Interactions among IQGAP1, Cdc42, and the cadherin/catenin protein complex regulate Sertoli-germ cell adherens junction dynamics in the testis
Version of Record online: 9 AUG 2004
Copyright © 2005 Wiley-Liss, Inc.
Journal of Cellular Physiology
Volume 202, Issue 1, pages 49–66, January 2005
How to Cite
Lui, W. Y., Mruk, D. D. and Cheng, C. Y. (2005), Interactions among IQGAP1, Cdc42, and the cadherin/catenin protein complex regulate Sertoli-germ cell adherens junction dynamics in the testis. J. Cell. Physiol., 202: 49–66. doi: 10.1002/jcp.20098
- Issue online: 28 OCT 2004
- Version of Record online: 9 AUG 2004
- Manuscript Accepted: 17 FEB 2004
- Manuscript Received: 30 DEC 2003
- National Institutes of Health (NICHD). Grant Numbers: U01 HD45908, U54 HD29990
- The CONRAD Program (CICCR). Grant Numbers: CIG 01-72, CIG-01-74
- Noopolis Foundation
The movement of developing germ cells across the seminiferous epithelium during spermatogenesis involves extensive adherens junction (AJ) restructuring between Sertoli cells, as well as between Sertoli and germ cells. In this report, we show that the intricate interactions between Cdc42 (a Rho family protein of Mr ∼23 kDa originally identified in membranes of human platelets and placenta, and is the homolog of CDC42Sc, which is known to regulate of bud-site assembly in Saccharomyces cerevisiae) and its effector, IQ motif containing GTPase activating protein (IQGAP1, Mr ∼189 kDa, it is also an actin-binding protein known to interact with Cdc42 and Rac1 GTPases), regulate Sertoli-germ cell, but not Sertoli-Sertoli cell, AJ dynamics. Using testis lysates for immunoprecipitation (IP), IQGAP1 was shown to associate with E-cadherin, N-cadherin, and β-catenin (but not β1-integrin and nectin-2), as well as with actin and vimentin (but not α-tubulin). Moreover, IQGAP1 was found to localize to the periphery of both Sertoli and germ cells in the seminiferous epithelium, at sites of cell–cell contacts. Using fluorescent microscopy with dual fluorescent probes, IQGAP1 was found to co-localize, at least in part, with N-cadherin in the seminiferous epithelium consistent with their localization at the basal and apical ES. Using Sertoli-germ cell cocultures, it was demonstrated that AJ assembly associated with a transient induction of Cdc42 and IQGAP1, which was not found when Sertoli cells were cultured alone. Lastly, a shift in the interactions of Cdc42, IQGAP1, β-catenin, and N-cadherin was detected in Sertoli-germ cell cocultures using an Ca2+-induced AJ disruption model, which was used to examine AJ disassembly and its reassembly. In the presence of Ca2+, IQGAP1 bound preferentially to Cdc42 rather than to β-catenin. However, when Ca2+ was depleted from cocultures using EGTA, a Ca2+ chelating agent, IQGAP1 lost its affinity for Cdc42 and became tightly associated with β-catenin, destabilizing cadherin-mediated AJs between Sertoli and germ cells. Yet this shift of protein–protein interaction was not detected in Sertoli cells cultured alone. These results illustrate that the interactions among IQGAP1, Cdc42, and β-catenin are crucial to the regulation of Sertoli-germ cell, but not Sertoli-Sertoli cell, AJ dynamics in the seminiferous epithelium. © 2005 Wiley-Liss, Inc.