Multidimensional Drug Profiling By Automated Microscopy
Harvard University · Center for Systems Biology · +1 more institution
Abstract
We present a method for high-throughput cytological profiling by microscopy. Our system provides quantitative multidimensional measures of individual cell states over wide ranges of perturbations. We profile dose-dependent phenotypic effects of drugs in human cell culture with a titration-invariant similarity score (TISS). This method successfully categorized blinded drugs and suggested targets for drugs of uncertain mechanism. Multivariate single-cell analysis is a starting point for identifying relationships among drug effects at a systems level and a step toward phenotypic profiling at the single-cell level. Our methods will be useful for discovering the mechanism and predicting the toxicity of new drugs.
Citation impact
- FWCI
- 57.15
- Percentile
- 100%
- References
- 29
Authors
6- ZEZachary E. PerlmanCorresponding
Harvard University, Center for Systems Biology, Harvard Stem Cell Institute
- MDMichael D. SlackCorresponding
Harvard University, Center for Systems Biology, Harvard Stem Cell Institute
- FYFeng YanCorresponding
Harvard University, Center for Systems Biology, Harvard Stem Cell Institute
- TJTimothy J. Mitchison
Harvard University, Center for Systems Biology, Harvard Stem Cell Institute
- LFLani F. WuCorresponding
Harvard University, Center for Systems Biology, Harvard Stem Cell Institute
Topics & keywords
- Profiling (computer programming)
- Computational biology
- Drug
- Phenotype
- Multivariate statistics
- Bioinformatics
- Computer science
- Data mining
- Good health and well-being