PIF1 helicase promotes break‐induced replication in mammalian cells

Double-strand DNA breaks are repaired by one of several mechanisms that rejoin two broken ends. However, cells are challenged when asked to repair a single broken end and respond by: (1) inducing programmed cell death; (2) healing the broken end by constructing a new telomere; (3) adapting to the broken end and resuming the mitotic cycle without repair; and (4) using information from the sister chromatid or homologous chromosome to restore a normal chromosome terminus. During one form of homolog-dependent repair in yeast, termed break-induced replication (BIR), a template chromosome can be copied for hundreds of kilobases. BIR efficiency depends on Pif1 helicase and Pol32, a nonessential subunit of DNA polymerase δ. To date, there is little evidence that BIR can be used for extensive chromosome repair in higher eukaryotes. We report that a dicentric chromosome broken in mitosis in the male germline of Drosophila melanogaster is usually repaired by healing, but can also be repaired in a homolog-dependent fashion, restoring at least 1.3 Mb of terminal sequence information. This mode of repair is significantly reduced in pif1 and pol32 mutants. Formally, the repaired chromosomes are recombinants. However, the absence of reciprocal recombinants and the dependence on Pif1 and Pol32 strongly support the hypothesis that BIR is the mechanism for restoration of the chromosome terminus. In contrast to yeast, pif1 mutants in Drosophila exhibit a reduced rate of chromosome healing, likely owing to fundamental differences in telomeres between these organisms.

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Distinct roles for S. cerevisiae H2A copies in recombination and repeat stability, with a role for H2A.1 threonine 126

eLife ◽

10.7554/elife.53362 ◽

2019 ◽

Vol 8 ◽

Cited By ~ 2

Author(s):

Nealia CM House ◽

Erica J Polleys ◽

Ishtiaque Quasem ◽

Marjorie De la Rosa Mejia ◽

Cailin E Joyce ◽

...

Keyword(s):

Mammalian Cells ◽

Cag Repeat ◽

High Fidelity ◽

Specific Function ◽

D Loop ◽

Dna Secondary Structures ◽

Break Induced Replication ◽

Sister Chromatid Recombination ◽

Ctg Repeat ◽

Expanded Form

CAG/CTG trinuncleotide repeats are fragile sequences that when expanded form DNA secondary structures and cause human disease. We evaluated CAG/CTG repeat stability and repair outcomes in histone H2 mutants in S. cerevisiae. Although the two copies of H2A are nearly identical in amino acid sequence, CAG repeat stability depends on H2A copy 1 (H2A.1) but not copy 2 (H2A.2). H2A.1 promotes high-fidelity homologous recombination, sister chromatid recombination (SCR), and break-induced replication whereas H2A.2 does not share these functions. Both decreased SCR and the increase in CAG expansions were due to the unique Thr126 residue in H2A.1 and hta1Δ or hta1-T126A mutants were epistatic to deletion of the Polδ subunit Pol32, suggesting a role for H2A.1 in D-loop extension. We conclude that H2A.1 plays a greater repair-specific role compared to H2A.2 and may be a first step towards evolution of a repair-specific function for H2AX compared to H2A in mammalian cells.

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DNA polymerase ζ in DNA replication and repair

Nucleic Acids Research ◽

10.1093/nar/gkz705 ◽

2019 ◽

Vol 47 (16) ◽

pp. 8348-8361 ◽

Cited By ~ 14

Author(s):

Sara K Martin ◽

Richard D Wood

Keyword(s):

Dna Replication ◽

Dna Polymerase ◽

Dna Sequences ◽

Mammalian Cells ◽

Translesion Synthesis ◽

Dna Lesions ◽

Replication Forks ◽

Dna Replication And Repair ◽

Radiation Induced ◽

Break Induced Replication

Abstract Here, we survey the diverse functions of DNA polymerase ζ (pol ζ) in eukaryotes. In mammalian cells, REV3L (3130 residues) is the largest catalytic subunit of the DNA polymerases. The orthologous subunit in yeast is Rev3p. Pol ζ also includes REV7 subunits (encoded by Rev7 in yeast and MAD2L2 in mammalian cells) and two subunits shared with the replicative DNA polymerase, pol δ. Pol ζ is used in response to circumstances that stall DNA replication forks in both yeast and mammalian cells. The best-examined situation is translesion synthesis at sites of covalent DNA lesions such as UV radiation-induced photoproducts. We also highlight recent evidence that uncovers various roles of pol ζ that extend beyond translesion synthesis. For instance, pol ζ is also employed when the replisome operates sub-optimally or at difficult-to-replicate DNA sequences. Pol ζ also participates in repair by microhomology mediated break-induced replication. A rev3 deletion is tolerated in yeast but Rev3l disruption results in embryonic lethality in mice. Inactivation of mammalian Rev3l results in genomic instability and invokes cell death and senescence programs. Targeting of pol ζ function may be a useful strategy in cancer therapy, although chromosomal instability associated with pol ζ deficiency must be considered.

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Mind the replication gap

Royal Society Open Science ◽

10.1098/rsos.201932 ◽

2021 ◽

Vol 8 (6) ◽

pp. 201932

Author(s):

Camelia Mocanu ◽

Kok-Lung Chan

Keyword(s):

Mammalian Cells ◽

Cell Cycle Progression ◽

Fragile Site ◽

Chromosome Instability ◽

Repair Synthesis ◽

Dna Structures ◽

Delay Cell ◽

Dna Repair Synthesis ◽

Genomic Regions ◽

Break Induced Replication

Unlike bacteria, mammalian cells need to complete DNA replication before segregating their chromosomes for the maintenance of genome integrity. Thus, cells have evolved efficient pathways to restore stalled and/or collapsed replication forks during S-phase, and when necessary, also to delay cell cycle progression to ensure replication completion. However, strong evidence shows that cells can proceed to mitosis with incompletely replicated DNA when under mild replication stress (RS) conditions. Consequently, the incompletely replicated genomic gaps form, predominantly at common fragile site regions, where the converging fork-like DNA structures accumulate. These branched structures pose a severe threat to the faithful disjunction of chromosomes as they physically interlink the partially duplicated sister chromatids. In this review, we provide an overview discussing how cells respond and deal with the under-replicated DNA structures that escape from the S/G2 surveillance system. We also focus on recent research of a mitotic break-induced replication pathway (also known as mitotic DNA repair synthesis), which has been proposed to operate during prophase in an attempt to finish DNA synthesis at the under-replicated genomic regions. Finally, we discuss recent data on how mild RS may cause chromosome instability and mutations that accelerate cancer genome evolution.

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Ultrastructural Alterations in Hela Cells Induced by Spider Venom

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100060118 ◽

1967 ◽

Vol 25 ◽

pp. 20-21

Author(s):

Dale E. McClendon ◽

Paul N. Morgan ◽

Bernard L. Soloff

Keyword(s):

Growth Medium ◽

Mammalian Cells ◽

Carcinoma Cells ◽

Venom Protein ◽

Sterile Saline ◽

Carbon Coated ◽

Available Information ◽

Loxosceles Reclusa ◽

Essential Growth ◽

Solution Cultures

It has been observed that minute amounts of venom from the brown recluse spider, Loxosceles reclusa, are capable of producing cytotoxic changes in cultures of certain mammalian cells (Morgan and Felton, 1965). Since there is little available information concerning the effect of venoms on susceptible cells, we have attempted to characterize, at the electron microscope level, the cytotoxic changes produced by the venom of this spider.Cultures of human epithelial carcinoma cells, strain HeLa, were initiated on sterile, carbon coated coverslips contained in Leighton tubes. Each culture was seeded with approximately 1x105 cells contained in 1.5 ml of a modified Eagle's minimum essential growth medium prepared in Hank's balanced salt solution. Cultures were incubated at 36° C. for three days prior to the addition of venom. The venom was collected from female brown recluse spiders and diluted in sterile saline. Protein determinations on the venom-were made according to the spectrophotometric method of Waddell (1956). Approximately 10 μg venom protein per ml of fresh medium was added to each culture after discarding the old growth medium. Control cultures were treated similarly, except that no venom was added. All cultures were reincubated at 36° C.

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Use of Uranium-Labeled Antibodies for Electron Microscopic Localization of Various Antigens in Mammalian Cells

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100060696 ◽

1967 ◽

Vol 25 ◽

pp. 136-137

Author(s):

J. P. Petrali ◽

E. J. Donati ◽

L. A. Sternberger

Keyword(s):

Endoplasmic Reticulum ◽

Hela Cells ◽

Mammalian Cells ◽

Specific Antiserum ◽

Electron Microscopic ◽

E Coli ◽

Cytoplasmic Membranes ◽

Viral Progeny ◽

Ultrathin Sections ◽

Electron Microscopic Localization

Specific contrast is conferred to subcellular antigen by applying purified antibodies, exhaustively labeled with uranium under immunospecific protection, to ultrathin sections. Use of Seligman’s principle of bridging osmium to metal via thiocarbohydrazide (TCH) intensifies specific contrast. Ultrathin sections of osmium-fixed materials were stained on the grid by application of 1) thiosemicarbazide (TSC), 2) unlabeled specific antiserum, 3) uranium-labeled anti-antibody and 4) TCH followed by reosmication. Antigens to be localized consisted of vaccinia antigen in infected HeLa cells, lysozyme in monocytes of patients with monocytic or monomyelocytic leukemia, and fibrinogen in the platelets of these leukemic patients. Control sections were stained with non-specific antiserum (E. coli).In the vaccinia-HeLa system, antigen was localized from 1 to 3 hours following infection, and was confined to degrading virus, the inner walls of numerous organelles, and other structures in cytoplasmic foci. Surrounding architecture and cellular mitochondria were unstained. 8 to 14 hours after infection, antigen was localized on the outer walls of the viral progeny, on cytoplasmic membranes, and free in the cytoplasm. Staining of endoplasmic reticulum was intense and focal early, and weak and diffuse late in infection.

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Ultrastructural Changes in Three Different Mammalian Cells Following Ultraviolet Laser Irradiation

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100095017 ◽

1972 ◽

Vol 30 ◽

pp. 350-351

Author(s):

K. Shankar Narayan ◽

Kailash C. Gupta ◽

Tohru Okigaki

Keyword(s):

Ultraviolet Light ◽

Mammalian Cells ◽

Biological Effects ◽

Survival Rates ◽

Chinese Hamster ◽

Cell Types ◽

Differential Sensitivity ◽

Ultrastructural Changes ◽

Ultraviolet Laser

The biological effects of short-wave ultraviolet light has generally been described in terms of changes in cell growth or survival rates and production of chromosomal aberrations. Ultrastructural changes following exposure of cells to ultraviolet light, particularly at 265 nm, have not been reported.We have developed a means of irradiating populations of cells grown in vitro to a monochromatic ultraviolet laser beam at a wavelength of 265 nm based on the method of Johnson. The cell types studies were: i) WI-38, a human diploid fibroblast; ii) CMP, a human adenocarcinoma cell line; and iii) Don C-II, a Chinese hamster fibroblast cell strain. The cells were exposed either in situ or in suspension to the ultraviolet laser (UVL) beam. Irradiated cell populations were studied either "immediately" or following growth for 1-8 days after irradiation.Differential sensitivity, as measured by survival rates were observed in the three cell types studied. Pattern of ultrastructural changes were also different in the three cell types.

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Dissection of the molecular mechanisms of protein targeting to the peroxisome using immunofluorescence and immunocryoelectron microscopies

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100157760 ◽

1990 ◽

Vol 48 (3) ◽

pp. 44-45

Author(s):

G-A. Keller ◽

S. J. Gould ◽

S. Subramani ◽

S. Krisans

Keyword(s):

Mammalian Cells ◽

Molecular Mechanisms ◽

Protein Targeting ◽

Firefly Luciferase ◽

Peroxisomal Enzyme ◽

Transfected Cells ◽

Peroxisomal Targeting ◽

Targeting Signal ◽

Series Of Experiments ◽

Peroxisomal Targeting Signal

Subcellular compartments within eukaryotic cells must each be supplied with unique sets of proteins that must be directed to, and translocated across one or more membranes of the target organelles. This transport is mediated by cis- acting targeting signals present within the imported proteins. The following is a chronological account of a series of experiments designed and carried out in an effort to understand how proteins are targeted to the peroxisomal compartment.-We demonstrated by immunocryoelectron microscopy that the enzyme luciferase is a peroxisomal enzyme in the firefly lantern. -We expressed the cDNA encoding firefly luciferase in mammalian cells and demonstrated by immunofluorescence that the enzyme was transported into the peroxisomes of the transfected cells. -Using deletions, linker insertions, and gene fusion to identify regions of luciferase involved in its transport to the peroxisomes, we demonstrated that luciferase contains a peroxisomal targeting signal (PTS) within its COOH-terminal twelve amino acid.

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Vacuoles Induced in Mammalian Cells by Helicobacter Cytotoxin are Acidic Organelles

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100158388 ◽

1990 ◽

Vol 48 (3) ◽

pp. 168-169

Author(s):

M. H. Chestnut ◽

C. E. Catrenich

Keyword(s):

Acridine Orange ◽

Mammalian Cells ◽

Laser Scanning ◽

Laser Scanning Microscopy ◽

Confocal Laser ◽

Ulcer Disease ◽

Gastroduodenal Disease ◽

H Pylori

Helicobacter pylori is a non-invasive, Gram-negative spiral bacterium first identified in 1983, and subsequently implicated in the pathogenesis of gastroduodenal disease including gastritis and peptic ulcer disease. Cytotoxic activity, manifested by intracytoplasmic vacuolation of mammalian cells in vitro, was identified in 55% of H. pylori strains examined. The vacuoles increase in number and size during extended incubation, resulting in vacuolar and cellular degeneration after 24 h to 48 h. Vacuolation of gastric epithelial cells is also observed in vivo during infection by H. pylori. A high molecular weight, heat labile protein is believed to be responsible for vacuolation and to significantly contribute to the development of gastroduodenal disease in humans. The mechanism by which the cytotoxin exerts its effect is unknown, as is the intracellular origin of the vacuolar membrane and contents. Acridine orange is a membrane-permeant weak base that initially accumulates in low-pH compartments. We have used acridine orange accumulation in conjunction with confocal laser scanning microscopy of toxin-treated cells to begin probing the nature and origin of these vacuoles.

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Cytological changes induced by platinum-thymine in sarcoma-180 cells: Electron microscopy study

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s042482010015900x ◽

1990 ◽

Vol 48 (3) ◽

pp. 290-291

Author(s):

Gustav Ofosu

Keyword(s):

Mammalian Cells ◽

Antitumor Agent ◽

Microscopy Study ◽

Electron Microscopy Study ◽

Limiting Factor ◽

Sarcoma 180 ◽

Electron Microscopic ◽

Cytological Changes

Platinum-thymine has been found to be a potent antitumor agent, which is quite soluble in water, and lack nephrotoxicity as the dose-limiting factor. The drug has been shown to interact with DNA and inhibits DNA, RNA and protein synthesis in mammalian cells in vitro. This investigation was undertaken to elucidate the cytotoxic effects of piatinum-thymine on sarcoma-180 cells in vitro ultrastructurally, Sarcoma-180 tumor bearing mice were treated with intraperitoneal injection of platinum-thymine 40mg/kg. A concentration of 60μg/ml dose of platinum-thymine was used in in vitro experiments. Treatments were at varying time intervals of 3, 7 and 21 days for in vivo experiments, and 30, 60 and 120 min., 6, 12, and 24th in vitro. Controls were not treated with platinum-thymine.Electron microscopic analyses of the treated cells in vivo and in vitro showed drastic cytotoxic effect.

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