Immunofluorescence microscopy-based detection of ssDNA foci by BrdU in mammalian cells

ABSTRACT Spongistatin 1, a macrocyclic lactone from the marine spongeHyrtios erecta, has broad-spectrum antifungal activity. Since this compound is a potent antimicrotubule agent in mammalian cells, we examined its effects on the filamentous fungusAspergillus nidulans to determine if its antifungal effects are due to antimicrotubule activity. At 25 μg/ml (twice the MIC), spongistatin 1 caused a greater-than-twofold elevation of the chromosome and spindle mitotic indices. Immunofluorescence microscopy revealed that mitotic spindles were smaller and shorter than in control germlings. However, late-anaphase and telophase nuclei were seen occasionally, and this suggests that the spindles are capable of segregating chromosomes. Spongistatin 1 had more dramatic effects on cytoplasmic microtubules. At 30 min after initiation of treatment, 83% of germlings contained fragmented microtubules and after 2 h of treatment, microtubules had disappeared completely from 82% of germlings. In contrast, microtubules disappeared rapidly and completely from germlings treated with benomyl. We conclude that spongistatin 1 has antimicrotubule activity in A. nidulans and that its mechanism of action may involve a novel microtubule-severing activity.

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Widespread cellular distribution of MAP-1A (microtubule-associated protein 1A) in the mitotic spindle and on interphase microtubules.

The Journal of Cell Biology ◽

10.1083/jcb.98.1.331 ◽

1984 ◽

Vol 98 (1) ◽

pp. 331-340 ◽

Cited By ~ 54

Author(s):

G S Bloom ◽

F C Luca ◽

R B Vallee

Keyword(s):

Mammalian Cells ◽

Immunofluorescence Microscopy ◽

Chinese Hamster ◽

Principal Component ◽

Immunoblot Analysis ◽

Double Labeling ◽

Reactive Material ◽

Mammalian Cell Cultures ◽

Multiple Protein ◽

Broad Variety

In the accompanying paper (Bloom, G.S., T.A. Schoenfeld, and R.B. Vallee, 1983, J. Cell Biol. 98:320-330), we reported that microtubule-associated protein 1 (MAP 1) from brain comprises multiple protein species, and that the principal component, MAP 1A, can be detected in both neuronal and glial cells by immunofluorescence microscopy using a monoclonal antibody. In the present study, we sought to determine the cellular and subcellular distribution of MAP 1A in commonly used cultured cell systems. For this purpose we used immunofluorescence microscopy and immunoblot analysis with anti-MAP 1A to examine 18 types of mammalian cell cultures. MAP 1A was detected in every culture system examined. Included among these were cells of mouse, rat, Chinese hamster, Syrian hamster, Potoroo (marsupial), and human origin derived from a broad variety of tissues and organs. Anti-MAP 1A consistently labeled mitotic spindles and stained cytoplasmic fibers during interphase in most of the cultures. These fibers were identified as microtubules by co-localization with tubulin in double-labeling experiments, by their disappearance in response to colchicine or vinblastine, and by their reorganization in response to taxol. The anti-MAP 1A stained microtubules in a punctate manner, raising the possibility that MAP 1A is located along microtubules at discrete foci that might represent sites of interaction between microtubules and other organelles. Verification that MAP 1A was, indeed, the reactive material in immunofluorescence microscopy was obtained from immunoblots. Anti-MAP 1A stained a band at the position of MAP 1A in all cultures examined. These results establish that MAP 1A, a major MAP from brain, is widely distributed among cultured mammalian cells both within and outside of the nervous system.

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Chemiluminescence imaging of cells (CLIC)

10.21203/rs.3.pex-1204/v1 ◽

2020 ◽

Author(s):

Jane Fisher ◽

Ole E. Sørensen ◽

Anas H. A. Abu-Humaidan

Keyword(s):

Mammalian Cells ◽

Dynamic Range ◽

Immunofluorescence Microscopy ◽

Protein Quantification ◽

Small Scale ◽

Whole Cells ◽

Signal Stability ◽

Membrane Protein Expression ◽

Specialized Equipment ◽

Specific Membrane

Abstract Here we describe a simple, sensitive and robust chemiluminescence-based immunoassay (chemiluminescence imaging of cells; CLIC) for relative quantification of proteins in cells. We first employed this method to quantify complement activation in cultured mammalian cells, and to quantify membrane protein expression, shedding, binding and internalization. Moreover, through specific membrane permeabilization we were able to quantify both cytosolic and nuclear proteins, and their translocation. We validated the CLIC quantification method by performing parallel experiments with other quantification methods like ELISA, qPCR, and immunofluorescence microscopy. The workflow of the immunoassay was found to be advantageous in certain instances when compared to these quantification methods. Since the reagents used for CLIC are common to other immunoassays with no need for specialized equipment, and due to the good linearity, dynamic range and signal stability inherent to chemiluminescence, we suggest that this assay is suitable for both small scale and high throughput relative protein quantification studies in whole cells

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Dynamin-mediated Internalization of Caveolae

The Journal of Cell Biology ◽

10.1083/jcb.141.1.85 ◽

1998 ◽

Vol 141 (1) ◽

pp. 85-99 ◽

Cited By ~ 526

Author(s):

John R. Henley ◽

Eugene W.A. Krueger ◽

Barbara J. Oswald ◽

Mark A. McNiven

Keyword(s):

Mammalian Cells ◽

Immunofluorescence Microscopy ◽

In Vivo Studies ◽

Coated Pits ◽

Toxin B ◽

Cholera Toxin B ◽

Double Label ◽

Biochemical Analyses ◽

Redundant Functions

The dynamins comprise an expanding family of ubiquitously expressed 100-kD GTPases that have been implicated in severing clathrin-coated pits during receptor-mediated endocytosis. Currently, it is unclear whether the different dynamin isoforms perform redundant functions or participate in distinct endocytic processes. To define the function of dynamin II in mammalian epithelial cells, we have generated and characterized peptide-specific antibodies to domains that either are unique to this isoform or conserved within the dynamin family. When microinjected into cultured hepatocytes these affinity-purified antibodies inhibited clathrin-mediated endocytosis and induced the formation of long plasmalemmal invaginations with attached clathrin-coated pits. In addition, clusters of distinct, nonclathrin-coated, flask-shaped invaginations resembling caveolae accumulated at the plasma membrane of antibody-injected cells. In support of this, caveola-mediated endocytosis of labeled cholera toxin B was inhibited in antibody-injected hepatocytes. Using immunoisolation techniques an anti-dynamin antibody isolated caveolar membranes directly from a hepatocyte postnuclear membrane fraction. Finally, double label immunofluorescence microscopy revealed a striking colocalization between dynamin and the caveolar coat protein caveolin. Thus, functional in vivo studies as well as ultrastructural and biochemical analyses indicate that dynamin mediates both clathrin-dependent endocytosis and the internalization of caveolae in mammalian cells.

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Immunofluorescence Microscopy to Study Endogenous TAZ in Mammalian Cells

Methods in Molecular Biology - The Hippo Pathway ◽

10.1007/978-1-4939-8910-2_9 ◽

2018 ◽

pp. 107-113 ◽

Cited By ~ 1

Author(s):

Nathan M. Kingston ◽

Andrew M. Tilston-Lunel ◽

Julia Hicks-Berthet ◽

Xaralabos Varelas

Keyword(s):

Mammalian Cells ◽

Immunofluorescence Microscopy

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Immunofluorescence microscopy-based assessment of cytosolic DNA accumulation in mammalian cells

STAR Protocols ◽

10.1016/j.xpro.2021.100488 ◽

2021 ◽

Vol 2 (2) ◽

pp. 100488

Author(s):

Ai Sato ◽

Aitziber Buque ◽

Takahiro Yamazaki ◽

Norma Bloy ◽

Giulia Petroni ◽

...

Keyword(s):

Mammalian Cells ◽

Immunofluorescence Microscopy

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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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The application of video-enhanced constrast/differential interference constrast microscopy in conjunction with whole mount electron microscopy to the study of organelle transport

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100102419 ◽

1988 ◽

Vol 46 ◽

pp. 66-67

Author(s):

J. H. Hayden

Keyword(s):

Electron Microscopy ◽

Rana Pipiens ◽

Silver Film ◽

Immunofluorescence Microscopy ◽

Organelle Transport ◽

Linear Element ◽

Whole Mount ◽

Carbon Coated ◽

Linear Elements ◽

Dic Microscopy

In a previous study, Allen video-enhanced constrast/differential interference constrast (AVEC-DIC) microscopy was used in conjunction with immunofluorescence microscopy to demonstrate that organelles and vesicle move in either direction along linear elements composed of microtubules. However, this study was limited in that the number of microtubules making up a linear element could not be determined. To overcome this limitation, we have used AVEC-DIC microscopy in conjunction with whole mount electron microscopy.Keratocytes from Rana pipiens were grown on glass coverslips as described elsewhere. Gold London Finder grids were Formvar- and carbon coated, and sterilized by exposure to ultraviolet light. It is important to select a Formvar film that gives a grey reflection when it is floated on water. A silver film is too thick and will detract from the image in the light microscope.

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