An Ex Vivo Tissue Culture Model of Cartilage Remodeling in Bovine Knee Explants

Christian S. Thudium; Amalie Engstrom; Solveig S. Groen; Morten A. Karsdal; Anne-Christine Bay-Jensen

doi:10.3791/59467

An Ex Vivo Tissue Culture Model of Cartilage Remodeling in Bovine Knee Explants

Christian S. Thudium, Amalie Engstrom, Solveig S. Groen, Morten A. Karsdal, Anne-Christine Bay-Jensen

Department of Biomedical Sciences

Abstract

Ex vivo culture systems cover a broad range of experiments dedicated to studying tissue and cellular function in a native setting. Cartilage is a unique tissue important for proper function of the synovial joint and is constituted by a dense extracellular matrix (ECM), rich in proteoglycan and type II collagen. Chondrocytes are the only cell type present within cartilage and are widespread and relatively low in number. Altered external stimuli and cellular signalling can lead to changes in ECM composition and deterioration, which are important pathological hallmarks in diseases such as osteoarthritis (OA) and rheumatoid arthritis.

Ex vivo cartilage models allow 1) profiling of chondrocyte mediated alterations of cartilage tissue turnover, 2) visualizing the cartilage ECM composition, and 3) chondrocyte rearrangement directly in the tissue. Profiling these alterations in response to stimuli or treatments are of high importance in various aspects of cartilage biology, and complement in vitro experiments in isolated chondrocytes, or more complex models in live animals where experimental conditions are more difficult to control.

Cartilage explants present a translational and easily accessible method for assessing tissue remodeling in the cartilage ECM in controllable settings. Here, we describe a protocol for isolating and culturing live bovine cartilage explants. The method uses tissue from the bovine knee, which is easily accessible from the local butchery. Both explants and conditioned culture medium can be analyzed to investigate tissue turnover, ECM composition, and chondrocyte function, thus profiling ECM modulation.

Original language	English
Article number	e59467
Journal	Journal of Visualized Experiments
Volume	153
ISSN	1940-087X
DOIs	https://doi.org/10.3791/59467
Publication status	Published - Nov 2019

Keywords

Biology
Issue 153
cartilage explants
biomarkers
extracellular matrix
osteoarthritis
ex vivo
translational

Access to Document

10.3791/59467

Cite this

@article{d9d68993c9d741a6814ea137f0fb3430,

title = "An Ex Vivo Tissue Culture Model of Cartilage Remodeling in Bovine Knee Explants",

abstract = "Ex vivo culture systems cover a broad range of experiments dedicated to studying tissue and cellular function in a native setting. Cartilage is a unique tissue important for proper function of the synovial joint and is constituted by a dense extracellular matrix (ECM), rich in proteoglycan and type II collagen. Chondrocytes are the only cell type present within cartilage and are widespread and relatively low in number. Altered external stimuli and cellular signalling can lead to changes in ECM composition and deterioration, which are important pathological hallmarks in diseases such as osteoarthritis (OA) and rheumatoid arthritis. Ex vivo cartilage models allow 1) profiling of chondrocyte mediated alterations of cartilage tissue turnover, 2) visualizing the cartilage ECM composition, and 3) chondrocyte rearrangement directly in the tissue. Profiling these alterations in response to stimuli or treatments are of high importance in various aspects of cartilage biology, and complement in vitro experiments in isolated chondrocytes, or more complex models in live animals where experimental conditions are more difficult to control. Cartilage explants present a translational and easily accessible method for assessing tissue remodeling in the cartilage ECM in controllable settings. Here, we describe a protocol for isolating and culturing live bovine cartilage explants. The method uses tissue from the bovine knee, which is easily accessible from the local butchery. Both explants and conditioned culture medium can be analyzed to investigate tissue turnover, ECM composition, and chondrocyte function, thus profiling ECM modulation.",

keywords = "Biology, Issue 153, cartilage explants, biomarkers, extracellular matrix, osteoarthritis, ex vivo, translational",

author = "Thudium, {Christian S.} and Amalie Engstrom and Groen, {Solveig S.} and Karsdal, {Morten A.} and Anne-Christine Bay-Jensen",

year = "2019",

month = nov,

doi = "10.3791/59467",

language = "English",

volume = "153",

journal = "Journal of Visualized Experiments",

issn = "1940-087X",

publisher = "Journal of Visualized Experiments",

}

TY - JOUR

T1 - An Ex Vivo Tissue Culture Model of Cartilage Remodeling in Bovine Knee Explants

AU - Thudium, Christian S.

AU - Engstrom, Amalie

AU - Groen, Solveig S.

AU - Karsdal, Morten A.

AU - Bay-Jensen, Anne-Christine

PY - 2019/11

Y1 - 2019/11

N2 - Ex vivo culture systems cover a broad range of experiments dedicated to studying tissue and cellular function in a native setting. Cartilage is a unique tissue important for proper function of the synovial joint and is constituted by a dense extracellular matrix (ECM), rich in proteoglycan and type II collagen. Chondrocytes are the only cell type present within cartilage and are widespread and relatively low in number. Altered external stimuli and cellular signalling can lead to changes in ECM composition and deterioration, which are important pathological hallmarks in diseases such as osteoarthritis (OA) and rheumatoid arthritis. Ex vivo cartilage models allow 1) profiling of chondrocyte mediated alterations of cartilage tissue turnover, 2) visualizing the cartilage ECM composition, and 3) chondrocyte rearrangement directly in the tissue. Profiling these alterations in response to stimuli or treatments are of high importance in various aspects of cartilage biology, and complement in vitro experiments in isolated chondrocytes, or more complex models in live animals where experimental conditions are more difficult to control. Cartilage explants present a translational and easily accessible method for assessing tissue remodeling in the cartilage ECM in controllable settings. Here, we describe a protocol for isolating and culturing live bovine cartilage explants. The method uses tissue from the bovine knee, which is easily accessible from the local butchery. Both explants and conditioned culture medium can be analyzed to investigate tissue turnover, ECM composition, and chondrocyte function, thus profiling ECM modulation.

AB - Ex vivo culture systems cover a broad range of experiments dedicated to studying tissue and cellular function in a native setting. Cartilage is a unique tissue important for proper function of the synovial joint and is constituted by a dense extracellular matrix (ECM), rich in proteoglycan and type II collagen. Chondrocytes are the only cell type present within cartilage and are widespread and relatively low in number. Altered external stimuli and cellular signalling can lead to changes in ECM composition and deterioration, which are important pathological hallmarks in diseases such as osteoarthritis (OA) and rheumatoid arthritis. Ex vivo cartilage models allow 1) profiling of chondrocyte mediated alterations of cartilage tissue turnover, 2) visualizing the cartilage ECM composition, and 3) chondrocyte rearrangement directly in the tissue. Profiling these alterations in response to stimuli or treatments are of high importance in various aspects of cartilage biology, and complement in vitro experiments in isolated chondrocytes, or more complex models in live animals where experimental conditions are more difficult to control. Cartilage explants present a translational and easily accessible method for assessing tissue remodeling in the cartilage ECM in controllable settings. Here, we describe a protocol for isolating and culturing live bovine cartilage explants. The method uses tissue from the bovine knee, which is easily accessible from the local butchery. Both explants and conditioned culture medium can be analyzed to investigate tissue turnover, ECM composition, and chondrocyte function, thus profiling ECM modulation.

KW - Biology

KW - Issue 153

KW - cartilage explants

KW - biomarkers

KW - extracellular matrix

KW - osteoarthritis

KW - ex vivo

KW - translational

U2 - 10.3791/59467

DO - 10.3791/59467

M3 - Journal article

C2 - 31736479

SN - 1940-087X

VL - 153

JO - Journal of Visualized Experiments

JF - Journal of Visualized Experiments

M1 - e59467

ER -