THE APPEARANCE AND STRUCTURE OF INTERCELLULAR CONNECTIONS DURING THE ONTOGENY OF THE RABBIT OVARIAN FOLLICLE WITH PARTICULAR REFERENCE TO GAP JUNCTIONS

doi:10.1083/jcb.63.1.234

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THE APPEARANCE AND STRUCTURE OF INTERCELLULAR CONNECTIONS DURING THE ONTOGENY OF THE RABBIT OVARIAN FOLLICLE WITH PARTICULAR REFERENCE TO GAP JUNCTIONS

David F. Albertini ¹ and Everett Anderson ¹

¹ From the Department of Anatomy and Laboratory of Human Reproduction and Reproductive Biology, Harvard Medical School, Boston, Massachusetts 02115

Lanthanum tracer and freeze-fracture electron microscope techniqueswere used to study junctional complexes between granulosa cellsduring the differentiation of the rabbit ovarian follicle. Forconvenience we refer to cells encompassing the oocyte, beforeantrum and gap junction formation, as follicle cells. Afterthe appearance of an antrum and gap junctions we call the cellsgranulosa cells. Maculae adherentes are found at the interfacesof oocyte-follicle-granulosa cells throughout folliculogenesis.

Gapjunctions are first detected in follicles when the antrum appears.In early antral follicles typical large gap junctions are randomlydistributed between granulosa cells. In freeze-fracture replicas,they are characterized by polygonally packed 90-Å particlesarranged in rows separated by nonparticulate A-face membrane.A particle-sparse zone surrounds gap junctions and is frequentlyoccupied by small particle aggregates of closely packed intramembranousparticles. The gap junctions of granulosa cells appear to increasein size with further differentiation of the follicle. The granulosacells of large Graafian follicles are adjoined by small andlarge gap junctions; annular gap junctions are also present.The large gap junctions are rarely surrounded by a particle-freezone on their A-faces, but are further distinguished by particlerows displaying a higher degree of organization.

Submitted on February 28, 1974
Revised on May 6, 1974

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