Embryonic neural retina collagen: in vitro synthesis of high molecular weight forms of type II plus a new genetic type

Abstract

Chicken neural retina cells from 6- to 7-day embryos were labeled with [(3)H]proline for 24 and 72 hr and the collagenous proteins of the medium were analyzed. Ninety percent of the collagenous proteins eluted from DEAE-cellulose columns as a peak near the middle of the gradient. Upon sodium dodecyl sulfate/polyacrylamide gel electrophoresis, this material consisted predominantly of a slowly migrating procollagen, a smaller amount of an intermediate migrating form, and some alpha-chain material. Limited enzymatic digestion of this DEAE peak material plus mapping of its CNBr peptides identified this material as a type II precursor. The remaining 10% of the collagenous proteins eluted from DEAE-cellulose at the end of the gradient. Electrophoresis of this fraction showed four major bands. Two migrated near the type II precursors, a third migrated somewhat more slowly, and the fourth was near beta-chain dimers. In addition, there were two minor bands. Limited pepsin digestion of this DEAE peak material produced two bands: one migrated slightly more slowly than alpha1, and the second, considerably more slowly. The CNBr peptide pattern of this material appears to be different from any previously described. Thus, neural retina cells in culture synthesize at least two genetically distinct classes of collagenous proteins. One represents precursors to type II. The second is composed of multiple, very high molecular weight forms which may represent precursors (procollagens) of a new genetic type(s) of collagen.