tretinoin and Autolysis

The role of chondrocyte metalloprotease (CMP) in mediating cartilage autolysis was studied. Proteoglycan (PG) release and synthesis by rabbit articular cartilage explants were measured. After a 1-day preculture in control medium, 3.3 X 10(-6) M retinoic acid (RET) treatment for 1 day stimulated PG release several fold. RET also caused a large decrease in PG synthesis that returned to the control level after a 3-day recovery period. The effect on PG synthesis was observed at serum levels of 5 and 0.05%. The effect of RET on PG release required protein synthesis, inasmuch as it was lost in cultures maintained in media without amino acids or in a low volume of media. Interleukin-1 (IL-1) and lipopolysaccharide (LPS) treatment for 2 days also stimulated PG release. More PG was released after RET than after IL-1 or LPS, and only RET produced an effect that was evident by day 1. The amount of CMP that produced the same size effect on PG release as these stimulators was below the detection level of PG protease assays. Three potent CMP inhibitors reduced RET-, IL-1- and LPS-stimulated PG release to control levels. These inhibitors did not block another action of RET on chondrocytes, namely the inhibition of PG synthesis by RET immediately after treatment. The inhibitors did not act by reducing cell viability, because recovery of the rate of PG synthesis 3 days post-treatment occurred in inhibitor-treated cultures. These studies suggest that CMP is involved in cartilage autolysis that is stimulated by RET and IL-1.

Topics: Animals; Autolysis; Cartilage; Cartilage, Articular; Culture Techniques; Endopeptidases; Interleukin-1; Lipopolysaccharides; Metalloendopeptidases; Phenanthrolines; Protease Inhibitors; Proteoglycans; Rabbits; Tretinoin

Cartilage which undergoes extensive autolysis in vitro (spontaneous or stimulated) is characterized by proteoglycan loss. Experimental conditions and inhibitor profils studies suggest neutral metalloproteinases induce the autolysis. In these preliminary studies we compared the degradation of Na2 35SO4 labeled bovine nasal cartilage (BNC) plugs placed in dialysis tubing in vitro and in vivo. The dialysis tubing was used to exclude large molecules (molecular weights greater than 2000) like proteinases, and proteinase inhibitors (e.g. alpha 2-macroglobulin) but not potential test agents from the implanted cartilage. Cartilage autolysis occurred with live tissue but not with heat-killed tissue in both the in vitro and in vivo systems. In addition retinoic acid and phenanthroline were effective when placed inside or outside the dialysis tubing. A potentially useful procedure to evaluate agents which affect cartilage degradation is described.

Topics: Animals; Autolysis; Cartilage; Cattle; Dialysis; In Vitro Techniques; Phenanthrolines; Tretinoin

The in vitro degradation of rabbit articular cartilage explants was evaluated with and without the addition of retinoic acid under various experimental conditions. Retinoic acid at nontoxic concentrations ranging from 1 X 10(-7) to 1 X 10(-5) M significantly increased cartilage degradation. The addition of phenanthroline or cycloheximide, but not pepstatin, significantly inhibited spontaneous and retinoic-acid-stimulated cartilage degradation at pH 7. When the pH was reduced to 5, only pepstatin inhibited spontaneous and retinoic-acid-stimulated cartilage degradation. No chondroitin sulphate release was observed when the temperature was reduced to 4 degrees C. The different inhibitory profiles observed at pH 7 and pH 5 suggest that cartilage degradation at pH 7 is associated with the presence and synthesis of a neutral metalloproteinase.

Topics: Animals; Autolysis; Cartilage, Articular; Cell Survival; Cycloheximide; Hydrogen-Ion Concentration; In Vitro Techniques; Male; Phenanthrolines; Proteoglycans; Rabbits; Temperature; Tretinoin