Biosynthesis and metabolism in vivo of intervertebral-disc proteoglycans in the mouse

Abstract

The synthesis and turnover in vivo of 35S-labelled proteoglycans in mouse cervical, thoracic and lumbar intervertebral discs, and in costal cartilage, was investigated after intraperitoneal injection of [35S]sulphate. Intervertebral discs and costal cartilage synthesize similar amounts of 35S-labelled proteoglycans per microgram of DNA. Discs and cartilage all synthesize a major proteoglycan species (approx. 85%) of large hydrodynamic size and a minor species (approx. 15%) of small size. Both proteoglycans carry chondroitin sulphate chains. Keratan sulphate was not found associated with either species. The total 35S-labelled proteoglycan pool had a metabolic half-life (t1/2) of 10-12 days in discs, and 17 days in cartilage. The extractable major and minor species turned over at similar rates. Those proteoglycans left in the tissue after 29 days turn over very slowly. Approx. 50% of the major 35S-labelled proteoglycan species formed mixed aggregates with hyaluronic acid and rat chondrosarcoma proteoglycan. The ability to form aggregates did not decrease up to 45 days after synthesis. Of the heterogeneous population of proteoglycans comprising the major species, those remaining in the tissue 9 days after synthesis were of smaller average hydrodynamic size and had shorter chondroitin sulphate side chains than the average size at the time of synthesis. With increasing time after synthesis, proteoglycans were less readily extracted from the tissue by 4.0 M-guanidinium chloride than at the time of synthesis.