Light-microscopy based dense connectomic reconstruction of mammalian brain tissue

Tavakoli, Mojtaba; Lyudchik, Julia; Januszewski, Michał; Vistunou, Vitali; Agudelo Duenas, Nathalie; Vorlaufer, Jakob; Sommer, Christoph M; Kreuzinger, Caroline; Oliveira, Bárbara; Cenameri, Alban; Novarino, Gaia; Jain, Viren; Danzl, Johann G

Light-microscopy based dense connectomic reconstruction of mammalian brain tissue

Tavakoli M, Lyudchik J, Januszewski M, Vistunou V, Agudelo Duenas N, Vorlaufer J, Sommer CM, Kreuzinger C, Oliveira B, Cenameri A, Novarino G, Jain V, Danzl JG. Light-microscopy based dense connectomic reconstruction of mammalian brain tissue. bioRxiv, 10.1101/2024.03.01.582884.

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https://doi.org/10.1101/2024.03.01.582884 [Preprint]

DOI

10.1101/2024.03.01.582884

Preprint | Submitted | English

Author

R. Tavakoli, Mojtaba^ISTA ; Lyudchik, Julia^ISTA; Januszewski, Michał; Vistunou, Vitali^ISTA; Agudelo Duenas, Nathalie^ISTA; Vorlaufer, Jakob^ISTA; Sommer, Christoph M^ISTA ; Kreuzinger, Caroline^ISTA; de Sousa Oliveira, Barbara A^ISTA; Cenameri, Alban^ISTA; Novarino, Gaia^ISTA ; Jain, Viren
All

Corresponding author has ISTA affiliation

Department

Novarino Group
Danzl Group

Grant

Studying Organelle Structure and Function at Nanoscale Resolution with Expansion Microscopy
International IST Doctoral Program
Toward an understanding of the brain interstitial system and the extracellular proteome in health and autism spectrum disorders
Molecular Drug Targets

Abstract

The information-processing capability of the brain’s cellular network depends on the physical wiring pattern between neurons and their molecular and functional characteristics. Mapping neurons and resolving their individual synaptic connections can be achieved by volumetric imaging at nanoscale resolution with dense cellular labeling. Light microscopy is uniquely positioned to visualize specific molecules but dense, synapse-level circuit reconstruction by light microscopy has been out of reach due to limitations in resolution, contrast, and volumetric imaging capability. Here we developed light-microscopy based connectomics (LICONN). We integrated specifically engineered hydrogel embedding and expansion with comprehensive deep-learning based segmentation and analysis of connectivity, thus directly incorporating molecular information in synapse-level brain tissue reconstructions. LICONN will allow synapse-level brain tissue phenotyping in biological experiments in a readily adoptable manner.

Publishing Year

2024

Date Published

2024-07-08

Journal Title

bioRxiv

Acknowledgement

We thank Sven Dorkenwald and Peter Li for critical reading of the manuscript. We acknowledge expert support by ISTA’s scientific service units: Imaging and Optics, Lab Support, Scientific Computing, Preclinical Facility, Miba Machine Shop, and Library. We gratefully acknowledge funding by the following sources: Austrian Science Fund (FWF) grant DK W1232 (JGD, MRT) Austrian Academy of Sciences DOC fellowship 26137 (MRT) EU Horizon 2020 program, Marie Skłodowska-Curie Actions Fellowship 665385 (JL) Gesellschaft für Forschungsförderung NÖ (NFB) grant LSC18-022 (JGD) European Union’s Horizon 2020 research and innovation programme, European Research Council (ERC) grant 101044865 “SecretAutism.”

Acknowledged SSUs

Library
Machine Shop
Lab Support Facility
Imaging & Optics Facility
Scientific Computing

IST-REx-ID

18677

Cite this

Tavakoli M, Lyudchik J, Januszewski M, et al. Light-microscopy based dense connectomic reconstruction of mammalian brain tissue. bioRxiv. doi:10.1101/2024.03.01.582884

Tavakoli, M., Lyudchik, J., Januszewski, M., Vistunou, V., Agudelo Duenas, N., Vorlaufer, J., … Danzl, J. G. (n.d.). Light-microscopy based dense connectomic reconstruction of mammalian brain tissue. bioRxiv. https://doi.org/10.1101/2024.03.01.582884

Tavakoli, Mojtaba, Julia Lyudchik, Michał Januszewski, Vitali Vistunou, Nathalie Agudelo Duenas, Jakob Vorlaufer, Christoph M Sommer, et al. “Light-Microscopy Based Dense Connectomic Reconstruction of Mammalian Brain Tissue.” BioRxiv, n.d. https://doi.org/10.1101/2024.03.01.582884.

M. Tavakoli et al., “Light-microscopy based dense connectomic reconstruction of mammalian brain tissue,” bioRxiv. .

Tavakoli, Mojtaba, et al. “Light-Microscopy Based Dense Connectomic Reconstruction of Mammalian Brain Tissue.” BioRxiv, doi:10.1101/2024.03.01.582884.

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https://doi.org/10.1101/2024.03.01.582884

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Open Access

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