High-content high-resolution microscopy and deep learning assisted analysis reveals host and bacterial heterogeneity during Shigella infection
Data files
Mar 18, 2024 version files 107.52 GB
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Deep_learning_for_septin_vs_negatives.zip
461.15 MB
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Deep_learning_for_single_vs_clump.zip
101.36 MB
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Infection_DNA_synthesis.zip
47.63 GB
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Infection_protein_synthesis.zip
14.99 GB
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Infection_TSAR.zip
29.66 GB
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Infection.zip
14.68 GB
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README.md
3.22 KB
Abstract
Shigella flexneri is a Gram-negative bacterial pathogen and causative agent of bacillary dysentery. S. flexneri is closely related to Escherichia coli but harbors a virulence plasmid that encodes a Type III Secretion System (T3SS) required for host cell invasion. Widely recognized as a paradigm for research in cellular microbiology, S. flexneri has emerged as important to study mechanisms of cell-autonomous immunity, including septin cage entrapment. Here we use high-content high-resolution microscopy to monitor the dynamic and heterogeneous S. flexneri infection process by assessing multiple host and bacterial parameters (DNA replication, protein translation, T3SS activity). In the case of infected host cells, we report a reduction in DNA and protein synthesis together with morphological changes that suggest S. flexneri can induce cell-cycle arrest. We developed an artificial intelligence image analysis approach using Convolutional Neural Networks to reliably quantify, in an automated and unbiased manner, the recruitment of SEPT7 to intracellular bacteria. We discover that heterogeneous SEPT7 assemblies are recuited to actively pathogenic bacteria with increased T3SS activation. Our automated microscopy workflow is useful to discover host and bacterial dynamics at the single-cell and population level, and to fully characterise the intracellular microenvironment controlling the S. flexneri infection process.
README: High-content high-resolution of S. flexneri infection in Hela cells
https://doi.org/10.5061/dryad.6wwpzgn5z
These datasets are associated to the pre-print "High-content high-resolution microscopy and deep learning assisted analysis reveals host and bacterial heterogeneity during *Shigella *infection." Ana T. López-Jiménez, Dominik Brokatzky, Kamla Pillay, Tyrese Williams, Gizem Özbaykal Güler and Serge Mostowy.
Briefly, Hela (ATCC CCL-2 cells) were infected by spin inoculation with fluorescent labelled Shigella flexneri M90T. Samples were fixed at 3 h 40 min and immunostained for imaging with a Zeiss CellDiscoverer 7 with Airyscan detectors. For further information on the experimental procedures for each specific dataset, please refer to the Materials and Method sections of the pre-print, and to the provided Dataset_information_experiments.xlsx and Dataset_information_CNN.xlsx files.
Description of the data and file structure
The provided datasets Infection.zip, Infection_DNA_synthesis.zip, Infection_protein_synthesis.zip and Infection_TSAR.zip correspond to one representative biological replicate of the experiments described in the associated pre-print, containing multiple images.
Additional information contained in each file name includes: date of acquisition (6 digits), carrier number, and information of acquisition, scene, position, well and airyscan processing.
As examples:
200703_plate0005-02-Scene-001-P1-B05-AiPr-01n: corresponds to an image acquired on the 3rd of July of 2020, on experiment carried on a 96 well plate (ID 0005), Acquisition 02, Scene 001, Position 1, Well B05 (96 well plate), Airyscan processed image numero 01.
210819-ibidi015-01-Scene-117-P76-AiPr-117n: corresponds to an image acquired on the 19th of August of 2021, on an ibidi carrier (ID 018), Acquisition 01, Scene 117, Position 76, Airyscan processed image numero 117.
Further information on the experiment associated to each dataset is contained in the associated pre-print and the provided Dataset_information_experiments.xlsx file.
The provided datasets contained in the folders "Deep learning for single vs clump" and "Deep learning for septin vs negatives" correspond to correspond to the images used to train the CNN as described in the associated pre-print. Each folder contains two subfolders: "Data_divided_by_dataset", containing the raw images; and "Data_divided_for_training_validation_testing", containing the processed images splitted into categories used in CNN training, validation and testing.
Further information on this data is contained in the associated pre-print and provided Dataset_information_experiments.xlsx file.
Code/Software
Airyscan processed tif files are provided for all datasets uploaded. In addition, processed images used to train CNN models are provided ("Deep learning for septin vs negatives" and "Deep learning for single vs clump" datasets). Processing was performed as described in https://github.com/ATLopezJimenez/Toolset-high-content-analysis-of-Shigella-infection
Methods
Microscopy images were obtained using z-stack image series taking 8–16 slices. Fluorescence microscopy on infected or uninfected cells was performed using a ZEISS Plan-APOCHROMAT 20× / 0.95 Autocorr Objective or a ZEISS Plan-APOCHROMAT 50×/1.2 water immersion lens coupled to a 0.5x tubelens on a Zeiss CellDiscoverer 7 with Airyscan detectors driven by ZEN Blue software (v3.5). Microscopy images were obtained using z-stack image series taking 32 slices. Confocal images were processed using Airyscan processing (Weinerfilter) using “Auto Filter” and “3D Processing” options.
Images provided in this Dataset are unprocessed tif files. The processed datasets for CNN training as described in the associated manuscript are also provided. Processing was performed as described in https://github.com/ATLopezJimenez/Toolset-high-content-analysis-of-Shigella-infection