ADP ribosylation factor regulates spectrin binding to the Golgi complex

Abstract

Homologues of two major components of the well-characterized erythrocyte plasma-membrane-skeleton, spectrin (a not-yet-cloned isoform, βIΣ* spectrin) and ankyrin (Ank_G119 and an ≈195-kDa ankyrin), associate with the Golgi complex. ADP ribosylation factor (ARF) is a small G protein that controls the architecture and dynamics of the Golgi by mechanisms that remain incompletely understood. We find that activated ARF stimulates the in vitro association of βIΣ* spectrin with a Golgi fraction, that the Golgi-associated βIΣ* spectrin contains epitopes characteristic of the βIΣ2 spectrin pleckstrin homology (PH) domain known to bind phosphatidylinositol 4,5-bisphosphate (PtdInsP₂), and that ARF recruits βIΣ* spectrin by inducing increased PtdInsP₂ levels in the Golgi. The stimulation of spectrin binding by ARF is independent of its ability to stimulate phospholipase D or to recruit coat proteins (COP)-I and can be blocked by agents that sequester PtdInsP₂. We postulate that a PH domain within βIΣ* Golgi spectrin binds PtdInsP₂ and acts as a regulated docking site for spectrin on the Golgi. Agents that block the binding of spectrin to the Golgi, either by blocking the PH domain interaction or a constitutive Golgi binding site within spectrin’s membrane association domain I, inhibit the transport of vesicular stomatitis virus G protein from endoplasmic reticulum to the medial compartment of the Golgi complex. Collectively, these results suggest that the Golgi-spectrin skeleton plays a central role in regulating the structure and function of this organelle.