Cartilage proteoglycan aggregates. Electronmicroscopic studies of native and fragmented molecules

Abstract

Proteoglycan aggregates from bovine nasal cartilage were studied by using EM of proteoglycan/cytochrome c monolayers. The aggregates contained a variably long central filament of hyaluronic acid with an average length of 1037 nm. The proteoglycan monomers attached to the hyaluronic acid appeared as side chain filaments varying in length (averaging 249 nm). They were distributed along the central filament at an average distance of about 36 nm. Chondroitin sulfate side chains were removed from the proteoglycan monomers of the aggregates by partial chondroitinase digestion. The molecules obtained had the same general appearance as intact aggregates. Proteoglycan aggregates were treated with trypsin and the largest fragment, which contains the hyaluronic acid, link protein and hyaluronic acid-binding region, was recovered and studied with EM. Filaments that lacked the side chain extensions and had the same length as the central filament in the intact aggregate were observed. Hyaluronic acid isolated after papain digestion of cartilage extracts gave filaments with similar length and size distribution as observed for the central filament both in the intact aggregate and in the trypsin digests. Umbilical-cord hyaluronic acid was also studied and gave electron micrographs similar to those described for hyaluronic acid from cartilage. The length of the filament was somewhat shorter. The electron micrographs of both intact and selectively degraded proteoglycans corroborate the current model of cartilage proteoglycan structure.