Changes of lysosomal enzymes during hereditary degeneration and histogenesis of retina in mice

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In the normal histogenesis of mouse retina localized distribution of acid phosphatase positive granules has been seen around the photoreceptor cell nuclei along the outer limiting membrane. These granules disappear during the development of the rod elements. Temporarily increased activity is also seen along the nuclei of the inner layer adjacent to and in the course of the development of the outer and the inner plexiform layers. Within the inner nuclear layer, the cells at the outer and inner rows develop localized acid phosphatase positive granules which persist in the adult retina. Ganglion cells and the layer of nerve fibres show little change. In the pigment epithelium the enzyme gradually increases. In mice, homozygous for the retinal degeneration gene, degenerating photoreceptor cell nuclei, characterized by perinuclear acid phosphatase staining, can be detected before morphological signs of degeneration. Increased frequency of such nuclei and intensity of staining are recorded with the progress of degeneration. Enzyme activity in the photoreceptor cells, within the inner nuclear layer and in the degenerating photoreceptor cell nuclei is demonstrable using naphthol substrates but not β-glycerophosphate. Positive reaction with β-glycerophosphate is obtained in these sites in the presence of dimethyl sulphoxide. Existence of differential permeability among the retinal lysosomes is tentatively suggested.