Identification of cellular and noncellular components of mature intact human peripheral nerve

Gabriela I. Aparicio; Jorge E. Quintero; Lauren Plum; Lingxiao Deng; Kristen Wanczyk; Miriam Henry; Evan Lynch; Michael Murphy; Greg A. Gerhardt; Craig G. van Horne; Paula V. Monje

doi:10.1111/jns.12643

Identification of cellular and noncellular components of mature intact human peripheral nerve

Gabriela I. Aparicio
, Jorge E. Quintero
, Lauren Plum
, Lingxiao Deng
, Kristen Wanczyk
, Miriam Henry
, Evan Lynch
, Michael Murphy
, Greg A. Gerhardt
, Craig G. van Horne
, Paula V. Monje

Research output: Contribution to journal › Article › peer-review

Abstract

Background and Aims: The goal of this study was to define basic constituents of the adult peripheral nervous system (PNS) using intact human nerve tissues. Methods: We combined fluorescent and chromogenic immunostaining methods, myelin-selective fluorophores, and routine histological stains to identify common cellular and noncellular elements in aldehyde-fixed nerve tissue sections. We employed Schwann cell (SC)-specific markers, such as S100β, NGFR, Sox10, and myelin protein zero (MPZ), together with axonal, extracellular matrix (collagen IV, laminin, fibronectin), and fibroblast markers to assess the SC's relationship to myelin sheaths, axons, other cell types, and the acellular environment. Results: Whereas S100β and Sox10 revealed mature SCs in the absence of other stains, discrimination between myelinating and non-myelinating (Remak) SCs required immunodetection of NGFR along with axonal and/or myelin markers. Surprisingly, our analysis of NGFR+ profiles uncovered the existence of at least 3 different novel populations of NGFR+/S100β− cells, herein referred to as nonglial cells, residing in the stroma and perivascular areas of all nerve compartments. An important proportion of the nerve's cellular content, including circa 30% of endoneurial cells, consisted of heterogenous S100β negative cells that were not associated with axons. Useful markers to identify the localization and diversity of nonglial cell types across different compartments were Thy1, CD34, SMA, and Glut1, a perineurial cell marker. Interpretation: Our optimized methods revealed additional detailed information to update our understanding of the complexity and spatial orientation of PNS-resident cell types in humans.

Original language	English
Pages (from-to)	294-314
Number of pages	21
Journal	Journal of the Peripheral Nervous System
Volume	29
Issue number	3
DOIs	https://doi.org/10.1111/jns.12643
State	Published - Sep 2024

Bibliographical note

Publisher Copyright:
© 2024 Peripheral Nerve Society.

Funding

This study was funded by a NEU STAR grant from the Department of Neurosurgery, University of Kentucky College of Medicine (to PVM and GQ), the BRAIN Alliance grant from University of Kentucky College of Medicine (to GQ, CVH, and GG), the Ann Hanley Parkinson's Research fund (to CVV, GG, GQ), and the Indiana State Department of Health (Grant 43547 to PVM and LD). We thank Dana Napier and Katrina Fife from the Biospecimen Procurement and Translational Pathology Shared Resource Facility of the University of Kentucky Markey Cancer Center and Xu Fu from the Light Microscopy Core facility from the University of Kentucky for providing expert immunostaining services and access to capital equipment, respectively. Monica Chau and Sarah Messmer provided technical support and preliminary data. Valeria Nogueira contributed expertise on graphic design. Carmen Melendez‐Vasquez assisted with data interpretation. GIA received support from the Fulbright, Bunge & Born, and Williams Foundations program 2020–2021 and from the International Society for Neurochemistry‐Committee for Aid and Education in Neurochemistry in year 2021. L.D. received support from the Indiana State Department of Health (Grants 74247, 55051), the Veterans Affairs (VA‐5I01BX002356) and the National Institutes of Health (R21NS130241, R21NS084326, R01HL128827). This material is in part, the result of work supported with resources and the use of facilities at the Richard L. Roudebush VA Medical Center, Indianapolis, Indiana. The views expressed in this article are those of the authors and do not necessarily reflect the position or policy of funding agencies, including the Department of Veterans Affairs and the United States Government. We are greatly indebted to the generosity of the anonymous patients and their families for donating tissues for research.

Funders	Funder number
Fulbright, Bunge & Born
University of Kentucky College of Medicine
NEU STAR
Ann Hanley Parkinson's Research Fund
Department of Neurosurgery NEUSTAR
U.S. Department of Veterans Affairs	VA‐5I01BX002356
International Society for Neurochemistry—Committee for Aid and Education in Neurochemistry	74247, 55051
National Institutes of Health (NIH)	R21NS130241, R21NS084326, R01HL128827
Indiana State Department of Health	43547

Keywords

Schwann cells
extracellular matrix
fibroblasts
immunostaining markers
myelin

ASJC Scopus subject areas

General Neuroscience
Clinical Neurology

Access to Document

10.1111/jns.12643

Cite this

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title = "Identification of cellular and noncellular components of mature intact human peripheral nerve",

abstract = "Background and Aims: The goal of this study was to define basic constituents of the adult peripheral nervous system (PNS) using intact human nerve tissues. Methods: We combined fluorescent and chromogenic immunostaining methods, myelin-selective fluorophores, and routine histological stains to identify common cellular and noncellular elements in aldehyde-fixed nerve tissue sections. We employed Schwann cell (SC)-specific markers, such as S100β, NGFR, Sox10, and myelin protein zero (MPZ), together with axonal, extracellular matrix (collagen IV, laminin, fibronectin), and fibroblast markers to assess the SC's relationship to myelin sheaths, axons, other cell types, and the acellular environment. Results: Whereas S100β and Sox10 revealed mature SCs in the absence of other stains, discrimination between myelinating and non-myelinating (Remak) SCs required immunodetection of NGFR along with axonal and/or myelin markers. Surprisingly, our analysis of NGFR+ profiles uncovered the existence of at least 3 different novel populations of NGFR+/S100β− cells, herein referred to as nonglial cells, residing in the stroma and perivascular areas of all nerve compartments. An important proportion of the nerve's cellular content, including circa 30\% of endoneurial cells, consisted of heterogenous S100β negative cells that were not associated with axons. Useful markers to identify the localization and diversity of nonglial cell types across different compartments were Thy1, CD34, SMA, and Glut1, a perineurial cell marker. Interpretation: Our optimized methods revealed additional detailed information to update our understanding of the complexity and spatial orientation of PNS-resident cell types in humans.",

keywords = "Schwann cells, extracellular matrix, fibroblasts, immunostaining markers, myelin",

author = "Aparicio, \{Gabriela I.\} and Quintero, \{Jorge E.\} and Lauren Plum and Lingxiao Deng and Kristen Wanczyk and Miriam Henry and Evan Lynch and Michael Murphy and Gerhardt, \{Greg A.\} and \{van Horne\}, \{Craig G.\} and Monje, \{Paula V.\}",

note = "Publisher Copyright: {\textcopyright} 2024 Peripheral Nerve Society.",

year = "2024",

month = sep,

doi = "10.1111/jns.12643",

language = "English",

volume = "29",

pages = "294--314",

journal = "Journal of the Peripheral Nervous System",

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T1 - Identification of cellular and noncellular components of mature intact human peripheral nerve

AU - Aparicio, Gabriela I.

AU - Quintero, Jorge E.

AU - Plum, Lauren

AU - Deng, Lingxiao

AU - Wanczyk, Kristen

AU - Henry, Miriam

AU - Lynch, Evan

AU - Murphy, Michael

AU - Gerhardt, Greg A.

AU - van Horne, Craig G.

AU - Monje, Paula V.

PY - 2024/9

Y1 - 2024/9

N2 - Background and Aims: The goal of this study was to define basic constituents of the adult peripheral nervous system (PNS) using intact human nerve tissues. Methods: We combined fluorescent and chromogenic immunostaining methods, myelin-selective fluorophores, and routine histological stains to identify common cellular and noncellular elements in aldehyde-fixed nerve tissue sections. We employed Schwann cell (SC)-specific markers, such as S100β, NGFR, Sox10, and myelin protein zero (MPZ), together with axonal, extracellular matrix (collagen IV, laminin, fibronectin), and fibroblast markers to assess the SC's relationship to myelin sheaths, axons, other cell types, and the acellular environment. Results: Whereas S100β and Sox10 revealed mature SCs in the absence of other stains, discrimination between myelinating and non-myelinating (Remak) SCs required immunodetection of NGFR along with axonal and/or myelin markers. Surprisingly, our analysis of NGFR+ profiles uncovered the existence of at least 3 different novel populations of NGFR+/S100β− cells, herein referred to as nonglial cells, residing in the stroma and perivascular areas of all nerve compartments. An important proportion of the nerve's cellular content, including circa 30% of endoneurial cells, consisted of heterogenous S100β negative cells that were not associated with axons. Useful markers to identify the localization and diversity of nonglial cell types across different compartments were Thy1, CD34, SMA, and Glut1, a perineurial cell marker. Interpretation: Our optimized methods revealed additional detailed information to update our understanding of the complexity and spatial orientation of PNS-resident cell types in humans.

AB - Background and Aims: The goal of this study was to define basic constituents of the adult peripheral nervous system (PNS) using intact human nerve tissues. Methods: We combined fluorescent and chromogenic immunostaining methods, myelin-selective fluorophores, and routine histological stains to identify common cellular and noncellular elements in aldehyde-fixed nerve tissue sections. We employed Schwann cell (SC)-specific markers, such as S100β, NGFR, Sox10, and myelin protein zero (MPZ), together with axonal, extracellular matrix (collagen IV, laminin, fibronectin), and fibroblast markers to assess the SC's relationship to myelin sheaths, axons, other cell types, and the acellular environment. Results: Whereas S100β and Sox10 revealed mature SCs in the absence of other stains, discrimination between myelinating and non-myelinating (Remak) SCs required immunodetection of NGFR along with axonal and/or myelin markers. Surprisingly, our analysis of NGFR+ profiles uncovered the existence of at least 3 different novel populations of NGFR+/S100β− cells, herein referred to as nonglial cells, residing in the stroma and perivascular areas of all nerve compartments. An important proportion of the nerve's cellular content, including circa 30% of endoneurial cells, consisted of heterogenous S100β negative cells that were not associated with axons. Useful markers to identify the localization and diversity of nonglial cell types across different compartments were Thy1, CD34, SMA, and Glut1, a perineurial cell marker. Interpretation: Our optimized methods revealed additional detailed information to update our understanding of the complexity and spatial orientation of PNS-resident cell types in humans.

KW - Schwann cells

KW - extracellular matrix

KW - fibroblasts

KW - immunostaining markers

KW - myelin

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AN - SCOPUS:85197664984

SN - 1085-9489

VL - 29

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EP - 314

JO - Journal of the Peripheral Nervous System

JF - Journal of the Peripheral Nervous System

IS - 3

ER -

Identification of cellular and noncellular components of mature intact human peripheral nerve

Abstract

Bibliographical note

Funding

Keywords

ASJC Scopus subject areas

Access to Document

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