X-ray microanalysis of cellular localization of ferritin in mammalian spleen and liver

Abstract

X-ray microanalysis of mineral core of cellular localizations of ferritin in horse, sheep and rat spleen macrophages and in parenchymal cells of normal and pathological human liver was performed to obtain the net intensities of iron and phosphorus in the irradiated areas and to calculate the P:Fe ratios. For comparison the same analysis was performed on commercially produced horse spleen ferritin in two processings: unembedded and after treatment similar to tissue and embedded in Epon. Our analytical results of unembedded commercially produced horse spleen ferritin particles (1:15) confirmed the weight ratio suggested by Granick and Hahn ( J. biol. Chem., 155: 661–669, 1944) for isolated crystallizable horse spleen ferritin in their chemical studies (1:16 or 1:14). After application of EM-tissue processing procedures to commercially produced horse spleen ferritin the ratio changed into 1:22, presumably by the loss of phosphorus. In spleen of three species the X-ray analytical results of ferritin particles in situ showed that in both localizations (clusters and lysosomes) the P:Fe ratios varied widely and the mean P:Fe ratios were generally higher than in embedded commercially produced horse spleen ferritin. Within these three species the mean P:Fe ratios of ferritin particles in two localizations of sheep and rat spleen were higher than in horse spleen. Moreover in sheep and rat spleen one third of the analysed clusters and lysosomes contained ferritin particles with zero phosphorus although sufficient iron was detected. Within all three species we found no statistically significant difference in mean P:Fe ratios between clusters and lysosomes. The X-ray analytical results in normal human liver parenchymal cells showed that as a result of very variable P:Fe ratios in ferritin-containing lysosomes, the mean P:Fe ratio was higher than in embedded commercially produced horse spleen ferritin and was nearly the same as in ferritin within clusters and lysosomes of horse spleen. In human liver with haemochromatosis, there were no significant variations in P:Fe ratios. The mean P:Fe ratio for ferritin particles in lysosomes was 1:13, much lower than in normal liver (1:39) and nearly the same as in unembedded commercially produced horse spleen ferritin (1:15). Our findings led us to conclude that in spleen macrophages and in parenchymal cells of normal liver among the populations of ferritin particles the iron-poor ferritin particles are more extensively present (especially in sheep and rat spleen) than in isolated crystallized horse spleen ferritin or ferritin-containing lysosomes of pathological human liver. In these iron-poor ferritin molecules the P:Fe ratio is variable from molecule to molecule and different from that suggested in the literature. The hypothesis of a constant ratio P:Fe for ferritin with different iron content is rejected. The formula for the composition of the mineral core of ferritin, as proposed by Granick and Hahn (1944) can only be considered correct for ferritin as iron-rich as isolated from horse spleen.