Cell Painting, an image-based assay for morphological profiling

Bray, Mark‐Anthony; Singh, Shantanu; Han, Han; Davis, Chadwick T.; Borgeson, Blake; Hartland, Cathy L; Kost‐Alimova, Maria; Gústafsdóttir, Sigrún M.; Gibson, Christopher C.; Carpenter, Anne E.

doi:10.1101/049817

Cited by 44 publications

(65 citation statements)

References 45 publications

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“…However, advances in the culture and use of induced pluripotent stem cells and organoids are very promising steps in the right direction . For instance, the introduction of the high content phenotypic “cell‐painting assay” platform has provided a powerful tool to broadly assess biological compound profiles, provided that they induce changes in cellular morphology . Diverse fingerprints obtained from this assay can be used as a metric for the construction of focused chemical libraries that cover a broad range of biological space.…”

Section: Discussionmentioning

confidence: 99%

Nature Inspired Small Molecules for Chemical Biology

Kumar

Waldmann

2018

Israel Journal of Chemistry

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Chemical biology and drug discovery are instrumental sciences to address unmet medical needs and to gain a deeper understanding of normal and disease state biology in mammalian systems. Unlike most genetic tools, the small molecule modulation of biology is reversible, controllable in space, time and quantity, avoids the removal of gene products from cellular systems and thus enables perturbation of biology in its native state. Natural products, their derivatives as well as small molecules based on the core‐scaffolds of natural products including natural product fragments allow targeting unique, biologically relevant fractions of chemical space that may deliver quality tool compounds. In this essay, we discuss various synthesis approaches inspired by natural products to deliver biologically active small molecules. We argue and provide evidence that inspiration by natural product structure remains a powerful guiding principle for the development of novel approaches to the study biology by means of novel bioactive small molecules.

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Section: Discussionmentioning

confidence: 99%

Nature Inspired Small Molecules for Chemical Biology

Kumar

Waldmann

2018

Israel Journal of Chemistry

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“…Its code base forms a solid foundation for integrating new classifiers into the tool, potentially including deep learning architectures. We also intend to integrate methods for constructing per-sample 'profiles' from raw morphological measurements to support morphological profiling applications (Caicedo et al, 2016;Bray et al, 2016).…”

Section: Future Directionsmentioning

confidence: 99%

CellProfiler Analyst: interactive data exploration, analysis, and classification of large biological image sets

Dao

Fraser

Hung

et al. 2016

Preprint

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Summary: CellProfiler Analyst allows the exploration and visualization of image-based data, together with the classification of complex biological phenotypes, via an interactive user interface designed for biologists and data scientists. CellProfiler Analyst 2.0, completely rewritten in Python, builds on these features and adds enhanced supervised machine learning capabilities (Classifier), as well as visualization tools to overview an experiment (Plate Viewer and Image Gallery). Availability and Implementation: CellProfiler Analyst 2.0 is free and open source, available at

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“…Monitoring changes in cellular morphology induced by a hit molecule and comparing these to changes induced by a set of reference compounds with known modes of action and targets can provide target hypotheses. Morphological profiles can be extracted from simple brightfield images, and obtained from complex fluorescence‐based high‐content screens in which multiple subcellular compartments are labelled with various fluorophores . The multiplexed use of different fluorophores has been established in the “cell painting” assay, and has been proposed as a new strategy for determining whether a compound displays bioactivity in a very broad setting .…”

Section: Introductionmentioning

confidence: 99%

“…Morphological profiles can be extracted from simple brightfield images, and obtained from complex fluorescence‐based high‐content screens in which multiple subcellular compartments are labelled with various fluorophores . The multiplexed use of different fluorophores has been established in the “cell painting” assay, and has been proposed as a new strategy for determining whether a compound displays bioactivity in a very broad setting . In light of the promise and the potential of this approach, we explored the use of the cell painting assay for MMOA identification where other target identification methods had failed…”

Section: Introductionmentioning

confidence: 99%

Image‐Based Morphological Profiling Identifies a Lysosomotropic, Iron‐Sequestering Autophagy Inhibitor

et al. 2020

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Chemical proteomics is widely applied in small‐molecule target identification. However, in general it does not identify non‐protein small‐molecule targets, and thus, alternative methods for target identification are in high demand. We report the discovery of the autophagy inhibitor autoquin and the identification of its molecular mode of action using image‐based morphological profiling in the cell painting assay. A compound‐induced fingerprint representing changes in 579 cellular parameters revealed that autoquin accumulates in lysosomes and inhibits their fusion with autophagosomes. In addition, autoquin sequesters Fe2+ in lysosomes, resulting in an increase of lysosomal reactive oxygen species and ultimately cell death. Such a mechanism of action would have been challenging to unravel by current methods. This work demonstrates the potential of the cell painting assay to deconvolute modes of action of small molecules, warranting wider application in chemical biology.

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Cell Painting, an image-based assay for morphological profiling

Cited by 44 publications

References 45 publications

Nature Inspired Small Molecules for Chemical Biology

Nature Inspired Small Molecules for Chemical Biology

CellProfiler Analyst: interactive data exploration, analysis, and classification of large biological image sets

Image‐Based Morphological Profiling Identifies a Lysosomotropic, Iron‐Sequestering Autophagy Inhibitor

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