A rapid fluorescent screening method for cellular sensitivity to anti-cancer compound

The tetrazolium salts (MTT, XTT, MTS, WST) based colorimetric assay or resazurin based fluorimetric assay are currently typical methods for cell sensitivity determination to anticancer compounds. We presented here a new rapid method for this purpose. This method uses a fluorescent dye named DCFH-DA which is previously taken as a intracellular probe for measurement of H(2)O(2) levels within a cell. The application basis for this method lies in two facts: the membrane permeable feature of the final metabolite of DCFH-DA inside a cell, and the linearity relationship between cell number and H(2)O(2) level. The results showed that there was a perfect association between cell number and fluorescent intensity determined by the DCFH-DA method, no matter whether using resuspended or adherent cells, and further 50% concentration of inhibition (IC(50)) comparison between data obtained by DCFH-DA method or MTT method using a positive known anticancer compound Baicalin showed that there were no significant differences in cellular sensitivity determination to compound Baicalin though there existed a relatively higher coefficient of variation of IC(50) by the DCFH-DA method than that by the MTT method. Thus our data indicate that DCFH-DA might not only be a fine reagent for determination of H(2)O(2) levels in cells but also an ideal fluorescent dye for cellular sensitivity test of anti-cancer compounds, and may be suitable for primary high-throughput drugs screening.     

A rapid and affordable screening platform for membrane protein trafficking

Background

Membrane proteins regulate a diversity of physiological processes and are the most successful class of targets in drug discovery. However, the number of targets adequately explored in chemical space and the limited resources available for screening are significant problems shared by drug-discovery centers and small laboratories. Therefore, a low-cost and universally applicable screen for membrane protein trafficking was developed.

Results

This high-throughput screen (HTS), termed IRFAP-HTS, utilizes the recently described MarsCy1-fluorogen activating protein and the near-infrared and membrane impermeant fluorogen SCi1. The cell surface expression of MarsCy1 epitope-tagged receptors can be visualized by simple addition of SCi1. User-friendly, rapid, and quantitative detection occurs on a standard infrared western-blotting scanner. The reliability and robustness of IRFAP-HTS was validated by confirming human vasopressin-2 receptor and dopamine receptor-2 trafficking in response to agonist or antagonist. The IRFAP-HTS screen was deployed against the leucine-rich G protein-coupled receptor-5 (Lgr5). Lgr5 is expressed in stem cells, modulates Wnt/ß-catenin signaling, and is therefore a promising drug target. However, small molecule modulators have yet to be reported. The constitutive internalization of Lgr5 appears to be one primary mode through which its function is regulated. Therefore, IRFAP-HTS was utilized to screen 11,258 FDA-approved and drug-like small molecules for those that antagonize Lgr5 internalization. Glucocorticoids were found to potently increase Lgr5 expression at the plasma membrane.

Conclusion

The IRFAP-HTS platform provides a versatile solution for screening more targets with fewer resources. Using only a standard western-blotting scanner, we were able to screen 5,000 compounds per hour in a robust and quantitative assay. Multi-purposing standardly available laboratory equipment eliminates the need for idiosyncratic and more expensive high-content imaging systems. The modular and user-friendly IRFAP-HTS is a significant departure from current screening platforms. Small laboratories will have unprecedented access to a robust and reliable screening platform and will no longer be limited by the esoteric nature of assay development, data acquisition, and post-screening analysis. The discovery of glucocorticoids as modulators for Lgr5 trafficking confirms that IRFAP-HTS can accelerate drug-discovery and drug-repurposing for even the most obscure targets.

     

A high-throughput platform for the rapid screening of vitamin D status by direct infusion-MS/MS

Vitamin D is an important fat-soluble prohormone with pleiotropic effects on human health, such as immunomodulation of the innate and adaptive immune system. There is an unmet clinical need for a rapid screening platform for 25-hydroxyvitamin D (25OH-D) determination without chromatographic separation that offers better precision and accuracy than immunoassays. Here, we introduce a high-throughput method for assessing vitamin D status from blood specimens based on direct infusion-MS/MS (DI-MS/MS) following click derivatization using 2-nitrosopyridine. We developed an optimized liquid-phase extraction protocol to minimize ion suppression when directly infusing serum or plasma extracts via a capillary electrophoresis system for quantitative determination of 25OH-D. Acceptable reproducibility (mean coefficient of variation = 10.9%, n = 412), recovery (mean = 102% at 15, 30, and 45 nmol/l), and linearity (R² > 0.998) were achieved for 25OH-D with lower detection limits (limit of detection ～1.2 nmol/l, S/N ～ 3), greater throughput (～3 min/sample), and less bias than a commercial chemiluminescence immunoassay prone to batch effects. There was mutual agreement in 25OH-D concentrations from reference blood samples measured by DI-MS/MS as compared with LC-MS/MS (mean bias = 7.8%, n = 18). We also demonstrate that this method could reduce immunoassay misclassification of vitamin D deficiency in a cohort of critically ill children (n = 30). In conclusion, DI-MS/MS offers a viable alternative to LC-MS/MS for assessment of vitamin D status in support of large-scale studies in nutritional epidemiology as well as clinical trials to rapidly screen individual patients who may benefit from vitamin D supplementation.     

A new technique for the rapid screening and selection of large pieces of tissue for ultrastructural evaluation

A simple and rapid technique is described for the screening of Epon embedded organ slices for the location, isolation, and removal of small specific sites for ultrastructural study with the transmission electron microscope. This procedure consists of perfusion fixation followed by making 1 to 21/2 mm thick slices of relatively large pieces of the organs, control of the degree and evenness of the osmium staining by addition of 3% sodium iodate, and infiltration with a fluorescent dye prior to embedment in Epon. Tissue slices are embedded in wafer-shaped blocks, generally with several slices in one "wafer", and are examined in a controlled manner using a rapid form of serial surface polishing. Each level of the polished wafer is examined using an epi-illuminated fluorescence microscope, and selected sites are chosen at each level for ultrastructural study. Methods are also described for marking each selected site using a conventional slide marker, and for the removal of the selected site in the form of a small disc of Epon, after which the Epon wafer can be further serially polished and the examination continued. Areas to be thin-sectioned are removed using a core drill mounted on a model-maker's drill press. The technique is simple, does not require the destruction of remaining tissues to evaluate more critically a single small site, allows for the easy maintenance of tissue orientation, and the most time-consuming portions of the technique can be quickly taught to a person with no previous histological training.     

A rapid assay for cellular deoxyribonucleic acid

A method is described for the rapid and specific extraction and subsequent fluorometric assay of DNA from less than 2 × 10⁴ diploid mammallan cells—0.1 μg of DNA. The procedure can be routinely completed in 3 hr and can be applied to quantitation of [³H]thymidine incorporation into these small quantities of DNA.     

A rapid screening procedure for staphylococcal plasmids

A method has been developed for rapidly screening representatives of all currently recognized species of the genus Staphylococcus for the presence of plasmid DNA. The isolated plasmid DNA is substantially free from contaminating chromosomal and relaxed plasmid DNA. The method will detect plasmids in strains grown on various types of solid or liquid culture media and is convenient enough for routine epidemiological studies.     

A yeast platform for the production of single-chain antibody-green fluorescent protein fusions

Fusion proteins comprised of a binding domain and green fluorescent protein (GFP) have the potential to act as one-step binding reagents. In this study, eight single-chain antibodies (scFv) and one single-chain T-cell receptor (scTCR) were secreted as fusions to GFP using a Saccharomyces cerevisiae expression system. Fusion protein secretion levels ranged over 3 orders of magnitude, from 4 microg/liter to 4 mg/liter, and correlated well with the secretion levels of the unfused scFv/scTCR. Three fusion types with various linker lengths and fusion orientations were tested for each scFv/scTCR. Although the fusion protein secretion levels were not significantly affected by the nature of the fusion construct, the properties of the fusion protein were clearly influenced. The fluorescence yield per fusion molecule was increased by separating the scFv/scTCR and GFP with an extended (GGGGS)3 linker, and fusions with scFv/scTCR at the carboxy-terminus were more resistant to degradation. By evaluating leader sequence processing and using GFP fluorescence to track intracellular processing, it was determined that the majority of fusion protein synthesized by the yeast was not secreted and in most cases was accumulating in an immature, although active, endoplasmic-reticulum (ER)-processed form. This contrasted with unfused scFv, which accumulated in both immature ER-processed and mature post-Golgi forms. The results indicated that yeast can be used as an effective host for the secretion of scFv/scTCR-GFP fusion proteins and that as a result of intracellular secretory bottlenecks, there is considerable yeast secretory capacity remaining to be exploited.     

A mitochondria-selective near-infrared-emitting fluorescent dye for cellular imaging studies

This communication details the synthesis, evaluation of photophysical properties, and cellular imaging studies of cyanine chromophore based fluorescent dye 1 as a selective imaging agent for mitochondria.     

A rapid screening method for the isolation of metal-accumulating microorganisms

Summary An agar plate screening method was developed for the rapid isolation of heavy metal-accumulating microorganisms and preliminary estimation of their biosorption capacity. The test is based on the visulaization and interpretation of the metal distribution between agar and colonies by chemical preciptitation with hydrogen sulphide or ammonium sulphide. The heavy metals silver, thallium, lead, copper, nickel and cadmium have been tested successfully. The efficiency of the method is demonstrated for isolating silver-accumulating bacterian and estimating silver biosorption capacity.     

A procedure for the rapid screening of Maillard reaction inhibitors

A procedure for the rapid screening of inhibitors of glycation reaction, based on their ability to protect RNase against sugar induced inactivation of the enzyme is described. Glycation is implicated in variety of disorders including diabetes, atherosclerosis various micropathies yet is a slow process both in vivo and in vitro. In order to speed up glycation, the reaction was carried out at 60 °C using a thermostable protein RNase and ribose, a sugar that is known to react rapidly than glucose in the glycation reaction. It was observed that incubation of RNase with ribose at 60 °C in rapid inactivation of the enzyme with a parallel decrease in tyrosine fluorescence, enhancement in new fluorescence and hyperchromicity in the UV-region. No such alterations in the enzyme activity were observed when the incubation was carried out in absence of the sugar. Compounds and drugs that are known to act as inhibitors of glycation reaction restricted the ribose-induced inactivation of RNase. RNase immobilized on CNBr-activated Sepharose was also sensitive to exposure to ribose and appeared a better system to screen inhibitors of glycation from natural sources that contain substances that interfere with the assay of enzyme as well as in the study of post Amadori inhibitors of glycation.     

A tree-based method for the rapid screening of chemical fingerprints

Background  

The fingerprint of a molecule is a bitstring based on its structure, constructed such that structurally similar molecules will have similar fingerprints. Molecular fingerprints can be used in an initial phase of drug development for identifying novel drug candidates by screening large databases for molecules with fingerprints similar to a query fingerprint.     

A rapid hydroponic screening for aluminium tolerance in barley

Selection and breeding of crops for aluminium (Al) tolerance is a useful approach to increase production on acid soils. This requires a rapid and reliable system to discriminate between Al-tolerant and Al-sensitive genotypes. A hydroponic system was developed to screen for Al tolerance in barley (t Hordeum vulgare L.) to overcome several problems encountered in previous screening methods. Four levels of Al (5, 10, 20, and 40 t M) in 1 mt M CaCl₂ solution at pH 4.5 were used to rank lines for Al-tolerance. Each line was cultured in a different compartment to eliminate chemical and pH interactions among lines. To avoid changes in Al tolerance due to other factors such as the calcium (Ca) concentration of the solution, Al-tolerant (Atlas 66) and Al-sensitive (Scout 66) cultivars of wheat (t Triticum aestivum L.) were used as reference cultivars. Five ranks of Al tolerance from highly tolerant to highly sensitive were established by comparison with each reference. Eriochrome cyanine R staining was used for the rapid evaluation of Al tolerance. This screening system allowed classification of about 50 barley lines into five different Al tolerance groups within one week. Using this system, screening of ca. 600 barley lines from various regions of the world was conducted. Most lines were sensitive to Al, but ninety lines showed intermediate Al-tolerance. Thirty nine lines were highly sensitive to Al in solution.