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Articular Cartilage Extracellular Matrix

The proposed organization of proteins and glycoproteins within the extracellular matrix of articular cartilage is shown below.

Articular Cartilage Extracellular Matrix
Fibromodulin
Fibromodulin
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Decorin
Decorin
Decorin
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Decorin
Aggrecan
Aggrecan
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Aggrecan
Collagen II
Fiber
Collagen II
Fiber
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Collagen II
COMP
COMP
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Matrilin-4
Matrilin-4
Matrilin-4
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Matrilin-4
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Biglycan
Biglycan
Biglycan
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Biglycan
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PRELP
PRELP
PRELP
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PRELP
Integrin
alpha 5 beta 1
Integrin
alpha 5 beta 1
Integrin
alpha 10 beta 1
Integrin
alpha 10 beta 1
Integrin
alpha 2 beta 1
Integrin
alpha 2 beta 1
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CD44
CD44
CD44
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CD44
Syndecan
1/3
Syndecan
1/3
Collagen XIII
Collagen XIII
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DDR2
DDR2
Homodimer
DDR2
Homodimer
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DDR2
Hyaluronan
Hyaluronan
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Hyaluronan
Keratan Sulfate
Keratan Sulfate
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Dermatan Sulfate
Dermatan Sulfate
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Heparan Sulfate
Heparan Sulfate
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Chondroitin Sulfate
Chondroitin Sulfate
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Fibronectin
Fibronectin
Fibronectin
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Fibronectin
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Biglycan
Biglycan
Biglycan
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Biglycan
Sulfates
Sulfates
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Matrilin-4
Matrilin-4
Matrilin-4
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Matrilin-4
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Collagen IX
Collagen IX
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Collagen IX
Collagen IX
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Collagen IX
Collagen IX
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HAPLN1
HAPLN1/Link Protein
HAPLN1/Link Protein
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HAPLN1
Collagen VI
Collagen VI
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Chondroadherin
Chondroadherin
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Articular Cartilage Extracellular Matrix

Overview of Articular Cartilage Extracellular Matrix

There are three classic types of cartilage: articular, fibrous, and elastic. Articular cartilage, also known as hyaline cartilage, is found in freely movable synovial joints such as the knee. Its function is to provide lubrication, absorb and distribute compressive load, and withstand shear stress during joint movement. Articular cartilage consists of one cell type, articular chondrocytes, and the extracellular matrix provided by these cells. The matrix is comprised primarily of collagen, proteoglycans, and water molecules. Collagens are the most abundant protein family in articular cartilage. Collagen II forms fibrils that provide tensile strength throughout the extracellular matrix. Collagen VI is thought to form hexagonal networks in close proximity to cells where it can be linked to Collagen II fibrils via Matrilin-4 and Biglycan. Proteoglycans are the major non-collagenous proteins found in articular cartilage. The most abundant is Aggrecan, which is modified with chains of chondroitin sulfate and keratan sulfate, and interacts with Hyaluronan. The chondroitin sulfate and keratan sulfate chains bind water molecules and the resulting hydrated Aggrecan provides lubrication within the joint and contributes to the load-bearing capacity of articular cartilage. Small leucine-rich proteins/proteoglycans (SLRPs), including Fibromodulin, Decorin, Biglycan, PRELP, and Chondroadherin, are also important for proper articular cartilage function. All SLRP family members are able to bind fibril-forming collagens. Chondroadherin and PRELP are also able to bind members of the Syndecan family of cell surface proteoglycans. Degeneration of articular cartilage accompanies several arthropathies including osteoarthritis.