Add to ORKGChondrocytes exist in an unusual and variable ionic and osmotic environment in the extracellular matrix of cartilage and are responsible for maintaining the delicate equilibrium between extracellular matrix synthesis and degradation. The mechanical performance of cartilage relies on the biochemical properties of the matrix. Alterations to the ionic and osmotic extracellular environment of chondrocytes have been shown to influence the volume, intracellular pH and ionic content of the cells, which in turn modify the synthesis and degradation of extracellular matrix macromolecules. Physiological ion homeostasis is fundamental to the routine functioning of cartilage and the factors that control the integrity of this highly evolved and specializ...
Abstract Background: Although the chondrocyte is a nonexcitable cell, there is strong interest in g...
Chondrocytes in cartilage are embedded in a matrix containing a high concentration of proteoglycans ...
Incubation with serum modulates the transporters that regulate intracellular pH (pH(i)) in articular...
Chondrocytes exist in an unusual and variable ionic and osmotic environment in the extracellular mat...
Chondrocytes exist in an unusual and variable ionic and osmotic environment in the extracellular mat...
The chondrocyte is the cell responsible for the maintenance of the articular cartilage matrix. The n...
The chondrocyte is the cell responsible for the maintenance of the articular cartilage matrix. The n...
The abundance of Na+, K+-ATPase in cartilage is controlled by the ionic composition of the extracell...
Chondrocytes are the cells of articular cartilage responsible for the production and maintenance of ...
The maintenance of a relatively low intracellular Na+:K+ ratio is essential for the functioning of a...
We have previously shown that intracellular pH (pH,) in the articular chondrocyte is regulated by a ...
In this article, the second of two, we continue our studies of sodium-dependent transport systems in...
In this article, the second of two, we continue our studies of sodium-dependent transport systems in...
Chondrocytes are the resident cells of articular cartilage and are responsible for synthesizing a ra...
The plasma membrane abundance of the Na+/K+ pump or Na+,K+-ATPase depends on the intracellular conce...
Abstract Background: Although the chondrocyte is a nonexcitable cell, there is strong interest in g...
Chondrocytes in cartilage are embedded in a matrix containing a high concentration of proteoglycans ...
Incubation with serum modulates the transporters that regulate intracellular pH (pH(i)) in articular...
Chondrocytes exist in an unusual and variable ionic and osmotic environment in the extracellular mat...
Chondrocytes exist in an unusual and variable ionic and osmotic environment in the extracellular mat...
The chondrocyte is the cell responsible for the maintenance of the articular cartilage matrix. The n...
The chondrocyte is the cell responsible for the maintenance of the articular cartilage matrix. The n...
The abundance of Na+, K+-ATPase in cartilage is controlled by the ionic composition of the extracell...
Chondrocytes are the cells of articular cartilage responsible for the production and maintenance of ...
The maintenance of a relatively low intracellular Na+:K+ ratio is essential for the functioning of a...
We have previously shown that intracellular pH (pH,) in the articular chondrocyte is regulated by a ...
In this article, the second of two, we continue our studies of sodium-dependent transport systems in...
In this article, the second of two, we continue our studies of sodium-dependent transport systems in...
Chondrocytes are the resident cells of articular cartilage and are responsible for synthesizing a ra...
The plasma membrane abundance of the Na+/K+ pump or Na+,K+-ATPase depends on the intracellular conce...
Abstract Background: Although the chondrocyte is a nonexcitable cell, there is strong interest in g...
Chondrocytes in cartilage are embedded in a matrix containing a high concentration of proteoglycans ...
Incubation with serum modulates the transporters that regulate intracellular pH (pH(i)) in articular...