Abstract
This paper presents versatile protocols to prepare primary human Schwann cell (hSC) cultures from mature peripheral nervous system tissues, including fascicles from long spinal nerves, nerve roots, and ganglia. This protocol starts with a description of nerve tissue procurement, handling, and dissection to obtain tissue sections suitable for hSC isolation and culturing. A description follows on how to disintegrate the nerve tissue by delayed enzymatic dissociation, plate the initial cell suspensions on a two-dimensional substrate, and culture the primary hSCs. Each section contains detailed procedures, technical notes, and background information to aid investigators in understanding and managing all steps. Some general recommendations are made to optimize the recovery, growth, and purity of the hSC cultures irrespective of the tissue source. These recommendations include: (1) pre-culturing epineurium- and perineurium-free nerve fascicles under conditions of adherence or suspension depending on the size of the explants to facilitate the release of proliferative, in vitro–activated hSCs; (2) plating the initial cell suspensions as individual droplets on a laminin-coated substrate to expedite cell adhesion and thereby increase the recovery of viable cells; and (3) culturing the fascicles (pre-degeneration step) and the cells derived therefrom in mitogen- and serum-supplemented medium to accelerate hSC dedifferentiation and promote mitogenesis before and after tissue dissociation, respectively. The hSC cultures obtained as suggested in this protocol are suitable for assorted basic and translational research applications. With the appropriate adaptations, donor-relevant hSC cultures can be prepared using fresh or postmortem tissue biospecimens of a wide range of types and sizes.
Original language | English |
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Article number | e4748 |
Journal | Bio-protocol |
Volume | 13 |
Issue number | 17 |
DOIs | |
State | Published - 2023 |
Bibliographical note
Publisher Copyright:Copyright: © 2023 The Authors;
Funding
We recognize Ketty Bacallao and Natalia Andersen for expert technical assistance, and Patrick Wood and Mary Bunge for their valuable mentoring. Michael Murphy, Kristen Wanczyk, Jamie Bradbury, Greg Gerhardt, Craig van Horne, and George Quintero contributed tissue specimens via institutional Materials Transfer Agreements. Former colleagues from the University of Miami (UM), Yelena Pressman, Linda White, Anna Gomez, Gagani Athauda, Peggy Bates, Aisha Khan, Adriana Brooks, Risset Silvera, Maxwell Donaldson, and James Guest are kindly acknowledged for their valuable input over many years of shared work. The protocols described here were developed and optimized during a >10-year period supported by funding (to P.V.M.) from the National Institutes of Health NIH-NINDS (NS084326), the Craig H Neilsen Foundation, The Miami Project to Cure Paralysis and the Buoniconti Foundation from the University of Miami, and the Indiana State Department of Health (grants 33997 and 43547). G.I.A received support from the International Society for Neurochemistry-Committee for Aid and Education in Neurochemistry (ISN-CAEN), the Fulbright, Bunge & Born, Williams Foundations (program 2020–2021), and CONICET-Argentina. P.V.M. and G.I.A. received support from the Department of Neurosurgery at the University of Kentucky. The contents of this article are the authors' responsibility and do not necessarily represent the official views of the funding agencies. We are grateful to Lingxiao Deng for fruitful scientific discussions and lab support. We thank Beth Ansel for critical review, Valeria Nogueira for illustrations, and Louise Pay for English editing. We are greatly indebted to the generosity of the anonymous patients and their families for donating tissues for research. We recognize Ketty Bacallao and Natalia Andersen for expert technical assistance, and Patrick Wood and Mary Bunge for their valuable mentoring. Michael Murphy, Kristen Wanczyk, Jamie Bradbury, Greg Gerhardt, Craig van Horne, and George Quintero contributed tissue specimens via institutional Materials Transfer Agreements. Former colleagues from the University of Miami (UM), Yelena Pressman, Linda White, Anna Gomez, Gagani Athauda, Peggy Bates, Aisha Khan, Adriana Brooks, Risset Silvera, Maxwell Donaldson, and James Guest are kindly acknowledged for their valuable input over many years of shared work. The protocols described here were developed and optimized during a >10-year period supported by funding (to P.V.M.) from the National Institutes of Health NIH-NINDS (NS084326), the Craig H Neilsen Foundation, The Miami Project to Cure Paralysis and the Buoniconti Foundation from the University of Miami, and the Indiana State Department of Health (grants 33997 and 43547). G.I.A received support from the International Society for Neurochemistry-Committee for Aid and Education in Neurochemistry (ISN-CAEN), the Fulbright, Bunge & Born, Williams Foundations (program 2020– 2021), and CONICET-Argentina. P.V.M. and G.I.A. received support from the Department of Neurosurgery at the University of Kentucky. The contents of this article are the authors' responsibility and do not necessarily represent the official views of the funding agencies. We are grateful to Lingxiao Deng for fruitful scientific discussions and lab support. We thank Beth Ansel for critical review, Valeria Nogueira for illustrations, and Louise Pay for English editing. We are greatly indebted to the generosity of the anonymous patients and their families for donating tissues for research.
Funders | Funder number |
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CONICET-Argentina | |
Department of Neurosurgery | |
Fulbright, Bunge & Born | |
International Society for Neurochemistry—Committee for Aid and Education in Neurochemistry | |
James Guest | |
Miami Project to Cure Paralysis | |
National Institutes of Health NIH-NINDS | NS084326 |
Craig H. Neilsen Foundation | |
Miami Clinical and Translational Science Institute, University of Miami | |
Indiana State Department of Health | 33997, 43547 |
University of Kentucky | |
Fundación Williams |
Keywords
- Adherent substrates
- Cell culture
- Ensheathing glia
- Fibroblasts
- Human Schwann cells
- Mitogenic factors
- Peripheral nerve
- Pre-degeneration
- Tissue culture
- Tissue procurement
ASJC Scopus subject areas
- General Neuroscience
- General Biochemistry, Genetics and Molecular Biology
- General Immunology and Microbiology
- Plant Science