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Negative cooperativity underlies dynamic assembly of the Par complex regulators Cdc42 and Par-3

Elizabeth Vargas, Kenneth E. Prehoda

2022Journal of Biological Chemistry15 citationsDOIOpen Access PDF

Abstract

The Par complex polarizes diverse animal cells through the concerted action of multiple regulators. Binding to the multi-PDZ domain containing protein Par-3 couples the complex to cortical flows that construct the Par membrane domain. Once localized properly, the complex is thought to transition from Par-3 to the Rho GTPase Cdc42 to activate the complex. While this transition is a critical step in Par-mediated polarity, little is known about how it occurs. Here, we used a biochemical reconstitution approach with purified, intact Par complex and qualitative binding assays and found that Par-3 and Cdc42 exhibit strong negative cooperativity for the Par complex. The energetic coupling arises from interactions between the second and third PDZ protein interaction domains of Par-3 and the aPKC Kinase-PBM (PDZ binding motif) that mediate the displacement of Cdc42 from the Par complex. Our results indicate that Par-3, Cdc42, Par-6, and aPKC are the minimal components that are sufficient for this transition to occur and that no external factors are required. Our findings provide the mechanistic framework for understanding a critical step in the regulation of Par complex polarization and activity.

Topics & Concepts

PDZ domainCDC42CooperativityTernary complexGTPaseCell biologyBiologyBiophysicsCooperative bindingChemistryBinding siteBiochemistryEnzymeHippo pathway signaling and YAP/TAZWnt/β-catenin signaling in development and cancerHeat shock proteins research
Negative cooperativity underlies dynamic assembly of the Par complex regulators Cdc42 and Par-3 | Litcius