A major, six-armed glycoprotein from embryonic cartilage.

Abstract

Here we describe the isolation and identification of a major cartilage glycoprotein which is co‐extracted along with typical hyaline cartilage components such as collagen types II and IX from chicken embryo sternum. In polyacrylamide gel electrophoresis it migrates as a high molecular mass protein (greater than 10(6) daltons) which on reduction gives rise to a prominent doublet at 205/195 kd and minor bands at 220 and 170 kd. The intact molecule sediments as a 13S component in rate zonal centrifugation, indicative of a highly extended conformation in solution. In these properties it closely resembles myotendinous antigen, a glycoprotein recently detected in a number of embryonic tissues, including cartilage. This identity was confirmed by immunoblotting using a monoclonal antibody (M1) specific for myotendinous antigen. Electron micrographs of the rotary shadowed molecule revealed an unusual six‐armed structure, indistinguishable in form and dimensions from hexabrachion, a recently discovered contaminant of cellular fibronectin preparations. These structures could be decorated with the M1‐antibody, demonstrating that hexabrachion is myotendinous antigen. This extended, potentially multivalent molecule could provide an ideal substrate to connect widely spaced components in a highly hydrated tissue such as cartilage.