Lentropin, a factor present in the vitreous humor of the eye, stimulates lens fiber differentiation from chicken embryo lens epithelial cells in vitro. Lentropin has been partially purified but has not been isolated in sufficient quantity or purity for direct comparison with other growth and differentiation factors. Previous studies have shown that insulin and fetal bovine serum share with lentropin the ability to stimulate lens fiber formation from cultured epithelial cells. In the present study, a number of hormones and growth factors were assayed for lentropin activity. Of those tested, the only substances that had this activity were the insulin-like growth factors (IGFs) somatomedin C (Sm-C/IGF-I) and multiplication-stimulating activity (MSA/IGF-ll). Sm-C/IGF-I was approximately 30 times more potent than insulin or MSA/IGF-ll in promoting fiber cell formation. A monoclonal antibody to human Sm-C/IGF-I inhibited purified Sm-C/IGF-I, fetal bovine serum, and chicken vitreous humor from stimulating fiber cell differentiation in vitro. This antibody has been shown not to crossreact with insulin and did not block insulinstimulated lens fiber formation. These findings indicate that lentropin is related to the IGFs and that these factors may play important roles in controlling cell differentiation, in addition to their better-known ability to stimulate cell division.The lens of the eye is composed of two populations of epithelial cells. The anterior surface of the lens is covered by a monolayer of cuboidal cells, which have several important transport functions, whereas the bulk of the lens is composed of elongated fiber cells, which are primarily responsible for the ability of the lens to transmit and refract light. Fiber cells do not normally divide once they are formed. During lens growth new fibers are continually derived from the mitotically active cells at the margin of the epithelium. Cells from the central region of the chicken embryo lens epithelium, which would not normally become fiber cells, will differentiate into fibers when placed in culture medium supplemented with fetal bovine serum (1, 2), insulin (3), or chicken vitreous humor (4). Fiber cell differentiation is characterized by extensive cellular and biochemical specialization, including cell elongation, specialization for the synthesis and accumulation of lens-specific cytoplasmic proteins (the crystallins), cessation of cell division, alteration of the lipid and protein composition of the plasma membrane, and the eventual degradation of nearly all intracellular, membrane-bound organelles, including the nucleus.Lentropin, the protein in vitreous humor that stimulates lens fiber differentiation, has been characterized and partially purified (4, 5) but has not been obtained in sufficient quantity or purity for structural comparison with other growth and differentiation factors. For this reason we assayed several growth factors and hormones for the ability to stimulate cell elongation in central epithelia dissected from the lenses of 6-day-o...
