PERMEABILITY OF THE OVARIAN FOLLICLE OF AEDES AEGYPTI MOSQUITOES

doi:10.1083/jcb.50.1.201

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ARTICLE

PERMEABILITY OF THE OVARIAN FOLLICLE OF AEDES AEGYPTI MOSQUITOES

Winston A. Anderson ¹ and Andrew Spielman ¹

¹ From the Department of Anatomy and Laboratory of Human Reproduction and Reproductive Biology, Harvard Medical School, Boston, Massachusetts 02115, the Department of Anatomy, The University of Chicago, Chicago, Illinois 60637, and the Department of Tropical Public Health, Harvard School of Public Health, Boston, Massachusetts 02115

The passage of tracers of various molecular weights into restingand vitellogenic ovarian follicles of Aedes aegypti mosquitoeswas studied ultrastructurally. The outermost layer of the follicularsheath (the basement lamina) is a coarse mechanical filter.It is freely permeable to particles with molecular weights rangingfrom 12,000 to 500,000 (i.e. cytochrome c, peroxidase, hemoglobin,catalase, ferritin, immunoglobulin (IgG)-peroxidase, iron dextranand Thorotrast) that have dimensions less than 110 A. Moleculesas large as carbon (300–500 A) are totally excluded. Whereasproteins and polysaccharide tracers permeate the basement laminawith apparent ease, certain inert particles (e.g. Thorotrast,Fellows-Testager Div., Fellows Mfg. Co., Inc., Detroit, Mich.)penetrate more slowly. With respect to the tracers tested, restingfollicles are as permeable as vitellogenic follicles. The follicleepithelium of resting or vitellogenic follicles is penetratedby narrow intercellular channels. Our observations suggest thatthese spaces are lined with mucopolysaccharide material. Afterpermeating the basement lamina, exogenous tracers fill thesechannels, while the bulk of material accumulates in the perioocyticspace. Within 3 hr after imbibing blood, the pinocytotic mechanismof the oocyte is greatly augmented. Pinocytosis is not selectivewith regard to material in the perioocytic space, since doubletracer studies show that exogenous compounds are not separated,but are incorporated into the same pinocytotic vesicle. Duringlater stages of vitellogenesis, 36–48 hr after the blood-meal,the pinocytotic mechanism of the oocyte is diminished. Simultaneously,the intercellular channels become occluded by desmosomes, andthe vitelline membrane plaques separate the oocyte and follicleepithelium.

Submitted on July 14, 1970
Revised on February 3, 1971

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