The proteoglycans of bovine nasal cartilage and human articular cartilage: a sedimentation equilibrium analysis

Cartilage proteoglycan was isolated from bovine nasal septum and fractionated according to buoyant density after dissociative CsCl density gradient centrifugation. Gel-exclusion chromatography showed that hyaluronic acid was present in fractions of density lower than 1.69 g/mL. The molecular weight, assessed by sedimentation equilibrium analysis, of the proteoglycan present in the fractions with density > 1.69 g/mL, which appeared chromatographically homogeneous and constituted 54% of the preparation, ranged from 1.0 to 2.6 × 10⁶ for v = 0.55 cm³ g^?1. Carbodiimide-induced modification of the carboxyl groups by methylamine resulted in a reduction of the molecular weight to 0.74 – 1.25 × 10⁶. An analogous reduction in molecular weight was obtained after equilibration of this proteoglycan fraction with hyaluronic acid oligomers containing five disaccharide units. Since both procedures are known to cause inhibition of the interaction between proteoglycans and hyaluronic acid, it is suggested that this lower molecular-weight range represents the true degree of polydispersity of the sub-units of hyaline cartilage proteoglycan constituting this fraction, while the higher values obtained for the intact proteoglycan are the result of the presence of hyaluronic acid in the sample. The molecular-weight range of the whole proteoglycan subunit preparation, assessed after carboxyl group modification, was 0.5–1.2 × 10⁶. Apparently normal and abnormal cartilage was excised from single human osteoarthrosic femoral heads. Proteoglycans extracted by 4M guanidine hydrochloride were isolated after dissociative density gradient centrifugation and subjected to carboxyl group modification. Preparations from normal tissue exhibited molecular-weight averages ranging from 5 to 9 × 10⁵. A molecular-weight reduction was observed with proteoglycans isolated from abnormal areas.