Tumor necrosis factor-? induced DNA cleavage in human articular chondrocytes may involve multiple endonucleolytic activities during apoptosis

Apoptosis has been documented in chondrocytes both in the growth plates of young, healthy cartilages and in osteoarthritic cartilages; little, however, is known about apoptosis in chondrocytes of normal adult articular cartilage. For the current study, apoptosis in adult chondrocytes was evaluated by labeling DNA fragments using the ISEL in situ end labeling of 3'-recessed strand breaks) or TUNEL (5'-recessed or blunt-ended strand breaks with terminal deoxynucleotidyl transferase-mediated nick end labeling) techniques in primary cultures of chondrocytes in monolayer. Apoptosis was induced in the chondrocytes by either Tumor Necrosis Factor alpha (TNF alpha), Interleukin 1-beta (IL-1 beta), or anti-Fas antibody but only after 48 hours in culture. At 4 and 24 hours, there was no detectable DNA fragmentation. With TNF alpha, IL1 beta, and anti-Fas antibody, chondrocytes show evidence of at least two types of DNA strand breaks within the same cell (as assessed by simultaneous labeling with ISEL and TUNEL). Therefore, some pathways leading to apoptosis in chondrocytes appear to involve more than one type of endonuclease activity. When the chondrocytes were cultured as explants with the articular matrix intact (ex vivo), neither IL-1 beta, TNF alpha, the anti-Fas antibody, nor fibronectin fragments were able to induce apoptosis in the chondrocytes. In normal human adult cartilage that was untreated and uncultured (in situ), DNA fragmentation was undetectable; however, a significant number of chondrocytes in osteoarthritic cartilage did contain strand breaks. These data suggest that apoptosis occurs in chondrocytes in which the matrix has been disrupted experimentally or destroyed by the osteoarthritic disease process. The results of these studies suggest that the ECM may be an essential survival factor for chondrocytes.