INDIGO Home University of Illinois at Urbana-Champaign logo uic building uic pavilion uic student center

The history of myelin.

Show full item record

Bookmark or cite this item: http://hdl.handle.net/10027/21385

Files in this item

File Description Format
PDF The history of myelin.pdf (718KB) Manuscript PDF
Title: The history of myelin.
Author(s): Boullerne AI
Subject(s): History Invertebrates Myelin Oligodendrocyte Schwann cell
Abstract: Andreas Vesalius is attributed the discovery of white matter in the 16th century but van Leeuwenhoek is arguably the first to have observed myelinated fibers in 1717. A globular myelin theory followed, claiming all elements of the nervous system except for Fontana's primitive cylinder with outer sheath in 1781. Remak's axon revolution in 1836 relegated myelin to the unknown. Ehrenberg described nerve tubes with double borders in 1833, and Schwann with nuclei in 1839, but the medullary sheath acquired its name of myelin, coined by Virchow, only in 1854. Thanks to Schultze's osmium specific staining in 1865, myelin designates the structure known today. The origin of myelin though was baffling. Only after Ranvier discovered a periodic segmentation, which came to us as nodes of Ranvier, did he venture suggesting in 1872 that the nerve internode was a fatty cell secreting myelin in cytoplasm. Ranvier's hypothesis was met with high skepticism, because nobody could see the cytoplasm, and the term Schwann cell very slowly emerged into the vocabulary with von Lenhossék in 1895. When Cajal finally admitted the concept of Schwann cell internode in 1912, he still firmly believed myelin was secreted by the axon. Del Río-Hortega re-discovered oligodendrocytes in 1919 (after Robertson in 1899) and named them oligodendroglia in 1921, thereby antagonizing Cajal for discovering a second cell type in his invisible third element. Penfield had to come to del Río-Hortega's rescue in 1924 for oligodendrocytes to be accepted. They jointly hypothesized myelin could be made by oligodendrocytes, considered the central equivalent of Schwann cells. Meanwhile myelin birefringence properties observed by Klebs in 1865 then Schmidt in 1924 confirmed its high fatty content, ascertained by biochemistry by Thudichum in 1884. The 20th century saw X-ray diffraction developed by Schmitt, who discovered in 1935 the crystal-like organization of this most peculiar structure, and devised the g-ratio concept in 1937. A revolution happened around the same time: saltatory conduction, the very reason for myelin existence, discovered by Tasaki in 1939 and confirmed by Huxley and Stämpfli in 1949. After the second world war, widely available electron microscopes allowed Geren to finally discover the origin of myelin in 1954, exactly a century after Virchow coined 'myelin' in 1854. Geren had the genial insight that the Schwann cell wraps around the axon and generates a spiral of compacted membrane-myelin. The central origin of myelin took a little longer due to the special configuration of oligodendrocyte distanced from the axon, but in 1962 the Bunges established the definitive proof that oligodendrocyte secretes myelin. The era of myelin biology had begun. In 1973 Norton devised a method to purify myelin which launched the modern molecular era.
Issue Date: 2016-09
Publisher: Elsevier Inc.
Citation Info: Boullerne, A. I. The history of myelin. Experimental Neurology. 2016. 283: 431-445. DOI: 10.1016/j.expneurol.2016.06.005.
Type: Article
Description: This is the author’s version of a work that was accepted for publication in Experimental Neurology. Changes resulting from the publishing process, such as peer review, editing, corrections, structural formatting, and other quality control mechanisms may not be reflected in this document. Changes may have been made to this work since it was submitted for publication. A definitive version was subsequently published in Experimental Neurology. 2016. 283: 431-445. DOI: 10.1016/j.expneurol.2016.06.005.
URI: http://hdl.handle.net/10027/21385
ISSN: 0014-4886
Sponsor: This work was supported by NIH/NLM grant G13LM011465.
Date Available in INDIGO: 2017-10-09
 

This item appears in the following Collection(s)

Show full item record

Statistics

Country Code Views
China 45
United States of America 41
Russian Federation 22
Ukraine 14
United Kingdom 5

Browse

My Account

Information

Access Key