Harri Siitari scite author profile

Conventional fluoroimmunoassay (FIA) methods based on various fluorescence principles have not achieved the sensitivity of radioimmunoassay (RIA) mainly because of problems of background fluorescence arising, for example, from the biological specimen. We now describe an immunoassay of hepatitis B surface antigen (HBsAg) based on time-resolved (TR) fluorescence using a lanthanide as label. The assay initiates the development of a new generation of immunoassays. The fluorescence intensity is measured after a selected delay time which almost completely eliminates background fluorescence, which has a fast decay time. The excitation is performed with a flashing light source. The molecules with a long fluorescent lifetime consist of chelates of rare earth metals (Eu, Tb, Sm, Dy). They absorb strongly the excitation radiation and transfer the energy to the chelated central atom which in turn produces an emission spectrum characteristic of the lanthanide used. A long Stokes' shift (greater than 270 nm) helps to reduce the background in the emission region of the chelate and thus optimizes measurement of the relevant fluorescence. The present TR-FIA uses 2-naphthoyltrifluoroacetone as chelating agent because it creates an intense fluorescence with the rare earth metals. Synergistic agents such as trioctylphosphineoxid further enhance the fluorescence of the chelate. Depending on the instrumentation used for measuring time-resolved fluorescence and the conditions used for chelate formation, lanthanides can be detected at 10(-12)-10(-14)M concentrations.

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Quantification of Dynamic Morphological Drug Responses in 3D Organotypic Cell Cultures by Automated Image Analysis

Härmä

Schukov

Happonen

et al. 2014

PLoS ONE

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Glandular epithelial cells differentiate into complex multicellular or acinar structures, when embedded in three-dimensional (3D) extracellular matrix. The spectrum of different multicellular morphologies formed in 3D is a sensitive indicator for the differentiation potential of normal, non-transformed cells compared to different stages of malignant progression. In addition, single cells or cell aggregates may actively invade the matrix, utilizing epithelial, mesenchymal or mixed modes of motility. Dynamic phenotypic changes involved in 3D tumor cell invasion are sensitive to specific small-molecule inhibitors that target the actin cytoskeleton. We have used a panel of inhibitors to demonstrate the power of automated image analysis as a phenotypic or morphometric readout in cell-based assays. We introduce a streamlined stand-alone software solution that supports large-scale high-content screens, based on complex and organotypic cultures. AMIDA (Automated Morphometric Image Data Analysis) allows quantitative measurements of large numbers of images and structures, with a multitude of different spheroid shapes, sizes, and textures. AMIDA supports an automated workflow, and can be combined with quality control and statistical tools for data interpretation and visualization. We have used a representative panel of 12 prostate and breast cancer lines that display a broad spectrum of different spheroid morphologies and modes of invasion, challenged by a library of 19 direct or indirect modulators of the actin cytoskeleton which induce systematic changes in spheroid morphology and differentiation versus invasion. These results were independently validated by 2D proliferation, apoptosis and cell motility assays. We identified three drugs that primarily attenuated the invasion and formation of invasive processes in 3D, without affecting proliferation or apoptosis. Two of these compounds block Rac signalling, one affects cellular cAMP/cGMP accumulation. Our approach supports the growing needs for user-friendly, straightforward solutions that facilitate large-scale, cell-based 3D assays in basic research, drug discovery, and target validation.

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Specific Noncompetitive Immunoassay for HT-2 Mycotoxin Detection

et al. 2016

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Here we demonstrate a novel homogeneous one-step immunoassay, utilizing a pair of recombinant antibody antigen-binding fragments (Fab), that is specific for HT-2 toxin and has a positive readout. Advantages over the conventional competitive immunoassay formats such as enzyme-linked immunosorbent assay (ELISA) are the specificity, speed, and simplicity of the assay. Recombinant antibody HT2-10 Fab recognizing both HT-2 and T-2 toxins was developed from a phage display antibody library containing 6 × 10(7) different antibody clones. Specificity of the immunoassay was introduced by an anti-immune complex (IC) antibody binding the primary antibody-HT-2 toxin complex. When the noncompetitive immune complex assay was compared to the traditional competitive assay, an over 10-fold improvement in sensitivity was observed. Although the HT2-10 antibody has 100% cross-reactivity for HT-2 and T-2 toxins, the immune complex assay is highly specific for HT-2 alone. The assay performance with real samples was evaluated using naturally contaminated wheat reference material. The half-maximal effective concentration (EC50) value of the time-resolved fluorescence resonance energy transfer (TR-FRET) assay was 9.6 ng/mL, and the limit of detection (LOD) was 0.38 ng/mL (19 μg/kg). The labeled antibodies can be predried to the assay vials, e.g., microtiter plate wells, and readout is ready in 10 min after the sample application.

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The use of peroxidase-mediated deposition of biotin-tyramide in combination with time-resolved fluorescence imaging of europium chelate label in immunohistochemistry and in situ hybridization.

Haas

Verwoerd²,

Corput³

et al. 1996

J Histochem Cytochem.

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The application of europium chelates as delayed fluorescent labels in FISH and immunocytochemistry is hampered by their relatively low quantum yield. To increase the intensity of the delayed fluorescence, we have used a recently introduced peroxidase-mediated amplification system. This system results in a large accumulation of biotin-tyramide, which is detected using streptavidin-europium chelate as label. Optimal staining conditions were evaluated for the immunocytochemical detection of vimentin in cryosections of rat liver, for DNA in situ hybridization (alphoid type probes and 40-KB cosmid probes), and for RNA in situ hybridization (detection of 28S ribosomal RNA, human elongation factor mRNA, and luciferase mRNA). Using a time-resolved fluorescence microscope, intense europium fluorescence was obtained in all these applications when the tyramide amplification system was applied. The signals were strong enough to be observed by eye using the microscope in the time-delayed mode. The routine application of this technique for localization and quantization of antigens or nucleic acid sequences in tissue exhibiting strong autofluorescence is discussed.

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Harri Siitari

Europium as a label in time-resolved immunofluorometric assays

Detection of hepatitis B surface antigen using time-resolved fluoroimmunoassay

Quantification of Dynamic Morphological Drug Responses in 3D Organotypic Cell Cultures by Automated Image Analysis

Specific Noncompetitive Immunoassay for HT-2 Mycotoxin Detection

The use of peroxidase-mediated deposition of biotin-tyramide in combination with time-resolved fluorescence imaging of europium chelate label in immunohistochemistry and in situ hybridization.

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