Quantitative ultrastructural analysis of coronary atherosclerotic involvement in two macaque species

Abstract

Ultrastructural analyses were employed to observe and to compare in detail lesions of the coronary artery of cynomolgus and rhesus monkeys. Animals were fed individually with the same atherogenic ration under identical conditions for 4, 8, and 12 months, and controls of each species were fed with a low fat, cholesterol-free ration. Transmission electron microscopic studies of coronary arteries from these animals led to the following conclusions: (1) Synthetic smooth muscle cells (SMC) without lipid and macrophages without lipid appeared more frequently in the cynomolgus lesions than in the rhesus lesions. Furthermore, phenotypic expression of synthetic SMCs in the cynomolgus was more active with greater diversity, while the rhesus showed less phenotypic modulation. Macrophages without lipid appeared frequently in the cynomolgus media. (2) Increased percentages of both synthetic SMCs with lipid and macrophages with lipid were demonstrated in the cynomolgus lesions as compared to those in the rhesus. This indicates that foam cells, including SMC- and macrophage-derived foam cells, are more prevalent in cynomolgus than in rhesus. They are considered to play an important role in atherogenesis. (3) Medial disruption, synthetic SMCs, and macrophages containing lipid appeared more often in cynomolgus media than in rhesus media. (4) There were greater percentages of both synthetic SMCs and macrophages in the intima of the myocardial side of coronary arteries in both species. (5) Approximately 42% of all foam cells in the cynomolgus lesions were derived from SMCs. There were fewer macrophages in rhesus lesions. (6) The difference in expression between the two macaque species reflects different responses of macrophages to medial smooth muscle cell (SMC) components. The configuration of the artery wall could be one of the important indicators of these different expressions.