AI Article Synopsis
- The study introduces a method to predict protein expression in tissues using standard H&E stained images, aiming to enhance understanding of diseases like cancer and improve precision medicine outcomes.
- The authors develop a framework called Ouroboros that generates H&E images from protein profiles and vice versa, highlighting spatial changes in glioblastoma samples.
- Validation of this method with extensive data shows significant improvements over previous techniques in predicting protein expression and generating virtual images, suggesting potential for better diagnostic and therapeutic decisions.
Article Abstract
Summary: Imagine if we could simultaneously predict spatial protein expression in tissues from their routine Hematoxylin and Eosin (H&E) stained images, and create tissue images given protein expression profiles thus enabling virtual simulations of how protein expression alterations impact histology in complex diseases like cancer. Such an approach could lead to more informed diagnostic and therapeutic decisions for precision medicine at lower costs and shorter turnaround times, more detailed insights into underlying disease pathology as well as improvement in predictive and generative performance. In this study, we investigate the intricate correlation between protein expressions obtained from Hyperion mass cytometry and histopathological microstructures in conventional H&E stained glioblastoma (GBM) samples, unveiling morphological patterns and cellular-level spatial alterations associated with protein expression changes. To model these complex relationships, we propose a novel generative-predictive framework called Ouroboros for producing H&E images from protein expressions and simultaneously predicting protein expressions from H&E images. Our comprehensive sample-independent validation over 9920 tissue spots from 4 GBM samples encompassing visual image analysis, quantitative analysis, subspace alignment and perturbation experiments shows that the proposed generative-predictive approach offers significant improvements in predicting protein expression from images in comparison to baseline methods as well as accurate generation of virtual GBM sample images. This proof of concept study can contribute to advancing our understanding of histological responses to protein expression perturbations and lays the foundations for further developments in this area.
Availability And Implementation: Implementation and associated data for the proposed approach are available at the URL: https://github.com/Srijay/Ouroboros.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11373318 | PMC |
| http://dx.doi.org/10.1093/bioinformatics/btae399 | DOI Listing |
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