An eye-derived growth factor regulates epithelial cell proliferation in the cultured lens.

Lenses in organ culture permit an analysis of factors acting on epithelial cell growth, while keeping the normal steric constraints of the cell population. By employing this technique with radioautography of epithelial whole mounts, we showed that the DNA synthesis found in the epithelia of cultured bovine lenses follows an organized spatial and temporal pattern during culture. Within the first 48 h, active cells were located at the preequatorial region ("germinative zone"), a distribution consistent with the in vivo spatial organization of multiplying cells. Starting at about 48 h, cells from the central region of the epithelium--a nonproliferating population--were triggered to synthesize DNA in the presence of eye-derived growth factor (EDGF). When cultured in serum-free medium, only a small fraction of the cells was labeled, but when a low serum concentration was present, this fraction reached 50% of the cell population. The stimulatory effect of EDGF required a lag period, but its effect reached a maximum exceeding that found for serum. However, the cells from the germinative region, having a cell density three- to four-fold higher than the central region, were not stimulated to proliferate. This occurred irrespective of the presence of EDGF or serum. If this growth-stimulatory activity derived from the retina were the actual factor controlling cell proliferation in the lens in vivo, then the results presented here would point to the presence of a regulatory mechanism similar to that known for some other hormones.