Evidence for high molecular weight proteins in arthropod gap and smooth septate junctions

The proteins that make up arthropod gap and septate junctions have not been identified with any certainty. Several candidate proteins for both types of junctions have been proposed in the literature, but there has been no agreement on any of these. Arthropod gap junctions do not label with antibodies to vertebrate gap junction connexins; it thus appears that unrelated proteins form these rather similar structures. Gap junctions inManduca sextamidgut epithelium are unusual since they function only during the molt and are non-functioning during the larval instars. We have developed a preparation from this tissue that is highly enriched in both gap and smooth septate junctions when examined by electron microscopy. SDS-PAGE gels of this preparation have two major protein bands, at 75 and 90 kDa. The presence of gap junctions correlates best with the 75 kDa protein and smooth septate junctions with the 90 kDa protein. Further, the 75 kDa band is stained by an antibody to a putative gap junction protein fromC. elegans. We propose that the 75 kDa protein is a major structural component of gap junctions inManduca sextamidgut epithelium and that the 90 kDa protein forms the smooth septate junctions.