Sharon Okouneff scite author profile

Objective. To determine if early focal lesions seen in aging exhibit molecular changes in the extracellular matrix that are similar to those seen in osteoarthritis (OA) and to examine the interrelationships between matrix degradation and synthesis and how they relate to cartilage turnover.Methods. Condylar cartilage was obtained postmortem from lesion-free joints and from the lesion (where present as well as) from areas adjacent to and remote from the lesion of 31 knees without signs of joint injury (damage to ligaments or menisci). Cartilage was graded histologically and assayed for type II collagen and proteoglycan aggrecan glycosaminoglycan (GAG) contents and turnover (specifically, type II collagen denaturation and its cleavage by collagenase), type II collagen synthesis (C-propeptide [CPII] content), and aggrecan turnover (846 epitope content). To study the degradation of aggrecan reflected by the release of GAG, we cultured cartilage samples from 10 knees.Results. The more degenerated cartilage from the lesion and adjacent area exhibited significantly more collagen cleavage by collagenase than did cartilage remote from the lesion. Type II collagen denaturation and synthesis were also significantly elevated in the lesion and adjacent cartilage, but neither cleavage nor denaturation correlated with synthesis. Type II collagen content decreased with increasing degeneration, with the lowest levels present in the lesion. Collagen content was indirectly related to denaturation and cleavage adjacent to and remote from the lesion and to denaturation within the lesion. Collagen cleavage and denaturation adjacent to and remote from the lesion were directly interrelated. Cartilage from the lesion contained significantly less GAG than did cartilage adjacent to and remote from the lesion. Aggrecan turnover (846 epitope) was also elevated in both the lesion and adjacent cartilage, whereas GAG release was elevated only in the lesion. GAG and 846 epitope contents were interrelated only at sites remote from the lesion. There was also a direct correlation between collagen and GAG contents in the lesion and in adjacent sites. This correlation was also seen between collagen synthesis (CPII) and the 846 epitope.Conclusion. These results demonstrate that lesions seen in aging exhibit molecular changes in matrix turnover similar to those seen in OA articular cartilage at arthroplasty, but not in healthy normal aging cartilage. The direct relationships between type II collagen cleavage and denaturation and the inverse relationship between type II collagen content and cleavage or denaturation implicate collagenase activity and damage to collagen in this loss of collagen during lesion development. The lack of correlation of the increased synthesis with the degradation or content of type II collagen indicates that these aspects of turnover are not coordinated in the pathologic state. However, the direct relationship between collagen and GAG contents in and adjacent to the lesion illustrates the structural interrelationships of colla...

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Excessive degradation of type II collagen in articular cartilage in equine osteochondrosis

Laverty¹,

Okouneff²,

Ionescu³

et al. 2002

Journal Orthopaedic Research

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Articular osteochondrosis (OCD) occurs in both man and animals. The etiology remains to be determined. Studies of OCD lesions in animals may provide clues as to its pathogenesis. The aim of our study was to determine whether there was evidence for increased degradation namely proteoglycan (PG) release and type I1 collagen cleavage in articular cartilage harvested from O C D lesions. We examined ex vivo explants at post-mortem from equine OCD lesions and macroscopically normal site and age matched cartilage. These were cultured over a 10 day period in serum-free medium. Type I1 collagen cleavage was measured in articular cartilage and media using an Elisa assay to detect the coL2-3/4c,h,r, epitope, which is generated on cleavage of the triple helix of type I1 collagen by collagenases. PC release was measured by a dye-binding assay. Cumulative release of P C and COL2-3/4CShor, and their contents in cartilage at the end of the culture period were determined. In OCD lesions there was a significant increase in type I1 collagen cleavage by collagenase but no evidence for increase of PG degradation. These findings point to a selective increase in type 11 collagen cleavage by collagenases, in OCD lesions of the kind observed in osteoarthritis. Further work is needed to determine whether changes represent primary or secondary events in the pathogenesis of OCD.

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Sharon Okouneff

The pathobiology of focal lesion development in aging human articular cartilage and molecular matrix changes characteristic of osteoarthritis

Excessive degradation of type II collagen in articular cartilage in equine osteochondrosis

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