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American Journal of Pathology, Vol 139, 383-392, Copyright © 1991 by American Society for Investigative Pathology

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Pigeon monocyte/macrophage lysosomes during beta VLDL uptake. Induction of acid phosphatase activity. A model for complex arterial lysosomes

NL Jones, WG Jerome and JC Lewis
Department of Pathology, Bouman Gray School of Medicine of Wake Forest University, Winston-Salem, North Carolina 27157-1092.

Lysosomes have long been implicated as a factor contributing to the progression and complication of atherosclerosis. The authors' laboratory previously has shown that lysosomal ultrastructure in arterial macrophage foam cells is altered as primary lysosomes give rise to large pleiomorphic organelles on lipid accumulation during lesion progression. To further explore the subcellular alterations in lysosomes and associated organelles during foam cell formation, three- dimensional (3D) intermediate voltage electron microscopy was used to examine monocyte-derived macrophages (monocyte/macrophages) during early in vitro uptake of beta migrating very-low-density lipoproteins (beta VLDL). Lysosomes were identified using acid phosphatase cytochemistry, and in control cells these organelles constituted 3.5% of the total cytoplasmic volume. Both primary and secondary lysosomes were observed. Upon beta VLDL uptake, the total volume of acid- phosphatase-positive organelles increased threefold over 30 minutes, and the reaction product was found in three additional morphologically distinct structures: tubular lysosomes, membrane stacks, and endoplasmic reticulum with widened cisternae. The proportion of the cell occupied by each of the five acid-phosphatase-positive organelles was quantitated at 10 minutes, 30 minutes, 1 hour, and 4 hours of beta VLDL incubation, and their relative abundance was compared with controls that were processed either with no lipoprotein challenge or albumin incubation for 1 hour. Secondary lysosomes compartment volume peaked at 30 minutes; over the ensuing 3.5 hours, however, the reaction progressively shifted to three new membrane-limited locations. Our observations document the complex 3D organization and spacial relationships among the acid-phosphatase-positive structures induced by lipoprotein uptake. The 3D organization patterns for acid-phosphatase- positive lysosomes in lipoprotein-stimulated pigeon monocyte/macrophages were similar in several aspects to the complex lysosomes previously observed in the macrophages of pigeon arterial lesions.

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