Accurate Cytotoxicity and Proliferation Determination: Advantages of a High-Throughput Phenotypic Approach Over ATP Luminescence Assays.

Cell viability and proliferation assays are a fundamental tool in the drug discovery process and are used to evaluate both the antiproliferative potency and toxicity of compounds. Some lead discovery groups generate cell viability data for up to two million compounds per screen, so any method used to assess these parameters needs to deliver not only on data quality but also on throughput and assay cost per well. Most methods used to determine cell viability cannot deliver on all three of these requirements, so compromises have to be made.

Advances in laser scanning imaging cytometry for high-content screening.

The advent of high-content screening more than a decade ago remodeled drug discovery workflows by recasting the role of cell-based approaches in target identification, primary screening, lead optimization, and toxicity. The ability to identify and quantify compound effects on multiple cellular functions allows for rapid characterization of chemical libraries. Laser scanning imaging cytometry (LSIC) is one of the technologies that is being applied to a broad range of assays utilizing fluorescent labeling, at throughputs compatible with primary screening campaigns.

Determination of cell colony formation in a high-content screening assay.

The use of cell colony formation assays for research and clinical applications to assess the functional integrity of cells after in vitro manipulations is extensive. Key areas include hematopoietic stem cell research, cell transformation studies, and predicting the response of tumors to chemotherapeutic agents. Traditionally, enumeration of colonies has involved laborious and subjective counting by hand using a microscope.

Multiple cell lines using quantum dots.

The development of multiplexing capabilities and high-content readouts reporting individual cellular measurements enables assessment of biological variability on a single-cell basis, together with the evaluation of cell subpopulations within wells. A high-content screening multiplexed assay format allows additional information to be gained from a single assay. One such example is the ability to determine the effects of new chemical entities on different cell lines, tested in the same well.

Application of laser-scanning fluorescence microplate cytometry in high content screening.

The resolution of cell-based assays down to the cellular level has created new opportunities for the drug discovery process. Aptly named high content analysis, such an approach is enabling new methods of analysis for the broad range of therapeutic targets emerging in the post-genomics era, and offering alternative multiparametric readouts for some traditional analyses. Microplate cytometry is one of the technologies that is being applied to a broad range of assays utilizing fluorescent labeling, at throughputs compatible with primary screening campaigns.