Arpi Nazarian scite author profile

We show that matrices carrying the tethered homologs of natural phosphoinositides can be used to capture and display multiple phosphoinositide binding proteins in cell and tissue extracts. We present the mass spectrometric identification of over 20 proteins isolated by this method, mostly from leukocyte extracts: they include known and novel proteins with established phosphoinositide binding domains and also known proteins with surprising and unusual phosphoinositide binding properties. One of the novel PtdIns(3,4,5)P3 binding proteins, ARAP3, has an unusual domain structure, including five predicted PH domains. We show that it is a specific PtdIns(3,4,5)P3/PtdIns(3,4)P2-stimulated Arf6 GAP both in vitro and in vivo, and both its Arf GAP and Rho GAP domains cooperate in mediating PI3K-dependent rearrangements in the cell cytoskeleton and cell shape.

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The RNA processing exosome is linked to elongating RNA polymerase II in Drosophila

Andrulis

Werner

Nazarian

et al. 2002

Nature

229

213

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The RNA polymerase II elongation complex contains several factors that facilitate transcription elongation and catalyse the processing of precursor messenger RNAs (pre-mRNAs). The conserved elongation factor Spt6 is recruited rapidly and robustly to sites of active transcription. Here we show that Drosophila Spt6 (dSpt6) co-purifies with the exosome, a complex of 3' to 5' exoribonucleases that is implicated in the processing of structural RNA and in the degradation of improperly processed pre-mRNA. Immunoprecipitation assays of Drosophila nuclear extracts show that the exosome also associates with the elongation factor dSpt5 and RNA polymerase II. In vivo, exosome subunits colocalize with dSpt6 at transcriptionally active loci on polytene chromosomes during normal development and are strongly recruited to heat-shock loci on gene induction. At higher resolution, chromatin immunoprecipitation analysis shows that the exosome is recruited to transcriptionally active units of heat-shock genes. These data provide a physical basis for the hypothesis that exosome-mediated pre-mRNA surveillance accompanies transcription elongation.

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Heterogeneous Fatty Acylation of Src Family Kinases with Polyunsaturated Fatty Acids Regulates Raft Localization and Signal Transduction

Liang

Nazarian

Erdjument‐Bromage

et al. 2001

Journal of Biological Chemistry

202

195

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Fatty acylation of Src family kinases is essential for localization of the modified proteins to the plasma membrane and to plasma membrane rafts. It has been suggested that the presence of saturated fatty acyl chains on proteins is conducive for their insertion into liquid ordered lipid domains present in rafts. The ability of unsaturated dietary fatty acids to be attached to Src family kinases has not been investigated. Here we demonstrate that heterogeneous fatty acylation of Src family kinases occurs and that the nature of the attached fatty acid influences raft-mediated signal transduction. By using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry, we show that in addition to 14:0 (myristate), 14:1 and 14:2 fatty acids can be attached to the N-terminal glycine of the Src family kinase Fyn when the growth media are supplemented with these dietary fatty acids. Moreover, we synthesized novel iodinated analogs of oleate and stearate, and we showed that heterogeneous S-acylation can occur on cysteine residues within Fyn as well as G␣, GAP43, and Ras. Modification of Fyn with unsaturated or polyunsaturated fatty acids reduced its raft localization and resulted in decreased T cell signal transduction. These studies establish that heterogeneous fatty acylation is a widespread occurrence that serves to regulate signal transduction by membrane-bound proteins.A growing number of viral and cellular proteins have been shown to be modified by covalent attachment of the fatty acids myristate and/or palmitate. Myristate is co-translationally attached to the N-terminal glycine through an amide linkage, whereas palmitate is attached post-translationally to proteins via a thioester linkage (S-acylation). There is increasing evidence in the literature suggesting that protein fatty acylation is not restricted to myristate and palmitate. For example, the retinal proteins recoverin and transducin have been shown to be heterogeneously fatty acylated via amide linkage with 12:0, 14:1, and 14:2 fatty acids in addition to 14:0 myristate (1-3). However, analysis of the amide-linked fatty acids from total proteins in heart, liver, brain, and retina indicated that heterogenous myristoylation is restricted to the retina (2, 4).S-Acylation of proteins is more diverse, and numerous reports have shown that some proteins are S-acylated with fatty acids longer and shorter than palmitate. For example, stearate, oleate, arachidonate, and eicosapentaenoate have been shown to be acylated to "palmitoylated" proteins in platelets as well as other cell types (5). Analysis of S-linked fatty acids released from total heart and liver proteins reveals the presence of detectable amounts of 14:0, 18:0, 1 18:1, and 18:2 fatty acids in addition to 16:0 (4). Moreover, the pool of fatty acids covalently bound to platelet proteins via thioester linkages can be altered by exogenously supplied fatty acids (6). Whether S-acylation with different fatty acids affects protein localization and function has not yet been elucidated.A number o...

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Lethal Effects of Apidaecin on Escherichia coliInvolve Sequential Molecular Interactions with Diverse Targets

Castle¹,

Nazarian²,

Yi³

et al. 1999

Journal of Biological Chemistry

127

150

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Apidaecins, short proline-arginine-rich peptides from insects, are highly bactericidal through a mechanism that includes stereoselective elements but is completely devoid of any pore-forming activity. The spectrum of antibacterial activity, always limited to Gram-negatives, is further dependent on a small number of variable residues and can be manipulated. We show here that mutations in the evolutionary conserved regions result in a more general loss of function, and we have used such analogs to probe molecular interactions in Escherichia coli. First, an assay was developed to measure selectively chiral association with cellular targets. By using this method, we find that apidaecin uptake is energy-driven and irreversible and yet can be partially competed by proline in a stereospecific fashion, results upholding a model of a permease/transporter-mediated mechanism. This putative transporter is not the end point of apidaecin action, for failure of certain peptide analogs to kill cells after entering indicates the existence of another downstream target. Tetracycline-induced loss of bactericidal activity and dose-dependent in vivo inhibition of translation by apidaecin point at components of the protein synthesis machinery as likely candidates. These findings provide new insights into the antibacterial mechanism of a unique group of peptides and perhaps, by extension, for distant mammalian relatives such as PR-39.

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A Sequence-specific Exopeptidase Activity Test (SSEAT) for “Functional” Biomarker Discovery

Villanueva

Nazarian

Lawlor

et al. 2008

Molecular & Cellular Proteomics

100

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One form of functional proteomics entails profiling of genuine activities, as opposed to surrogates of activity or active "states," in a complex biological matrix: for example, tracking enzyme-catalyzed changes, in real time, ranging from simple modifications to complex anabolic or catabolic reactions. Here we present a test to compare defined exoprotease activities within individual proteomes of two or more groups of biological samples. It tracks degradation of artificial substrates, under strictly controlled conditions, using semiautomated MALDI-TOF mass spectrometric analysis of the resulting patterns. Each fragment is quantitated by comparison with double labeled, non-degradable internal standards (all-D-amino acid peptides) spiked into the samples at the same time as the substrates to reflect adsorptive and processingrelated losses. The full array of metabolites is then quantitated (coefficients of variation of 6.3-14.3% over five replicates) and subjected to multivariate statistical analysis. Using this approach, we tested serum samples of 48 metastatic thyroid cancer patients and 48 healthy controls, with selected peptide substrates taken from earlier standard peptidomics screens (i.e. the "discovery" phase), and obtained class predictions with 94% sensitivity and 90% specificity without prior feature selection (24 features). The test all but eliminates reproducibility problems related to sample collection, storage, and handling as well as to possible variability in endogenous peptide precursor levels because of hemostatic alterations in cancer patients.

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Arpi Nazarian

Identification of ARAP3, a Novel PI3K Effector Regulating Both Arf and Rho GTPases, by Selective Capture on Phosphoinositide Affinity Matrices

The RNA processing exosome is linked to elongating RNA polymerase II in Drosophila

Heterogeneous Fatty Acylation of Src Family Kinases with Polyunsaturated Fatty Acids Regulates Raft Localization and Signal Transduction

Lethal Effects of Apidaecin on Escherichia coliInvolve Sequential Molecular Interactions with Diverse Targets

A Sequence-specific Exopeptidase Activity Test (SSEAT) for “Functional” Biomarker Discovery

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