Matrix Bound Nanovesicles Have Tissue-Specific Characteristics That Suggest a Regulatory Role

Neill J. Turner; Lina M. Quijano; George S. Hussey; P. Jiang; Stephen F. Badylak

doi:10.1089/ten.tea.2022.0091

Matrix Bound Nanovesicles Have Tissue-Specific Characteristics That Suggest a Regulatory Role

Neill J. Turner
, Lina M. Quijano
, George S. Hussey
, P. Jiang
, Stephen F. Badylak

McGowan Institute for Regenerative Medicine
University of Pittsburgh School of Medicine
University of Pittsburgh

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

28 Scopus citations

Abstract

Recent studies have identified an extracellular vesicle population that is tightly anchored within the extracellular matrix (ECM) of tissues and organs until released by matrix turnover events. Evidence suggests that these matrix-bound nanovesicles (MBVs) are a ubiquitous component of the ECM, raising questions regarding their tissue-specific identity and their biologic function(s). The primary objective of this study was to examine MBVs isolated from six different tissues and compare their physical and compositional characteristics to determine the common and differentially expressed features. Accordingly, the results of this characterization show that while MBVs are a ubiquitous component of the ECM, they contain a protein and microRNA cargo that is tissue specific. The results furthermore suggest that MBVs have an important role in regulating tissue homeostasis.

Original language	English
Pages (from-to)	879-892
Number of pages	14
Journal	Tissue Engineering - Part A
Volume	28
Issue number	21-22
DOIs	https://doi.org/10.1089/ten.tea.2022.0091
State	Published - Nov 1 2022

Keywords

extracellular matrix
extracellular vesicles
matrix-bound nanovesicles
microvesicles

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10.1089/ten.tea.2022.0091

Cite this

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title = "Matrix Bound Nanovesicles Have Tissue-Specific Characteristics That Suggest a Regulatory Role",

abstract = "Recent studies have identified an extracellular vesicle population that is tightly anchored within the extracellular matrix (ECM) of tissues and organs until released by matrix turnover events. Evidence suggests that these matrix-bound nanovesicles (MBVs) are a ubiquitous component of the ECM, raising questions regarding their tissue-specific identity and their biologic function(s). The primary objective of this study was to examine MBVs isolated from six different tissues and compare their physical and compositional characteristics to determine the common and differentially expressed features. Accordingly, the results of this characterization show that while MBVs are a ubiquitous component of the ECM, they contain a protein and microRNA cargo that is tissue specific. The results furthermore suggest that MBVs have an important role in regulating tissue homeostasis.",

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AU - Quijano, Lina M.

AU - Hussey, George S.

AU - Jiang, P.

AU - Badylak, Stephen F.

PY - 2022/11/1

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AB - Recent studies have identified an extracellular vesicle population that is tightly anchored within the extracellular matrix (ECM) of tissues and organs until released by matrix turnover events. Evidence suggests that these matrix-bound nanovesicles (MBVs) are a ubiquitous component of the ECM, raising questions regarding their tissue-specific identity and their biologic function(s). The primary objective of this study was to examine MBVs isolated from six different tissues and compare their physical and compositional characteristics to determine the common and differentially expressed features. Accordingly, the results of this characterization show that while MBVs are a ubiquitous component of the ECM, they contain a protein and microRNA cargo that is tissue specific. The results furthermore suggest that MBVs have an important role in regulating tissue homeostasis.

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Matrix Bound Nanovesicles Have Tissue-Specific Characteristics That Suggest a Regulatory Role

Abstract

Keywords

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