Vladlen Z. Slepak scite author profile

Murine G alpha 14 and G alpha 15 cDNAs encode distinct alpha subunits of heterotrimeric guanine nucleotide-binding proteins (G proteins). These alpha subunits are related to members of the Gq class and share certain sequence characteristics with G alpha q, G alpha 11, and G alpha 16, such as the absence of a pertussis toxin ADP-ribosylation site. G alpha 11 and G alpha q are ubiquitously expressed among murine tissues but G alpha 14 is predominantly expressed in spleen, lung, kidney, and testis whereas G alpha 15 is primarily restricted to hematopoietic lineages. Among hematopoietic cell lines, G alpha 11 mRNA is found in all cell lines tested, G alpha q is expressed widely but is not found in most T-cell lines, G alpha 15 is predominantly expressed in myeloid and B-cell lineages, and G alpha 14 is expressed in bone marrow adherent (stromal) cells, certain early myeloid cells, and progenitor B cells. Polyclonal antisera produced from synthetic peptides that correspond to two regions of G alpha 15 react with a protein of 42 kDa expressed in B-cell membranes and in Escherichia coli transformed with G alpha 15 cDNA. The expression patterns that were observed in mouse tissues and cell lines indicate that each of the alpha subunits in the Gq class may be involved in pertussis toxin-insensitive signal-transduction pathways that are fundamental to hematopoietic cell differentiation and function.

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Light-Dependent Redistribution of Arrestin in Vertebrate Rods Is an Energy-Independent Process Governed by Protein-Protein Interactions

Nair

Hanson

Méndez

et al. 2005

Neuron

162

258

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In rod photoreceptors, arrestin localizes to the outer segment (OS) in the light and to the inner segment (IS) in the dark. Here, we demonstrate that redistribution of arrestin between these compartments can proceed in ATP-depleted photoreceptors. Translocation of transducin from the IS to the OS also does not require energy, but depletion of ATP or GTP inhibits its reverse movement. A sustained presence of activated rhodopsin is required for sequestering arrestin in the OS, and the rate of arrestin relocalization to the OS is determined by the amount and the phosphorylation status of photolyzed rhodopsin. Interaction of arrestin with microtubules is increased in the dark. Mutations that enhance arrestin-microtubule binding attenuate arrestin translocation to the OS. These results indicate that the distribution of arrestin in rods is controlled by its dynamic interactions with rhodopsin in the OS and microtubules in the IS and that its movement occurs by simple diffusion.

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Arrestin Mobilizes Signaling Proteins to the Cytoskeleton and Redirects their Activity

Hanson

Cleghorn

Francis

et al. 2007

Journal of Molecular Biology

123

229

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SummaryArrestins regulate the activity and subcellular localization of G protein-coupled receptors and other signaling molecules. Here we demonstrate that arrestins bind microtubules (MTs) in vitro and in vivo. The MT-binding site on arrestins significantly overlaps with the receptor-binding site, but the conformations of MT-bound and receptor-bound arrestin are different. Arrestins recruit ERK1/2 and the E3 ubiquitin ligase Mdm2 to microtubules in cells, similar to the arrestin-dependent mobilization of these proteins to the receptor. Arrestin-mediated sequestration of ERK to MTs reduces the level of ERK activation. In contrast, recruitment of Mdm2 to microtubules by arrestin channels Mdm2 activity toward cytoskeleton-associated proteins, dramatically increasing their ubiquitination. The mobilization of signaling molecules to microtubules is a novel biological function of arrestin proteins.

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G alpha 16, a G protein alpha subunit specifically expressed in hematopoietic cells.

Amatruda

Steele

Slepak

1991

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

256

229

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Signal-transduction pathways mediated by guanine nucleotide-binding regulatory proteins (G proteins) determine many of the responses of hematopoietic cells. A recently identified gene encoding a G protein alpha subunit, G alpha 16, is specifically expressed in human cells of the hematopoietic lineage. The G alpha 16 cDNA encodes a protein with predicted Mr of 43,500, which resembles the G q class of alpha subunits and does not include a pertussis toxin ADP-ribosylation site. In comparison with other G protein alpha subunits, the G alpha 16 predicted protein has distinctive amino acid sequences in the amino terminus, the region A guanine nucleotide-binding domain, and in the carboxyl-terminal third of the protein. Cell lines of myelomonocytic and T-cell phenotype express the G alpha 16 gene, but no expression is detectable in two B-cell lines or in nonhematopoietic cell lines. G alpha 16 gene expression is down-regulated in HL-60 cells induced to differentiate to neutrophils with dimethyl sulfoxide. Antisera generated from synthetic peptides that correspond to two regions of G alpha 16 specifically react with a protein of 42- to 43-kDa in bacterial strains that overexpress G alpha 16 and in HL-60 membranes. This protein is decreased in membranes from dimethyl sulfoxide-differentiated HL-60 cells and is not detectable in COS cell membranes. The restricted expression of this gene suggests that G alpha 16 regulates cell-type-specific signal-transduction pathways, which are not inhibited by pertussis toxin.

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Vladlen Z. Slepak

Diversity of Bacteria at Healthy Human Conjunctiva

Characterization of G-protein alpha subunits in the Gq class: expression in murine tissues and in stromal and hematopoietic cell lines.

Light-Dependent Redistribution of Arrestin in Vertebrate Rods Is an Energy-Independent Process Governed by Protein-Protein Interactions

Arrestin Mobilizes Signaling Proteins to the Cytoskeleton and Redirects their Activity

G alpha 16, a G protein alpha subunit specifically expressed in hematopoietic cells.

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