Sam Straight scite author profile

Recent studies have revealed an important role for tight junction protein complexes in epithelial cell polarity. One of these complexes contains the apical transmembrane protein, Crumbs, and two PSD95/discs large/zonula occludens domain proteins, protein associated with Lin seven 1 (PALS1)/Stardust and PALS1-associated tight junction protein (PATJ). Although Crumbs and PALS1/Stardust are known to be important for cell polarization, recent studies have suggested that Drosophila PATJ is not essential and its function is unclear. Here, we find that PATJ is targeted to the apical region and tight junctions once cell polarization is initiated. We show using RNAi techniques that reduction in PATJ expression leads to delayed tight junction formation as well as defects in cell polarization. These effects are reversed by reintroduction of PATJ into these RNAi cells. This study provides new functional information on PATJ as a polarity protein and increases our understanding of the Crumbs–PALS1–PATJ complex function in epithelial polarity.

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The function of PTB domain proteins

Margolis

Borg

Straight

et al. 1999

Kidney International

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Phosphotyrosine binding (PTB) domains have been identified in a large number of proteins. In proteins like Shc and IRS-1, the PTB domain binds in a phosphotyrosine-dependent fashion to peptides that form a b turn. In these proteins, PTB domains play an important role in signal transduction by growth factor receptors. However, in several other proteins, the PTB domains have been found to participate in phosphotyrosine-independent interactions. The X11 family of proteins contains a PTB domain that binds peptides in a phosphotyrosine-independent fashion. The homologue of X11 in C. elegans is the lin-10 gene, a gene crucial for receptor targeting to the basolateral surface of body wall epithelia. The X11/Lin-10 proteins are found in a complex with two other proteins, Lin-2 and Lin-7, which have also been implicated in basolateral targeting in worm epithelia. This protein complex is also likely to be important in the targeting of cell surface proteins in mammalian neurons and epithelia. The ability of the PTB domain to bind peptides in a phosphotyrosine-dependent and -independent fashion allows this domain to be involved in diverse cellular functions.

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Sam Straight

PATJ regulates tight junction formation and polarity in mammalian epithelial cells

The function of PTB domain proteins

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