Ultrastructural analysis of the granulosa--luteal cell transition in the ovary of the dog.

The transition from ovarian granulosa to lutein cell during the estrus cycle of 60 pregnant and non-pregnant beagle bitches was analyzed by light and electron microscopy (both 100 and 1000 KV). Early proestrus was characterized by a gradual rise in serum estrogen levels, hyperplasia of the granulosa cells, the accumulation of follicular fluid, and the development of tortuous intercellular channels. During the second half of proestrus, serum estrogen levels continued to rise, but growth, division, and differentiation of the granulosa cells was minimal. Estrus was marked by the first acceptance of the male and a well-defined LH peak In the subsequent 24 hour period, the granulosa-lutein cells hypertrophy rapidly and develop a large Golgi apparatus, small profiles of granular endoplasmic reticulum, numerous microfilaments, and large gap junctions between the cells. Mitochondria also proliferate, enlarge, and elongate, but retain lamelliform cristae. Luteinization of the cells and progesterone secretion begin just after ovulation which in turn occurs about 24 hours after the LH peak. On the third and fourth day of estrus, numerous small vesicles of agranular endoplasmic reticulum fill the extoplasm and the mitochondria swell up and round off. The vesicles rapidly fuse into whorled and flattened cisternae or anastomosing tubules of agranular endoplasmic reticulum, while the mitochondria develop tubulovesicular cristae. These structures gradually become organized with respect to the basal lamina. The Golgi apparatus is centered over the pole of the nucleus that faces the pericapillary space. Stacked and whorled cisternae of agranular ER develop in the lateral margins and avascular end of the cell while mitochondria and tubular elements of agranular ER predominate in the central medial and most basal portions of the cytoplasm. Microfilaments are ubiquitous and appear to be instrumental in this orientation process. The cell surface develops three distinct regional specializations that coincide with the underlying cellular compartments: interconnecting pleomorphic folds fill the pericapillary space; long tenous microvilli project from the lateral cell surface and form tortuous intercellular channels and canaliculi; and large gap junctions form along the margins of the cell furthest removed from the basal lamina. By the sixth day of estrus, the granulosa-luteal cell transition is nearly complete and serum progesterone levels are on the rise.

Subcellular compartmentalization of the luteal cell in the ovary of the dog.

The compartmentalization of the parenchyma of the corpus luteum in the dog was studied by both 100 and 1000 KV electron microscopy. The organells within the luteal cell are oriented with a high degree of consistency towards the pericapillary space. Characteristically, the avascular pole and the lateral margins of the cell posses predominantly stacked and whorled cisternae of agranular ER. In the central medial portions of the cell, pleomorphic mitochondria with tubulo-vesicular cristae and anastomosing tubules of agranular ER predominate. However, the distribution of organelles in this compartment is graded. Mitochondria predominate in the central medial areas while tubular ER is more dominant peripherally. Microfilaments are ubiquitous in this compartment and run a longitudinal course between and around the subcellular components towards the pericapillary space. The Golgi apparatus is large and prominent and is positioned over the pole of the nucleus that faces the basal lamina. Coated vesicles are abundant in the Golgi regions and along the lateral surface of the cell. Three distinct regional specializations of the cell surface exist. The basal surface contains long pleomorphic cytoplasmic folds that fill the pericapillary space, are interconnected by small gap junctions and contain abundant multivesicular bodies. The lateral cell surface is covered with microvilli and is organized into tortuous intercellular channels and canaliculi. These are interrupted at intervals by cytoplasmic protrusions that extend from one cell well into the cytoplasm of the next. Large, well-developed gap junctions line the margins of the cells furthest removed from the pericapillary space. Finally, the individual cells exhibit heterogeneity with respect to the amount one subcellular organelle or compartment is expressed relative to another. These observations are discussed in relation to the subcellular compartmentalization of progesterone synthesis and release.