The difference in the growth of MEFs was partly due to a decrease in the number of dividing cells in H2AX −/− cultures as determined by incorporation of bromodeoxyuridine (BrdU) into DNA. During a 24-hour labeling period, only 44% of passage 1 H2AX −/− MEFs were actively cycling, compared with 72% for the controls, and the mitotic index of H2AX −/− MEFs was at least 50% lower than in wild-type cultures (see below; Fig. 1, D and F). By passage 4, H2AX −/− MEFS accumulated nondividing giant cells, suggesting premature entry into senescence. With continual passage, both H2AX −/− and wild-type MEFs went through crisis, after wh...
The global gene expression profiles for 67 human lung tumors representing 56 patients were examined by using 24,000-element cDNA microarrays. Subdivision of the tumors based on gene expression patterns faithfully recapitulated morphological classification of the tumors into squamous, large cell, small cell, and adenocarcinoma. The gene expression patterns made possible the subclassification of adenocarcinoma into subgroups that correlated with the degree of tumor differentiation as well as patient survival. Gene expression analysis thus promises to extend and refine standard pathologic analysis
Class switch recombination (CSR) is a region-specific DNA recombination reaction that replaces one immunoglobulin heavy-chain constant region (CH) gene with another. This enables a single variable (V) region gene to be used in conjunction with different downstream CH genes, each having a unique biological activity. The molecular mechanisms that mediate CSR have not been defined, but activation-induced cytidine deaminase (AID), a putative RNA-editing enzyme, is required for this reaction 1 . Here we report that the Nijmegen breakage syndrome protein (Nbs1) and phosphorylated H2A histone family member X (γ-H2AX, also known as γ-H2afx), which facilitate DNA double-strand break (DSB) repair 2-4 , form nuclear foci at the CH region in the G1 phase of the cell cycle in cells undergoing CSR, and that switching is impaired in H2AX -/-mice. Localization of Nbs1 and γ-H2AX to the IgH locus during CSR is dependent on AID. In addition, AID is required for induction of switch region (Sμ)-specific DNA lesions that precede CSR. These results place AID function upstream of the DNA modifications that initiate CSR.Correspondence and requests for materials should be addressed to A.N. (andre_nussenzweig@nih.gov) or M.C.N. (nussen@mail.rockefeller.edu).. Supplementary Information accompanies the paper on Nature's website (http://www.nature.com). Competing interests statementThe authors declare that they have no competing financial interests. To determine whether DNA repair factors associate with DSBs at the switch regions, we first examined the intracellular localization of γ-H2AX, Nbs1, Rad51 and Brca1 in activated B cells by immunofluorescence. Brca1 and Rad51 are required for homologous recombination, the Mre11-Rad50-Nbs1 complex has been implicated in both homologous recombination and non-homologous end-joining (NHEJ), and γ-H2AX is critical for recruiting these repair factors to DSBs 6 and facilitates NHEJ in Saccharomyces cerevisiae 4 . All four proteins showed diffuse nuclear staining in most of the resting B cells from C57BL/6 wild-type mice. High local concentrations of these factors (nuclear foci) were detected in a very small percentage of cells (<5%), which increased significantly when the cells were stimulated to undergo CSR in vitro with lipopolysaccharide (LPS) and interleukin (IL)-4 (Fig. 1a). After 3 days of stimulation, 37% of the B cells contained discrete Brca1 foci (12 ± 6 per cell) and 43% contained Rad51 foci (7 ± 3 per cell), consistent with previous results 7 ; the remaining cells exhibited a weak, diffuse pattern of nuclear staining (Fig. 1a). Many of the stimulated B cells also formed Nbs1 foci (32% contained, on average, 3 ± 2 per cell) and γ-H2AX foci (40% contained, on average, 4.5 ± 3 per cell). To determine which of these repair factors are co-localized in activated B cells, we performed two colour immunofluoresence experiments (Fig. 1b). Only 20% of the cells that contained Rad51 and Nbs1 (n = 687) or Brca1 and Nbs1 foci (n = 431) exhibited co-localization. In contrast, γ-H2AX foci co-localiz...
Nijmegen breakage syndrome (NBS) is a rare autosomal recessive human disease whose clinical features include growth retardation, immunodeficiency, and increased susceptibility to lymphoid malignancies. Cells from NBS patients exhibit gamma-irradiation sensitivity, S-phase checkpoint defects, and genomic instability. Recently, it was demonstrated that this chromosomal breakage syndrome is caused by mutations in the NBS1 gene that result in a total loss of full-length NBS1 expression. Here we report that in contrast to the viability of NBS patients, targeted inactivation of NBS1 in mice leads to early embryonic lethality in utero and is associated with poorly developed embryonic and extraembryonic tissues. Mutant blastocysts showed greatly diminished expansion of the inner cell mass in culture, and this finding suggests that NBS1 mediates essential functions during proliferation in the absence of externally induced damage. Together, our results indicate that the complex phenotypes observed in NBS patients and cell lines may not result from a complete inactivation of NBS1 but may instead result from hypomorphic truncation mutations compatible with cell viability.
Nonreciprocal translocations and gene amplifications are commonly found in human tumors. Although little is known about the mechanisms leading to such aberrations, tissue culture models predict that they can arise from DNA breakage, followed by cycles of chromatid fusion, asymmetric mitotic breakage, and replication. Mice deficient in both a nonhomologous end joining (NHEJ) DNA repair protein and the p53 tumor suppressor develop lymphomas at an early age harboring amplification of an IgH/c-myc fusion. Here we report that these chromosomal rearrangements are initiated by a recombination activating gene (RAG)-induced DNA cleavage. Subsequent DNA repair events juxtaposing IgH and c-myc are mediated by a break-induced replication pathway. Cycles of breakage-fusion-bridge result in amplification of IgH/c-myc while chromosome stabilization occurs through telomere capture. Thus, mice deficient in NHEJ provide excellent models to study the etiology of unbalanced translocations and amplification events during tumorigenesis.
Comparative genomic hybridization (CGH) was applied to squamous cellcarcinomas (SCC) of the lung to define chromosomal imbalances that are associated with the metastatic phenotype. In total, 64 lung SCC from 50 patients were investigated, 25 each with or without evidence of metastasis formation. The chromosomal imbalances summarized by a CGH histogram of the 50 cases revealed deletions most frequently on chromosomes 1p21–p31, 2q34–q36, 3p, 4p, 4q, 5q, 6q14–q24, 8p, 9p, 10q, 11p12–p14, 13q13–qter, 18q12–qter and 21q21. DNA over-representations were most pronounced for chromosomes 1q11–q25, 1q32–q41, 3q, 5p, 8q22–qter, 11q13, 12p, 17q21–q22, 17q24–q25, 19, 20q and 22q. In ten cases, paired samples of primaries and at least one metastasis were analysed. The comparison revealed a considerable chromosomal instability and genetic heterogeneity; however, the CGH pattern indicated a clonal relationship in each case. The difference in histograms from the metastatic and non-metastatic tumour groups was most useful in pinpointing chromosomal imbalances associated with the metastatic phenotype, indicating that the deletions at 3p12–p14, 3p21, 4p15–p16, 6q24–qter, 8p22–p23, 10q21–qter and 21q22, as well as the over-representations at 1q21–q25, 8q, 9q34, 14q12 and 15q12–q15, occurred significantly more often in the metastatic tumour group. The comparison of the paired samples confirmed these findings in individual cases and suggested distinct genetic changes, in particular the extension of small interstitial deletions, during tumour progression. Importantly, metastasis-associated lesions were frequently detectable in the primary tumour providing a method of identifying patients at risk for tumour dissemination. Individual profiles and histograms are accessible at our web site http://amba.charite.de/cgh. © 2000 Cancer Research Campaign
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