Abstract
Unequivocal vertebrate-like anastomosing tight junctions have been observed for the first time in insect tissues. In freeze-fractured replicas of dipteran compound eyes, the intercellular junctions between certain glial cells in regions distal to the optic neuropile display an extensive network of continuous intramembranous P face (PF) ridges. The intramembranous E face (EF) possesses a reticulum of grooves which occur in the depths of troughs and thereby produce a ‘quilted’ appearance. At PF/EF membrane face transitions, there is an obliteration of the intercellular space at points of membrane fusion; here the PF ridges and EF grooves appear in register and are therefore complementary. Although the septate junctions found here are patent, these tight junctions are occluding to lanthanum and appear to represent the blood-retinal barrier previously demonstrated electrophysiologically in insects. The existence and vertebrate-like structural complexity of these junctions in arthropods supports the concept of the universality of the membrane specializations that mediate cell-to-cell interactions.
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