Morphometric Quantification of Mitochondria in the Two Steroidogenic Ovine Luteal Cell Types1

Abstract

Progesterone secretion is regulated by different mechanisms in large and small steroidogenic ovine luteal cells. Large cells secrete approximately 7-fold more progesterone in an unstimulated state than small cells. Since cholesterol side-chain cleavage, which is catalyzed by an inner mitochondrial membrane enzyme complex, is a major rate-limiting step in progesterone synthesis, mitochondrial components were quantified in the two steroidogenic cell types throughout the estrous cycle. Corpora lutea collected on Days 4 (n = 4), 8 (n = 4), 12 (n = 5), and 16 (n = 6) of the estrous cycle were prepared for electron microscopy. Volume densities of cell types within corpora lutea and mitochondrial densities within cell types were estimated by point-counting; nuclear and cytoplasmic volume densities were estimated by planimetric analysis. A total of 570 micrographs (magnification 5300 .times.) were analyzed. Large cell volume density was unchanged during the cycle (35 .+-. 1%) while small cell volume density increased (P < 0.05) from 13 .+-. 1% on Day 4 to 20 .+-. 3% on Day 12. Large cell mitochondrial volume density increased (p < 0.05) from 13 .+-. 1% on Day 4 to 23 .+-. 1% on Day 16 accompanied by an increase in cytoplasmic volume density such that nuclear to cytoplasmic ratio increased (p < 0.05) from 1:14 to 1:34 between Days 4 and 16. Small cell mitochondrial volume density increased from 11 .+-. 1% on Day 4 to 14 .+-. 1% (p < 0.05) for the rest of the cycle while the nuclear to cytoplasmic ratio remained at 1:14. These changes indicate continued growth and development of large steroidogenic luteal cells parallel to luteal development and suggest that the 7-fold higher rate of progesterone secretion in large vs. small steroidogenic luteal cells may be due to a greater quantity of mitochondria in this cell type.