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. 1967 Aug 1;50(7):1865–1891. doi: 10.1085/jgp.50.7.1865

Junctional Membrane Uncoupling

Permeability transformations at a cell membrane junction

W R Loewenstein 1, M Nakas 1, S J Socolar 1
PMCID: PMC2225755  PMID: 6050971

Abstract

The permeability of the membrane surfaces where cells are in contact (junctional membranes) in Chironomus salivary glands depends on Ca++ and Mg++. When the concentration of these ions at the junctional membranes is raised sufficiently, these normally highly permeable membranes seal off; their permeability falls one to three orders, as they approach the nonjunctional membranes in conductance. This permeability transformation is achieved in three ways: (a) by iontophoresis of Ca++ into the cell; (b) by entry of Ca++ and/or Mg++ from the extracellular fluid into the cell through leaks in the cell surface membrane (e.g., injury); or (c) by entry of these ions through leaks arising, probably primarily in the perijunctional insulation, due to trypsin digestion, anisotonicity, alkalinity, or chelation. Ca++ and Mg++ appear to have three roles in the junctional coupling processes: (a) in the permeability of the junctional membranes; (b) in the permeability of the perijunctional insulation; and (c) a role long known— in the mechanical stability of the cell junction. The two latter roles may well be closely interdependent, but the first is clearly independent of the others.

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Selected References

These references are in PubMed. This may not be the complete list of references from this article.

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