Pigment epithelium‐derived factor (PEDF), purified from human fetal retinal pigment epithelium cell culture medium, was shown to potentiate the differentiation of human Y‐79 retinoblastoma cells. To investigate potential neurotrophic effects of PEDF on neurons other than those of retinal derivation, we used cultures of cerebellar granule cells. The number of cerebellar granule cells was significantly larger in the presence of PEDF, as demonstrated by an assay for viable cells that uses 3‐(4,5‐dimethylthiazol‐2‐yl)‐5‐(3‐carboxymethoxyphenyl)‐2‐(4‐sulfophenyl)‐2H‐tetrazolium, inner salt, conversion, by cell count, and by immunocytochemistry. The effect of PEDF showed a dose‐response relationship, with a larger effect in chemically defined medium than in serum‐containing medium [ED50 = 30 ng/ml (0.70 nM) in chemically defined medium and 100 ng/ml (2.3 nM) in serum‐containing medium]. PEDF had no effect on incorporation of bromodeoxyuridine (cell proliferation) or on neurofilament content (neurite outgrowth) measured by an enzyme‐linked immunoadsorbent assay. These results demonstrate that PEDF has a neurotrophic survival effect on cerebellar granule cells in culture and suggest the possibility that it may affect other CNS neurons as well.
An abnormality in retinal guanosine 3,5-monophosphate (cyclic GMP) metabolism is demonstrated in the inherited rod-cone dysplasis of Irish Setter dogs. Affected visual cells are deficient in cyclic GMP phosphodiesterase activity and have elevated levels of cyclic GMP. The biochemical abnormalities observed in affected retinas of Irish Setters are similar to those in the retinas of mice with inherited retinal degeneration before visual cell degeneration begins. A defect in cyclic GMP metabolism may be characteristic of early-onset degenerative diseases of the retina, possibly including those that affect humans.
The interphotoreceptor matrix (IPM), lying between retinal photoreceptor and pigment epithelial (RPE) cells, contains insulin-like growth factor I (IGF-I) immunoreactivity that co-elutes with authentic human IGF-I in HPLC analyses. Cultured human RPE cells synthesize and release IGF-I, raising the possibility that the RPE serves as a source of IPM IGF-I in vivo. Photoreceptor rod outer segments and cultured monkey RPE cells express specific IGF-I receptors with alpha-subunits of 120 and 138 kDa, respectively. They thus appear to be of the "brain" (in photoreceptors) and "peripheral" (in RPE cells) receptor subtypes. Additionally, the IPM contains high levels of an IGF binding protein (IGF-BP) that specifically binds IGF-I and IGF-II. The IPM-BP is visualized as a single radiographic band by both ligand blot and affinity cross-linking procedures. With enzymes specific for removing N- and O-linked oligosaccharides, the IPM-BP was found to contain O- but not N-linked glycosylated side chains. The distinctive size and glycosylation pattern of the IPM-BP indicate that it is not derived from the vitreous or serum but instead is synthesized locally. The presence of IGF-I and IGF-BP in the IPM, together with the presence of IGF-I receptors on both photoreceptor and RPE cells, suggests the presence of an outer retina autocrine-paracrine system.
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