Fred R.T. Nelson scite author profile

Very little is known about the turnover of extracellular matrix in the human intervertebral disc. We measured concentrations of specific molecules reflecting matrix synthesis and degradation in predetermined regions of 121 human lumbar intervertebral discs and correlated them with ageing and Thompson grade of degeneration.Synthesis in intervertebral discs, measured by immunoassay of the content of a putative aggrecan biosynthesis marker (846) and the content of types I and II procollagen markers, is highest in the neonatal and 2-5-yr age groups. The contents of these epitopes/molecules progressively diminished with increasing age. However, in the oldest age group (60-80 yr) and in highly degenerated discs, the type I procollagen epitope level increased significantly.The percentage of denatured type II collagen, assessed by the presence of an epitope that is exposed with cleavage of type II collagen, increased twofold from the neonatal discs to the young 2-5-yr age group. Thereafter, the percentage progressively decreased with increasing age; however, it increased significantly in the oldest group and in highly degenerate discs.We identified three matrix turnover phases. Phase I (growth) is characterized by active synthesis of matrix molecules and active denaturation of type II collagen. Phase II (maturation and ageing) is distinguished by a progressive drop in synthetic activity and a progressive reduction in denaturation of type II collagen. Phase III (degeneration and fibrotic) is illustrated by evidence for a lack of increased synthesis of aggrecan and type II procollagen, but also by an increase in collagen type II denaturation and type I procollagen synthesis, both dependent on age and grade of tissue degeneration. ( J. Clin. Invest. 1996. 98:996-1003.)

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Evidence for altered synthesis of type II collagen in patients with osteoarthritis.

Nelson¹,

Dahlberg²,

Laverty³

et al. 1998

J. Clin. Invest.

268

244

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There is evidence to suggest that the synthesis of type II collagen is increased in osteoarthritis (OA). Using an immunoassay, we show that the content of the C-propeptide of type II procollagen (CPII), released extracellularly from the newly synthesized molecule, is directly related to the synthesis of this molecule in healthy and osteoarthritic articular cartilages. In OA cartilage, CPII content is often markedly elevated (mean 7.6-fold), particularly in the mid and deep zones, reaching 29.6% of the content in newborn. Synthesis is also directly related to total collagen II content in OA, suggesting its importance in maintaining collagen content and cartilage structure. The release of CPII from cartilage is correlated directly with cartilage content. However, the increase in CPII in OA cartilage is not reflected in serum, where a significant reduction is observed. Together these studies provide evidence for alterations in procollagen II synthesis in vivo in patients with OA. ( J. Clin. Invest. 1998. 102:2115-2125 . )

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Selective enhancement of collagenase-mediated cleavage of resident type II collagen in cultured osteoarthritic cartilage and arrest with a synthetic inhibitor that spares collagenase 1 (matrix metalloproteinase 1)

Dahlberg

Billinghurst

Manner

et al. 2000

Arthritis & Rheumatism

224

176

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These results further indicate that the digestion of type II collagen by collagenase is selectively increased in OA cartilage, and that this can be inhibited in the majority of cases by a synthetic inhibitor that can inhibit collagenases 2 and 3, but not collagenase 1. The results also suggest that in OA, newly synthesized collagen is digested, but in a different manner than that of resident molecules. Proteoglycan release was not increased in OA cartilage and was unaffected by these inhibitors. Inhibitors of this kind may be of value in preventing damage to type II collagen in human arthritic articular cartilage.

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Early post-traumatic osteoarthritis-like changes in human articular cartilage following rupture of the anterior cruciate ligament

Nelson

Billinghurst

Pidoux

et al. 2006

Osteoarthritis and Cartilage

147

101

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These observations reveal that joint instability resulting from ACL injury rapidly results in degenerative changes characteristic of those seen in idiopathic OA at arthroplasty and in experimental OA following ACL surgery. These changes may contribute to the development of post-traumatic OA that is commonly observed following ACL injury. The observations support and extend conclusions from other studies on human and animal articular cartilage and synovial fluids post-ACL injury that have revealed a rapid onset of damage to type II collagen and an initial increase in proteoglycan content characteristic of experimental OA post-ACL injury. This study provides direct evidence for the rapid development of degenerative changes characteristic of OA following ACL injury.

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Fred R.T. Nelson

The human lumbar intervertebral disc: evidence for changes in the biosynthesis and denaturation of the extracellular matrix with growth, maturation, ageing, and degeneration.

Evidence for altered synthesis of type II collagen in patients with osteoarthritis.

Selective enhancement of collagenase-mediated cleavage of resident type II collagen in cultured osteoarthritic cartilage and arrest with a synthetic inhibitor that spares collagenase 1 (matrix metalloproteinase 1)

Early post-traumatic osteoarthritis-like changes in human articular cartilage following rupture of the anterior cruciate ligament

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