Low-resistance Coupling between Gland Cells. Some Observations on Intercellular Contact Membranes and Intercellular Space

ALTHOUGH it is not possible at present to give a general definition of the cellular surface membrane, or even to define its spatial limits, the consensus now is that it is related to the structure which under the electron microscope appears as a three-layered complex, about 75 Å thick 1 . The physio...

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Bibliographic Details
Published in:Nature (London) 1964-01, Vol.201 (4915), p.194-195
Main Authors: KANNO, YOSHINOBU, LOEWENSTEIN, WERNER R
Format: Article
Language:English
Subjects:
Animals
Biochemical Phenomena
Cell Biology
Drosophila
Electrophysiological Phenomena
Electrophysiology
Extracellular Space
Humanities and Social Sciences
letter
multidisciplinary
Neurons
Old Medline
Salivary Glands
Science
Science (multidisciplinary)
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Summary:ALTHOUGH it is not possible at present to give a general definition of the cellular surface membrane, or even to define its spatial limits, the consensus now is that it is related to the structure which under the electron microscope appears as a three-layered complex, about 75 Å thick 1 . The physiologist generally assumes that this structure represents the barrier which he finds, by indirect means, restricting the flux of ions at the cell boundary. The general idea about this diffusion barrier is that its resistance is uniformly high over all faces of a given cell. This idea derives chiefly from electrophysiological work with a rather special group of cells which, like skeletal muscle and nerve fibres, have adapted to transmit electrical signals without appreciable cross-talk between cell neighbors; or which, like blood and gamete cells, are normally unconnected. Indeed, in these elements, except for special synaptic contact regions 2–11 and certain neuroglia contacts 12 , the surface resistance is in general high and, within the limits of resolution of the methods, distributed rather uniformly over the cell surface.
ISSN:0028-0836
1476-4687
DOI:10.1038/201194a0