Litcius/Paper detail

Regulation of cargo exocytosis by a Reps1-Ralbp1-RalA module

Shifeng Wang, Xu Chen, Lauren Crisman, Ximing Dou, Christina S. Winborn, Chun Wan, Harrison Puscher, Qian Yin, Matthew J. Kennedy, Jingshi Shen

2023Science Advances16 citationsDOIOpen Access PDF

Abstract

Surface levels of membrane proteins are determined by a dynamic balance between exocytosis-mediated surface delivery and endocytosis-dependent retrieval from the cell surface. Imbalances in surface protein levels perturb surface protein homeostasis and cause major forms of human disease such as type 2 diabetes and neurological disorders. Here, we found a Reps1-Ralbp1-RalA module in the exocytic pathway broadly regulating surface protein levels. Reps1 and Ralbp1 form a binary complex that recognizes RalA, a vesicle-bound small guanosine triphosphatases (GTPase) promoting exocytosis through interacting with the exocyst complex. RalA binding results in Reps1 release and formation of a Ralbp1-RalA binary complex. Ralbp1 selectively recognizes GTP-bound RalA but is not a RalA effector. Instead, Ralbp1 binding maintains RalA in an active GTP-bound state. These studies uncovered a segment in the exocytic pathway and, more broadly, revealed a previously unrecognized regulatory mechanism for small GTPases, GTP state stabilization.

Topics & Concepts

ExocytosisBiologySmall GTPaseExocystADP ribosylation factorGTPaseCell biologyBrefeldin AGTP'Guanosine triphosphateEffectorGTP-binding protein regulatorsG proteinSignal transductionBiochemistryGolgi apparatusSecretionEndoplasmic reticulumEnzymeCellular transport and secretionProtein Kinase Regulation and GTPase SignalingRetinal Development and Disorders