Nanostructure-specific X-ray tomography reveals myelin levels, integrity and axon orientations in mouse and human nervous tissue

Myelin insulates neuronal axons and enables fast signal transmission, constituting a key component of brain development, aging and disease. Yet, myelin-specific imaging of macroscopic samples remains a challenge. Here, we exploit myelin’s nanostructural periodicity, and use small-angle X-ray scatter...

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Autores principales: Georgiadis, Marios, Schroeter, Aileen, Gao, Zirui, Guizar-Sicairos, Manuel, Liebi, Marianne, Leuze, Christoph, McNab, Jennifer A., Balolia, Aleezah, Veraart, Jelle, Ades-Aron, Benjamin, Kim, Sunglyoung, Shepherd, Timothy, Lee, Choong H., Walczak, Piotr, Chodankar, Shirish, DiGiacomo, Phillip, David, Gergely, Augath, Mark, Zerbi, Valerio, Sommer, Stefan, Rajkovic, Ivan, Weiss, Thomas, Bunk, Oliver, Yang, Lin, Zhang, Jiangyang, Novikov, Dmitry S., Zeineh, Michael, Fieremans, Els, Rudin, Markus
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8134484/
https://www.ncbi.nlm.nih.gov/pubmed/34011929
http://dx.doi.org/10.1038/s41467-021-22719-7
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author Georgiadis, Marios
Schroeter, Aileen
Gao, Zirui
Guizar-Sicairos, Manuel
Liebi, Marianne
Leuze, Christoph
McNab, Jennifer A.
Balolia, Aleezah
Veraart, Jelle
Ades-Aron, Benjamin
Kim, Sunglyoung
Shepherd, Timothy
Lee, Choong H.
Walczak, Piotr
Chodankar, Shirish
DiGiacomo, Phillip
David, Gergely
Augath, Mark
Zerbi, Valerio
Sommer, Stefan
Rajkovic, Ivan
Weiss, Thomas
Bunk, Oliver
Yang, Lin
Zhang, Jiangyang
Novikov, Dmitry S.
Zeineh, Michael
Fieremans, Els
Rudin, Markus
author_facet Georgiadis, Marios
Schroeter, Aileen
Gao, Zirui
Guizar-Sicairos, Manuel
Liebi, Marianne
Leuze, Christoph
McNab, Jennifer A.
Balolia, Aleezah
Veraart, Jelle
Ades-Aron, Benjamin
Kim, Sunglyoung
Shepherd, Timothy
Lee, Choong H.
Walczak, Piotr
Chodankar, Shirish
DiGiacomo, Phillip
David, Gergely
Augath, Mark
Zerbi, Valerio
Sommer, Stefan
Rajkovic, Ivan
Weiss, Thomas
Bunk, Oliver
Yang, Lin
Zhang, Jiangyang
Novikov, Dmitry S.
Zeineh, Michael
Fieremans, Els
Rudin, Markus
author_sort Georgiadis, Marios
collection PubMed
description Myelin insulates neuronal axons and enables fast signal transmission, constituting a key component of brain development, aging and disease. Yet, myelin-specific imaging of macroscopic samples remains a challenge. Here, we exploit myelin’s nanostructural periodicity, and use small-angle X-ray scattering tensor tomography (SAXS-TT) to simultaneously quantify myelin levels, nanostructural integrity and axon orientations in nervous tissue. Proof-of-principle is demonstrated in whole mouse brain, mouse spinal cord and human white and gray matter samples. Outcomes are validated by 2D/3D histology and compared to MRI measurements sensitive to myelin and axon orientations. Specificity to nanostructure is exemplified by concomitantly imaging different myelin types with distinct periodicities. Finally, we illustrate the method’s sensitivity towards myelin-related diseases by quantifying myelin alterations in dysmyelinated mouse brain. This non-destructive, stain-free molecular imaging approach enables quantitative studies of myelination within and across samples during development, aging, disease and treatment, and is applicable to other ordered biomolecules or nanostructures.
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spelling pubmed-81344842021-05-24 Nanostructure-specific X-ray tomography reveals myelin levels, integrity and axon orientations in mouse and human nervous tissue Georgiadis, Marios Schroeter, Aileen Gao, Zirui Guizar-Sicairos, Manuel Liebi, Marianne Leuze, Christoph McNab, Jennifer A. Balolia, Aleezah Veraart, Jelle Ades-Aron, Benjamin Kim, Sunglyoung Shepherd, Timothy Lee, Choong H. Walczak, Piotr Chodankar, Shirish DiGiacomo, Phillip David, Gergely Augath, Mark Zerbi, Valerio Sommer, Stefan Rajkovic, Ivan Weiss, Thomas Bunk, Oliver Yang, Lin Zhang, Jiangyang Novikov, Dmitry S. Zeineh, Michael Fieremans, Els Rudin, Markus Nat Commun Article Myelin insulates neuronal axons and enables fast signal transmission, constituting a key component of brain development, aging and disease. Yet, myelin-specific imaging of macroscopic samples remains a challenge. Here, we exploit myelin’s nanostructural periodicity, and use small-angle X-ray scattering tensor tomography (SAXS-TT) to simultaneously quantify myelin levels, nanostructural integrity and axon orientations in nervous tissue. Proof-of-principle is demonstrated in whole mouse brain, mouse spinal cord and human white and gray matter samples. Outcomes are validated by 2D/3D histology and compared to MRI measurements sensitive to myelin and axon orientations. Specificity to nanostructure is exemplified by concomitantly imaging different myelin types with distinct periodicities. Finally, we illustrate the method’s sensitivity towards myelin-related diseases by quantifying myelin alterations in dysmyelinated mouse brain. This non-destructive, stain-free molecular imaging approach enables quantitative studies of myelination within and across samples during development, aging, disease and treatment, and is applicable to other ordered biomolecules or nanostructures. Nature Publishing Group UK 2021-05-19 /pmc/articles/PMC8134484/ /pubmed/34011929 http://dx.doi.org/10.1038/s41467-021-22719-7 Text en © The Author(s) 2021 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Georgiadis, Marios
Schroeter, Aileen
Gao, Zirui
Guizar-Sicairos, Manuel
Liebi, Marianne
Leuze, Christoph
McNab, Jennifer A.
Balolia, Aleezah
Veraart, Jelle
Ades-Aron, Benjamin
Kim, Sunglyoung
Shepherd, Timothy
Lee, Choong H.
Walczak, Piotr
Chodankar, Shirish
DiGiacomo, Phillip
David, Gergely
Augath, Mark
Zerbi, Valerio
Sommer, Stefan
Rajkovic, Ivan
Weiss, Thomas
Bunk, Oliver
Yang, Lin
Zhang, Jiangyang
Novikov, Dmitry S.
Zeineh, Michael
Fieremans, Els
Rudin, Markus
Nanostructure-specific X-ray tomography reveals myelin levels, integrity and axon orientations in mouse and human nervous tissue
title Nanostructure-specific X-ray tomography reveals myelin levels, integrity and axon orientations in mouse and human nervous tissue
title_full Nanostructure-specific X-ray tomography reveals myelin levels, integrity and axon orientations in mouse and human nervous tissue
title_fullStr Nanostructure-specific X-ray tomography reveals myelin levels, integrity and axon orientations in mouse and human nervous tissue
title_full_unstemmed Nanostructure-specific X-ray tomography reveals myelin levels, integrity and axon orientations in mouse and human nervous tissue
title_short Nanostructure-specific X-ray tomography reveals myelin levels, integrity and axon orientations in mouse and human nervous tissue
title_sort nanostructure-specific x-ray tomography reveals myelin levels, integrity and axon orientations in mouse and human nervous tissue
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8134484/
https://www.ncbi.nlm.nih.gov/pubmed/34011929
http://dx.doi.org/10.1038/s41467-021-22719-7
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