Moran Rawet scite author profile

ArfGAP1 (Arf GTPase activating protein 1) controls the cycling of the COPI coat on Golgi membranes by catalyzing GTP hydrolysis in the small G protein Arf1. ArfGAP1 contains a central motif named ALPS (ArfGAP1 lipid-packing sensor) that adsorbs preferentially onto highly curved membranes. This motif allows coupling of the rate of GTP hydrolysis in Arf1 with membrane curvature induced by the COPI coat. Upon membrane adsorption, the ALPS motif folds into an amphipathic alpha-helix. This helix contrasts from a classical membrane-adsorbing helix in the abundance of S and T residues and the paucity of charged residues in its polar face. We show here that ArfGAP1 contains a second motif with similar physicochemical properties. This motif, ALPS2, also forms an amphipathic alpha-helix at the surface of small vesicles and contributes to the Golgi localization of ArfGAP1 in vivo. Using several quantitative assays, we determined the relative contribution of the two ALPS motifs in the recognition of liposomes of defined curvature and composition. Our results show that ALPS1 is the primary determinant of the interaction of ArfGAP1 with lipid membranes and that ALPS2 reinforces this interaction 40-fold. Furthermore, our results suggest that depending on the engagement of one or two functional ALPS motifs, ArfGAP1 can respond to a wide range of membrane curvature and can adapt to lipid membranes of various acyl chain compositions.

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Discrete Determinants in ArfGAP2/3 Conferring Golgi Localization and Regulation by the COPI Coat

Kliouchnikov

Bigay

Mesmin

et al. 2009

MBoC

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From yeast to mammals, two types of GTPase-activating proteins, ArfGAP1 and ArfGAP2/3, control guanosine triphosphate (GTP) hydrolysis on the small G protein ADP-ribosylation factor (Arf) 1 at the Golgi apparatus. Although functionally interchangeable, they display little similarity outside the catalytic GTPase-activating protein (GAP) domain, suggesting differential regulation. ArfGAP1 is controlled by membrane curvature through its amphipathic lipid packing sensor motifs, whereas Golgi targeting of ArfGAP2 depends on coatomer, the building block of the COPI coat. Using a reporter fusion approach and in vitro assays, we identified several functional elements in ArfGAP2/3. We show that the Golgi localization of ArfGAP3 depends on both a central basic stretch and a carboxy-amphipathic motif. The basic stretch interacts directly with coatomer, which we found essential for the catalytic activity of ArfGAP3 on Arf1-GTP, whereas the carboxy-amphipathic motif interacts directly with lipid membranes but has minor role in the regulation of ArfGAP3 activity. Our findings indicate that the two types of ArfGAP proteins that reside at the Golgi use a different combination of protein-protein and protein-lipid interactions to promote GTP hydrolysis in Arf1-GTP.

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Golgi Localization Determinants in ArfGAP1 and in New Tissue-specific ArfGAP1 Isoforms

Parnis

Rawet

Regev

et al. 2006

Journal of Biological Chemistry

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The Arf1-directed GTPase-activating protein ArfGAP1 is a Golgi-localized protein that controls the dynamics of the COPI coat of carriers that mediate transport in the endoplasmic reticulumGolgi shuttle. Previously the interaction of ArfGAP1 with the Golgi was allocated to a portion of the non-catalytic, carboxyl part of the protein, but the mechanism of this interaction has not been established. In this study we identify a short stretch in the non-catalytic part of ArfGAP1 (residues 204 -214) in which several hydrophobic residues contribute to Golgi localization. Even single alanine replacement of two of these residues (Leu-207 and Trp-211) strongly diminished Golgi localization. Mutations in the hydrophobic residues also diminished the in vitro activity of ArfGAP1 on Arf1 bound to Golgi membranes. The stretch containing the hydrophobic residues was recently shown to mediate the binding of ArfGAP1 to loosely packed lipids of highly curved liposomes (Bigay, J., Casella, J. F., Drin, G., Mesmin, B., and Antonny, B. (2005) EMBO J. 24, 2244 -2253). Whereas short fragments containing the hydrophobic stretch were not Golgi-localized, a proximal 10-residue inframe insertion that is present in new ArfGAP1 isoforms that we identified in brain and heart tissues could confer Golgi localization on these fragments. This localization was abrogated by alanine replacement of residues Phe-240 or Trp-241 of the insertion sequence but not by their replacement with leucines. Our findings indicate that ArfGAP1 interacts with the Golgi through multiple hydrophobic motifs and that alternative modes of interaction may exist in tissue-specific ArfGAP1 isoforms.Membrane traffic in the endoplasmic reticulum-Golgi shuttle is mediated by the COPI 3 and COPII trafficking systems. The COPII system mediates the initial exit from the endoplasmic reticulum, whereas subsequent transport to the Golgi apparatus and retrograde Golgi to endoplasmic reticulum traffic involves COPI carriers. The COPI and COPII coats are composed of evolutionarily distinct sets of proteins yet follow similar pathways of coat assembly and disassembly (for recent reviews see Refs. 1-3). In both systems a small GTPase (Arf1 and Sar1 for COPI and COPII, respectively) plays a key regulatory role. Following activation by a guanine nucleotide exchange protein, the GTPase translocates from cytosol to the organelle membrane, where it initiates the process of coat formation by the direct binding of coat subunits (4 -6). The coat in turn recruits cargo and polymerizes causing membrane deformation to form a bud.In the second phase of the GTPase cycle of Arf1 and Sar1, bound GTP is hydrolyzed with the aid of a GTPase-activating protein (GAP). The hydrolysis of GTP is a prerequisite for coat dissociation, and its inhibition leads to the accumulation of coated vesicles that are prevented from fusing with the target membrane (4, 7). The GAP for Sar1 is a subunit of the first layer of the COPII coat, the Sec23/24 complex (8). ArfGAPs constitute a large family of proteins containing a hi...

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Moran Rawet

Two Lipid-Packing Sensor Motifs Contribute to the Sensitivity of ArfGAP1 to Membrane Curvature

Discrete Determinants in ArfGAP2/3 Conferring Golgi Localization and Regulation by the COPI Coat

Golgi Localization Determinants in ArfGAP1 and in New Tissue-specific ArfGAP1 Isoforms

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