THE CELL JUNCTION IN A LAMELLIBRANCH GILL CILIATED EPITHELIUM: Localization of Pyroantimonate Precipitate

doi:10.1083/jcb.47.2.468

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THE CELL JUNCTION IN A LAMELLIBRANCH GILL CILIATED EPITHELIUM : Localization of Pyroantimonate Precipitate

P. Satir ¹ and N. B. Gilula ¹

¹ From the Department of Physiology-Anatomy, University of California, Berkeley, California 94720

The junctional complex in the gill epithelium of the freshwatermussel (Elliptio complanatus) consists of an intermediary junctionfollowed by a 2–3 µ long septate junction. Homologousand heterologous cell pairs are connected by this junction.After fixation with 1% OsO₄ containing 1% potassium pyroantimonate,electron microscopy of the gill reveals deposits of electron-opaqueprecipitate, specifically and consistently localized along cellularmembranes. In both junctional and nonjunctional membrane regions,the precipitate usefully outlines the convolutions without obliteratingthe 150 A intercellular space, which suggests the rarity orabsence of either vertebrate-type gap or tight junctions alongthe entire cell border. The precipitate appears on the cytoplasmicside of the limiting unit membranes of frontal (F), laterofrontal(LF), intermediate (I), lateral (L), and postlateral (PL) cells.The membrane surfaces of certain vesicles of the smooth endoplasmicreticulum, of multivesicular bodies, and of mitochondrial cristaecontain precipitate, as does the nucleolus. In other portionsof the cell, precipitate is largely absent. The amount of over-alldeposition is variable and depends on the treatment of the tissueprior to fixation. Deposition is usually enhanced by pretreatmentwith 40 mM NaCl as opposed to 40 mM KCl, which suggests thatthe precipitate is in part sodium pyroantimonate. Treatmentwith 0.2 mM ouabain does not enhance deposition. Regional differentiationof cell membranes with respect to their ability to precipitatepyroantimonate is found in at least three instances: (a) betweenthe ciliary membranes and other portions of the cell membrane:the precipitate terminates abruptly at the ciliary base, (b)between the LF and I cell borders: the precipitate is asymmetric,favoring the LF side of the junction, and (c) between the septatejunctional membrane and adjacent membrane: the precipitate occursperiodically throughout the septate junction region with theperiodicity corresponding to the spacing of the septa. Thissuggests that different regions of the cell membrane may havediffering ion permeability properties and, in particular, thatthe septa may be the regions of high ion permeability in theseptate junction.

Submitted on January 22, 1970
Revised on June 1, 1970

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