Abstract
We have identified the PDZ domain protein AF-6 as an intracellular binding partner of the junctional adhesion molecule (JAM), an integral membrane protein located at cell contacts. Binding of AF-6 to JAM required the presence of the intact C terminus of JAM, which represents a classical type II PDZ domain-binding motif. Although JAM did not interact with the single PDZ domains of ZO-1 or of CASK, we found that a ZO-1 fragment containing PDZ domains 2 and 3 bound to JAM in vitro in a PDZ domain-dependent manner. AF-6 as well as ZO-1 could be coprecipitated with JAM from endothelial cell extracts, demonstrating the association of the endogenously expressed molecules in vivo. Targeting of JAM to sites of cell contacts could be affected by the loss of the PDZ domain-binding C terminus. Full-length mouse JAM co-distributed with endogenous AF-6 in human Caco-2 cells at sites of cell contact independent of whether adjacent cells expressed mouse JAM as an extracellular binding partner. In contrast, truncated JAM lacking the PDZ domain-binding C terminus did not co-distribute with endogenous AF-6, but was restricted to cell contacts between cells expressing mouse JAM. Our results suggest that JAM can be recruited to intercellular junctions by its interaction with the PDZ domain-containing proteins AF-6 and possibly ZO-1.
Highlights
Epithelial and endothelial cells are connected by intercellular junctions
Removing the COOH-terminal Val residue (JAM/cyt∆1) allowed growth on selective medium only in the absence of 3-AT and removing additional aa residues (JAM/cyt∆3, Junctional adhesion molecule (JAM)/cyt∆9) completely abolished growth. These results indicated that the interaction between JAM and ALL-1 fusion partner from chromosome 6 (AF-6) is characteristic for protein domain named for PSD-95 (PDZ) domain containing proteins and their ligands
Searching for cytoplasmic binding partners of the junctional adhesion molecule JAM, we have identified the PDZ domain protein AF-6 by a yeast two-hybrid screen
Summary
Epithelial and endothelial cells are connected by intercellular junctions. Tight junctions, called zonula occludens, form a regulated barrier between cells restricting the diffusion of small solutes across cellular sheets as well as the diffusion of proteins from the lateral to the apical membrane domain [1,2]. Connexin 32-occludin chimeras containing only the ZO-1 binding domain of occludin are properly targeted to tight junctional fibrils in MDCK cells [20]. In occludin-deficient epithelial cells ZO-1 is properly targeted to tight junctions [21]. These findings suggest that cytoplasmic proteins such as ZO-1 recruit occludin and act as an organizational scaffold for occludin and possibly other integral membrane proteins of tight junctions. This is substantiated by the recent findings showing that claudins directly associate with ZO-1, ZO-2, and ZO-3 [22]
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