Daniela Corda scite author profile

The small GTPase ADP-ribosylation factor (ARF) regulates the structure and function of the Golgi complex through mechanisms that are understood only in part, and which include an ability to control the assembly of coat complexes and phospholipase D (PLD). Here we describe a new property of ARF, the ability to recruit phosphatidylinositol-4-OH kinase-beta and a still unidentified phosphatidylinositol-4-phosphate-5-OH kinase to the Golgi complex, resulting in a potent stimulation of synthesis of phosphatidylinositol-4-phosphate and phosphatidylinositol-4,5-bisphosphate; this ability is independent of its activities on coat proteins and PLD. Phosphatidylinositol-4-OH kinase-beta is required for the structural integrity of the Golgi complex: transfection of a dominant-negative mutant of the kinase markedly alters the organization of the organelle.

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Noncompetitive allosteric inhibitors of the inflammatory chemokine receptors CXCR1 and CXCR2: Prevention of reperfusion injury

Bertini¹,

Allegretti²,

Bizzarri³

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

314

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The chemokine CXC ligand 8 (CXCL8)͞IL-8 and related agonists recruit and activate polymorphonuclear cells by binding the CXC chemokine receptor 1 (CXCR1) and CXCR2. Here we characterize the unique mode of action of a small-molecule inhibitor (Repertaxin) of CXCR1 and CXCR2. Structural and biochemical data are consistent with a noncompetitive allosteric mode of interaction between CXCR1 and Repertaxin, which, by locking CXCR1 in an inactive conformation, prevents signaling. Repertaxin is an effective inhibitor of polymorphonuclear cell recruitment in vivo and protects organs against reperfusion injury. Targeting the Repertaxin interaction site of CXCR1 represents a general strategy to modulate the activity of chemoattractant receptors. L eukocyte trafficking into tissue sites of inflammation is directed by chemokines. Chemokines are grouped into four families based on a cysteine motif in the amino terminus of the protein (1, 2). Human CXC ligand 8 (CXCL8)͞IL-8 and related molecules are polymorphonuclear cells (PMN) chemoattractants. Two high-affinity human CXCL8 receptors are known, CXC chemokine receptor 1 (CXCR1) and CXC chemokine receptor 2 (CXCR2). Only one corresponding receptor has been identified in the mouse, and this is recognized by ligands that act as neutrophil attractant, although a mouse orthologue of CXCL8 has not been identified. By recruiting and activating PMN, CXCL8 and related rodent molecules have been implicated in a wide range of disease states characterized by PMN infiltration in organs, including reperfusion injury (RI) (3).G protein-coupled receptors (GPCR) are a prime target for the development of new strategies to control diverse pathologies (4-6). Antichemokine strategies include antibodies, N-terminal modified chemokines, and small-molecule antagonists (7-9). Here we describe a class of GPCR inhibitors that specifically block the inflammatory CXCL8 chemokine receptors CXCR1 and CXCR2 by means of an allosteric noncompetitive mode of interaction and protection against RI. Materials and MethodsReagents. Repertaxin (R)(Ϫ)-2-(4-isobutylphenyl)propionyl methansulfonamide) salified with L-lysine was dissolved in saline. Chemokines were from PeproTech (London). Chemicals, cell culture reagents, and protease inhibitors were from Sigma.Migration. Cell migration of human PMN and monocytes and rodent peritoneal PMN were evaluated in a 48-well microchemotaxis chamber with or without Repertaxin. Agonists (1 nM CXCL8, 10 nM N-formyl-L-methionyl-L-leucyl-L-phenylalanine (fMLP), 10 nM CXCL1, 2.5 nM CCL2, 1 nM C5a, 5 nM rat and mouse CXCL1, and 2.5 nM rat and mouse CXCL2) were seeded in the lower compartment. The chemotaxis chamber was incubated for 45 min (human PMN), 1 h (rodent PMN), or 2 h (monocytes). L1.2 migration was evaluated by using 5-m pore-size Transwell filters (Costar) (10). Mutation Analysis of CXCR1 and Signaling. The human CXCR1 ORF was PCR amplified from a CXCR1͞pCEP4 plasmid (kindly provided by P. M. Murphy, National Institutes of Health, Bethesda). Receptor mutants and chimeric re...

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NEW EMBO MEMBER'S REVIEW: Functional aspects of protein mono-ADP-ribosylation

2003

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Mono‐ADP‐ribosylation is the enzymatic transfer of ADP‐ribose from NAD+ to acceptor proteins. It is catalysed by cellular ADP‐ribosyltransferases and certain bacterial toxins. There are two subclasses of cellular enzymes: the ectoenzymes that modify targets such as integrins, defensin and other cell surface molecules; and the intracellular enzymes that act on proteins involved in cell signalling and metabolism, such as the β‐subunit of heterotrimeric G proteins, GRP78/BiP and elongation factor 2. The genes that encode the ectoenzymes have been cloned and their protein products are well characterized, yet little is known about the intracellular ADP‐ribosyltransferases, which may be part of a novel protein family with an important role in regulating cell function. ADP‐ribosylation usually leads to protein inactivation, providing a mechanism to inhibit protein functions in both physiological and pathological conditions.

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CtBP/BARS induces fission of Golgi membranes by acylating lysophosphatidic acid

Weigert

Silletta

Spanò

et al. 1999

Nature

309

269

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Membrane fission is essential in intracellular transport. Acyl-coenzyme As (acyl-CoAs) are important in lipid remodelling and are required for fission of COPI-coated vesicles. Here we show that CtBP/BARS, a protein that functions in the dynamics of Golgi tubules, is an essential component of the fission machinery operating at Golgi tubular networks, including Golgi compartments involved in protein transport and sorting. CtBP/BARS-induced fission was preceded by the formation of constricted sites in Golgi tubules, whose extreme curvature is likely to involve local changes in the membrane lipid composition. We find that CtBP/BARS uses acyl-CoA to selectively catalyse the acylation of lysophosphatidic acid to phosphatidic acid both in pure lipidic systems and in Golgi membranes, and that this reaction is essential for fission. Our results indicate a key role for lipid metabolic pathways in membrane fission.

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CtBP/BARS: a dual-function protein involved in transcription co-repression and Golgi membrane fission

Nardini¹,

et al. 2003

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C‐terminal‐binding protein/brefeldin A‐ADP ribosylated substrate (CtBP/BARS) plays key roles in development and oncogenesis as a transcription co‐repressor, and in intracellular traffic as a promoter of Golgi membrane fission. Co‐repressor activity is regulated by NAD(H) binding to CtBP/BARS, while membrane fission is associated with its acyl‐CoA‐dependent acyltransferase activity. Here, we report the crystal structures of rat CtBP/BARS in a binary complex with NAD(H), and in a ternary complex with a PIDLSKK peptide mimicking the consensus motif (PXDLS) recognized in CtBP/BARS cellular partners. The structural data show CtBP/BARS in a NAD(H)‐bound dimeric form; the peptide binding maps the recognition site for DNA‐binding proteins and histone deacetylases to an N‐terminal region of the protein. The crystal structure together with the site‐directed mutagenesis data and binding experiments suggest a rationale for the molecular mechanisms underlying the two fundamental co‐existing, but diverse, activities supported by CtBP/BARS in the nucleus and in Golgi membranes.

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Daniela Corda

ARF mediates recruitment of PtdIns-4-OH kinase-β and stimulates synthesis of PtdIns(4,5)P2 on the Golgi complex

Noncompetitive allosteric inhibitors of the inflammatory chemokine receptors CXCR1 and CXCR2: Prevention of reperfusion injury

NEW EMBO MEMBER'S REVIEW: Functional aspects of protein mono-ADP-ribosylation

CtBP/BARS induces fission of Golgi membranes by acylating lysophosphatidic acid

CtBP/BARS: a dual-function protein involved in transcription co-repression and Golgi membrane fission

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