In order to study the relationship between amiodarone-induced hepatic phospholipidosis and liver disease, liver biopsies obtained from 13 patients treated with amiodarone for 4 months to 15 years were investigated by light and electron microscopy. Light microscopy showed pseudoalcoholic liver lesions that were probably related to amiodarone in four cases, various alterations (i.e. cirrhosis, three cases; steatosis and fibrosis, two cases; chronic venous congestion, one case; acute hepatitis, one case) that could be explained by another cause than amiodarone in seven cases and normal liver in two cases. In all cases, electron microscopy showed intralysosomal myelin figures suggestive of phospholipidosis. These myelin figures were associated with intralysosomal electron-dense deposits. In the four cases in which analysis by electron microprobe was performed, it demonstrated large amounts of iodine in the electron-dense deposit-containing lysosomes, indicating the accumulation of amiodarone. These results show that hepatic phospholipidosis is constantly observed in amiodarone-treated patients, whether or not pseudoalcoholic liver lesions are present. This phospholipidosis, which could be only a morphological marker of intrahepatic accumulation of the drug, should not therefore be considered grounds for attributing liver disease to the drug.
A new method is described that demonstrates acid phosphatase activity in the cells of the proximal tubules of the rat kidney. The method is based on the formation of an insoluble aluminum phosphate precipitate. Microanalysis was used to demonstrate the presence of intracellular aluminum and determine the quantity present under the probe. Parallel biochemical studies showed that the aluminum precipitate was indeed due to acid phosphatase activity.
The subcellular distribution of halogenous molecules has been studied by SIMS microscopy in cultured cells of a human breast carcinoma (MCF-7 cell line). Two instruments of microanalysis were used. A low lateral resolution ion microscope (SMI 300 CAMECA) and a prototype scanning ion microscope equipped with a cesium gun that gives high lateral resolution images. This apparatus has been developed by G Slodzian, in Onera Laboratories (Office National d'Etudes et de Recherches Aérospatiales). Molecules studied by low lateral resolution ion microscope were halogenous steroids: fluorometholone, triamcinolone, bromocriptine and bromoandrosterone. Analytical images show that the first two compounds are mainly localized in the nuclear structure of MCF-7 cells whereas the last two molecules are localized in cytoplasm of these cells. Images were obtained with a resolution of 1 micron. With the scanning ion microscope, it is now possible to obtain images at the ultrastructural level. Four analytical images can be simultaneously obtained by a single scan of the imaged area, corresponding to a depth of erosion of the section of ten nm. The intranuclear distributions of three pyrimidine analogs, 5-bromo-2'-deoxyuridine, 5-iodo-2'-deoxyuridine and 5-fluorouracil have been studied in phase S and M of MCF-7 cells and these images have been compared to the distribution of sulfur, nitrogen and phosphorus. All these images have been obtained with a lateral resolution better than 100 nm.
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