Abstract
To test whether glycosyl phosphatidylinositol-linked T-cadherin is a component of cell junctions like classical cadherins, we have examined its distribution and targeting in polarized epithelial cells. In vivo, T-cadherin was detected on the apical cell surface of the chick intestinal epithelium. In cultures of transfected Madin-Darby canine kidney cells, T-cadherin was also expressed apically, whereas classical N-cadherin resided basolaterally. Both cadherins were directly targeted to their respective membrane domains. Mutant proteins were expressed in Madin-Darby canine kidney cells to identify the regions responsible for differential cadherin localization. NDeltacyt, an N-cadherin cytoplasmic domain deletion mutant, was stably distributed basolaterally. This mutant was transported to both the apical and basolateral membrane compartments, followed by preferential removal from the apical surface. T-NDeltacyt, a T-cadherin mutant with the N-cadherin cytoplasmic domain deletion, was localized basolaterally, whereas N-TGPI, a GPI-anchored N-cadherin mutant, resided at the apical domain. The T-cadherin carboxyl-terminal 76 amino acids contain the apical targeting signal and include the signal for GPI anchor attachment. Basolateral localization of N-cadherin is achieved through targeting signals in the cytoplasmic domain. Thus, GPI-linked T-cadherin is not a component of cell junctions, consistent with a function as a recognition rather than a cell adhesion molecule.
Highlights
Lateral pole depends on extracellular matrix and cell-cell interactions [3,4,5]
Differential Localization of Exogenously Expressed T- and N-cadherin in Polarized Epithelial Cells in Vitro—To address whether heterologously expressed, GPI-anchored T-cadherin and classical cadherins are differentially targeted in polarized epithelial cells in vitro, MDCK cells were stably transfected with either chicken T-cadherin [13] or N-cadherin cDNA expression plasmids and pSV2 neo
The 76 carboxyl-terminal amino acids of T-cadherin include the signal for GPI anchor attachment. These results demonstrate that the carboxylterminal 76 T-cadherin amino acids contain the signal for GPI anchor attachment and are responsible for apical targeting of T-cadherin in MDCK cells
Summary
Lateral pole depends on extracellular matrix and cell-cell interactions [3,4,5]. Formation of cell-cell contacts, induced through adhesive interactions mediated by E-cadherin [6], results in the differentiation of MDCK cells into a polarized epithelium and the gradual restriction of specific proteins to the apical or basolateral membrane domain [5,6,7,8]. Endogenously expressed E-cadherin, detected with monoclonal anti-canine Ecadherin antibody rr1 [22], was expressed at the lateral surface both in wild type MDCK cells as described previously (28, 29; not shown) and in T-cadherin-transfected cells (Fig. 2B).
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