Integrating deep learning and unbiased automated high-content screening to identify complex disease signatures in human fibroblasts.
Lauren SchiffBianca MiglioriYe ChenDeidre CarterCaitlyn BonillaJenna C HallMinjie FanEdmund TamSara AhadiBrodie FischbacherAnton GeraschenkoChristopher J HunterSubhashini VenugopalanSean DesMarteauArunachalam NarayanaswamySelwyn JacobZan ArmstrongPeter FerrarottoBrian WilliamsGeoff Buckley-HerdJon HazardJordan GoldbergMarc CoramReid OttoEdward A BaltzLaura Andres-MartinOrion PritchardAlyssa Duren-LubanskiAmeya DaigavaneKathryn Reggionull nullPhillip C NelsonMichael FrumkinSusan L SolomonLauren BauerRaeka S AiyarElizabeth SchwarzbachScott A NoggleFrederick J MonsmaDaniel PaullMarc BerndlSamuel J YangBjarki JohannessonPublished in: Nature communications (2022)
Drug discovery for diseases such as Parkinson's disease are impeded by the lack of screenable cellular phenotypes. We present an unbiased phenotypic profiling platform that combines automated cell culture, high-content imaging, Cell Painting, and deep learning. We applied this platform to primary fibroblasts from 91 Parkinson's disease patients and matched healthy controls, creating the largest publicly available Cell Painting image dataset to date at 48 terabytes. We use fixed weights from a convolutional deep neural network trained on ImageNet to generate deep embeddings from each image and train machine learning models to detect morphological disease phenotypes. Our platform's robustness and sensitivity allow the detection of individual-specific variation with high fidelity across batches and plate layouts. Lastly, our models confidently separate LRRK2 and sporadic Parkinson's disease lines from healthy controls (receiver operating characteristic area under curve 0.79 (0.08 standard deviation)), supporting the capacity of this platform for complex disease modeling and drug screening applications.
Keyphrases
- deep learning
- machine learning
- high throughput
- neural network
- single cell
- drug discovery
- endothelial cells
- end stage renal disease
- newly diagnosed
- emergency department
- cell therapy
- body composition
- photodynamic therapy
- peritoneal dialysis
- patient reported outcomes
- quantum dots
- high speed
- resistance training
- amyotrophic lateral sclerosis
- sensitive detection
- big data
- fluorescence imaging