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Heterotrimeric G Proteins (heterotrimeric + g_protein)

Distribution by Scientific Domains
Life Sciences61%
Chemistry23%
Medical Sciences15%

Selected Abstracts

Neural tube defects and impaired neural progenitor cell proliferation in G,1 -deficient mice

DEVELOPMENTAL DYNAMICS, Issue 4 2010
Hiroaki Okae
Abstract Heterotrimeric G proteins are well known for their roles in signal transduction downstream of G protein,coupled receptors (GPCRs), and both G, subunits and tightly associated G,, subunits regulate downstream effector molecules. Compared to G, subunits, the physiological roles of individual G, and G, subunits are poorly understood. In this study, we generated mice deficient in the G,1 gene and found that G,1 is required for neural tube closure, neural progenitor cell proliferation, and neonatal development. About 40% G,1,/, embryos developed neural tube defects (NTDs) and abnormal actin organization was observed in the basal side of neuroepithelium. In addition, G,1,/, embryos without NTDs showed microencephaly and died within 2 days after birth. GPCR agonist-induced ERK phosphorylation, cell proliferation, and cell spreading, which were all found to be regulated by G,i and G,, signaling, were abnormal in G,1,/, neural progenitor cells. These data indicate that G,1 is required for normal embryonic neurogenesis. Developmental Dynamics 239:1089,1101, 2010. © 2010 Wiley-Liss, Inc. [source]

G,s protein C -terminal ,-helix at the interface: does the plasma membrane play a critical role in the G,s protein functionality?

JOURNAL OF PEPTIDE SCIENCE, Issue 10 2005
Stefania Albrizio
Abstract The heterotrimeric guanine nucleotide-binding regulatory proteins (G proteins, G,,,) mediate the signalling process of a large number of receptors, known as G protein-coupled receptors. The C -terminal domain of the heterotrimeric G protein ,-subunit plays a key role in the selective activation of G proteins by their cognate receptors. The interaction of this domain can take place at the end of a cascade including several successive conformational modifications. G,s(350,394) is the 45-mer peptide corresponding to the C -terminal region of the G,s subunit. In the crystal structure of the G,s subunit it encompasses the ,4/,6 loop, the ,6 ,-sheet segment and the ,5 helix region. Following a previous study based on the synthesis, biological activity and conformational analysis of shorter peptides belonging to the same G,s region, G,s(350,394) was synthesized and investigated. The present study outlines the central role played by the residues involved in the ,4/,6 loop and ,6/,5 loops in the stabilization of the C -terminal G,s,-helix. H2O/2H2O exchange experiments, and NMR diffusion experiments show interesting evidence concerning the interaction between the SDS micelles and the polypeptide. These data prompt intriguing speculations on the role of the intracellular environment/cellular membrane interface in the stabilization and functionality of the C -terminal G,s region. Copyright © 2005 European Peptide Society and John Wiley & Sons, Ltd. [source]

Genetic characterization reveals no role for the reported ABA receptor, GCR2, in ABA control of seed germination and early seedling development in Arabidopsis

THE PLANT JOURNAL, Issue 6 2007
Yajun Gao
Summary Abscisic acid (ABA) is perceived by several different types of receptors in plant cells. At the cell surface, the ABA signal is proposed to be perceived by GCR2, which mediates ABA responses in seed germination, early seedling development and stomatal movement. GCR2 was also proposed to be a seven-transmembrane (7TM) G-protein-coupled receptor (GPCR). Here we characterize GCR2 and one of its two homologs, GCR2-LIKE 1 (GCL1), in ABA-mediated seed germination and early seedling development in Arabidopsis. We show that loss-of-function mutations in GCL1 did not confer ABA insensitivity. Similarly, we did not observe ABA insensitivity in three independent gcr2 alleles. Furthermore, we generated gcr2 gcl1 double mutants and found that the double mutants still had near wild-type responses to ABA. Consistent with this, we found that the transcription of ABA marker genes was induced by ABA to levels that were comparable in wild type and gcr2 and gcl1 single and double mutants. On the other hand, the loss-of-function alleles of the sole Arabidopsis heterotrimeric G protein , subunit, GPA1, were hypersensitive to ABA in the ABA-inhibition of seed germination and early seedling development, disfavoring a genetic coupling of GCR2 by GPA1. Using multiple robust transmembrane prediction systems, GCR2 was predicted not to be a 7TM protein, a structural hallmark of GPCRs. Taken together, our results do not support the notion that GCR2 is an ABA-signaling GPCR in seed germination and early seedling development. [source]

C-terminal truncated cannabinoid receptor 1 coexpressed with G protein trimer in Sf9 cells exists in a precoupled state and shows constitutive activity

FEBS JOURNAL, Issue 23 2007
Chandramouli Reddy Chillakuri
We have investigated the existence of a precoupled form of the distal C-terminal truncated cannabinoid receptor 1 (CB1-417) and heterotrimeric G proteins in a heterologous insect cell expression system. CB1-417 showed higher production levels than the full-length receptor. The production levels obtained in our expression system were double the values reported in the literature. We also observed that at least the distal C-terminus of the receptor was not involved in receptor dimerization, as was predicted in the literature. Using fluorescence resonance energy transfer, we found that CB1-417 and G,i1,1,2 proteins were colocalized in the cells. GTP,S binding assays with the Sf9 cell membranes containing CB1-417 and the G protein trimer showed that the receptor could constitutively activate the G,i1 protein in the absence of agonists. A CB1-specific antagonist (SR 141716A) inhibited this constitutive activity of the truncated receptor. We found that the CB1-417/G,i1,1,2 complex could be solubilized from Sf9 cell membranes and coimmunoprecipitated. In this study, we have proven that the receptor and G proteins can be coexpressed in higher yields using Sf9 cells, and that the protein complex is stable in detergent solution. Thus, our system can be used to produce sufficient quantities of the protein complex to start structural studies. [source]

Scanning mutagenesis of regions in the G, protein Gpa1 that are predicted to interact with yeast mating pheromone receptors

FEMS YEAST RESEARCH, Issue 1 2008
Douglas P. Gladue
Abstract The mechanism by which receptors activate heterotrimeric G proteins was examined by scanning mutagenesis of the Saccharomyces cerevisiae pheromone-responsive G, protein (Gpa1). The juxtaposition of high-resolution structures for rhodopsin and its cognate G protein transducin predicted that at least six regions of G, are in close proximity to the receptor. Mutagenesis was targeted to residues in these domains in Gpa1, which included four loop regions (,2,,3, ,2,,4, ,3,,5, and ,4,,6) as well as the N and C termini. The mutants displayed a range of phenotypes from nonsignaling to constitutive activation of the pheromone pathway. The constitutive activity of some mutants could be explained by decreased production of Gpa1, which permits unregulated signaling by G,,. However, the constitutive activity caused by the F344C and E335C mutations in the ,2,,4 loop and F378C in the ,3,,5 loop was not due to decreased protein levels, and was apparently due to defects in sequestering G,,. The strongest loss of the function mutant, which was not detectably induced by a pheromone, was caused by a K314C substitution in the ,2,,3 loop. Several other mutations caused weak signaling phenotypes. Altogether, these results suggest that residues in different interface regions of G, contribute to activation of signaling. [source]

The use of membrane translocating peptides to identify sites of interaction between the C5a receptor and downstream effector proteins

IMMUNOLOGY, Issue 4 2004
Graham A. Auger
Summary The complement fragment C5a is a potent leucocyte chemoattractant and activator, mediating its effects through a G-protein-coupled receptor. Whilst the C-terminal domain of this receptor has been shown to be essential for receptor desensitization and internalization, it is not known which domains couple to the receptor's heterotrimeric G proteins. In this report we have used a membrane translocating sequence (MTS) to examine the effects of the four intracellular domains of the human C5a receptor (C5aR) on the receptor's signalling via G,i family heterotrimeric G proteins in intact RBL-2H3 cells. The results indicate that all of the intracellular domains couple to downstream signalling, with the proximal region of the C terminus being a major binding site and intracellular loop 3 playing a role in G protein activation or receptor desensitization. [source]

Membrane-bound and cytosolic forms of heterotrimeric G proteins in young and adult rat myocardium: Influence of neonatal hypo- and hyperthyroidism

JOURNAL OF CELLULAR BIOCHEMISTRY, Issue 2 2001
Jiri Novotny
Abstract Membrane and cytosolic fractions prepared from ventricular myocardium of young (21-day-old) hypo- or hyperthyroid rats and adult (84-day-old) previously hypo- or hyperthyroid rats were analyzed by immunoblotting with specific anti-G-protein antibodies for the relative content of Gs,, Gi,/Go,, Gq,/G11,, and G,. All tested G protein subunits were present not only in myocardial membranes but were at least partially distributed in the cytosol, except for Go,2, and G11,. Cytosolic forms of the individual G proteins represented about 5,60% of total cellular amounts of these proteins. The long (Gs,-L) isoform of Gs, prevailed over the short (Gs,-S) isoform in both crude myocardial membranes and cytosol. The Gs,-L/Gs,-S ratio in membranes as well as in cytosol increased during maturation due to a substantial increase in Gs,-L. Interestingly, whereas the amount of membrane-bound Gi,/Go, and Gq,/G11, proteins tend to lower during postnatal development, cytosolic forms of these G proteins mostly rise. Neonatal hypothyroidism reduced the amount of myocardial Gs, and increased that of Gi,/Go, proteins. By contrast, neonatal hyperthyroidism increased expression of Gs, and decreased that of Gi, and G11, in young myocardium. Changes in G protein content induced by neonatal hypo- and hyperthyroidism in young rat myocardium were restored in adulthood. Alterations in the membrane-cytosol balance of G protein subunits associated with maturation or induced by altered thyroid status indicate physiological importance of cytosolic forms of these proteins in the rat myocardium. J. Cell. Biochem. 82: 215,224, 2001. © 2001 Wiley-Liss, Inc. [source]

Studies on the cellular uptake of substance P and lysine-rich, KLA-derived model peptides,

JOURNAL OF MOLECULAR RECOGNITION, Issue 1 2005
Johannes Oehlke
Abstract In the last decade many peptides have been shown to be internalized into various cell types by different, poorly characterized mechanisms. This review focuses on uptake studies with substance P (SP) aimed at unravelling the mechanism of peptide-induced mast cell degranulation, and on the characterization of the cellular uptake of designed KLA-derived model peptides. Studies on structure,activity relationships and receptor autoradiography failed to detect specific peptide receptors for the undecapeptide SP on mast cells. In view of these findings, a direct interaction of cationic peptides with heterotrimeric G proteins without the participation of a receptor has been proposed. Such a process would require insertion into and translocation of peptides across the plasma membrane. In order to clarify whether a transport of cationic peptides into rat peritoneal mast cells is possible, transport studies were performed by confocal laser scanning microscopy (CLSM) using fluorescence-labeled Arg3,Orn7 -SP and its D -amino acid analog, all- D -Arg3,Orn7 -SP, as well as by electron microscopic autoradiography using 3H-labelled SP and 125I-labelled all- D -SP. The results obtained by CLSM directly showed translocation of SP peptides into pertussis toxin-treated cells. Kinetic experiments indicated that the translocation process was rapid, occurring within a few seconds. Mast cell degranulation induced by analog of magainin 2 amide, neuropeptide Y and the model peptide acetyl-KLALKLALKALKAALKLA-amide was also found to be very fast, pointing to an extensive translocation of the peptides. In order to learn more about structural requirements for the cellular uptake of peptides, the translocation behavior of a set of systematically modified KLA-based model peptides has been studied in detail. By two different protocols for determining the amount of internalized peptide, evidence was found that the structure of the peptides only marginally affects their uptake, whereas the efflux of cationic, amphipathic peptides is strikingly diminished, thus allowing their enrichment within the cells. Although the mechanism of cellular uptake, consisting of energy-dependent and -independent contributions, is not well understood, KLA-derived peptides have been shown to deliver various cargos (PNAs, peptides) into cells. The results obtained with SP- and KLA-derived peptides are discussed in the context of the current literature. Copyright © 2004 John Wiley & Sons, Ltd. [source]

Localization of synaptic proteins involved in neurosecretion in different membrane microdomains

JOURNAL OF NEUROCHEMISTRY, Issue 3 2007
Elena Taverna
Abstract A number of proteins and signalling molecules modulate voltage-gated calcium channel activity and neurosecretion. As recent findings have indicated the presence of Cav2.1 (P/Q-type) channels and soluble N -ethyl-maleimide-sensitive fusion protein attachment protein receptors (SNAREs) in the cholesterol-enriched microdomains of neuroendocrine and neuronal cells, we investigated whether molecules known to modulate neurosecretion, such as the heterotrimeric G proteins and neuronal calcium sensor-1 (NCS-1), are also localized in these microdomains. After immuno-isolation, flotation gradients from Triton X-100-treated synaptosomal membranes revealed the presence of different detergent-resistant membranes (DRMs) containing proteins of the exocytic machinery (Cav2.1 channels and SNAREs) or NCS-1; both DRM subtypes contained aliquots of heterotrimeric G protein subunits and phosphatidylinositol-4,5-bisphosphate. In line with the biochemical data, confocal imaging of immunolabelled membrane sheets revealed the localization of SNARE proteins and NCS-1 in different dot-like structures. This distribution was largely impaired by treatment with methyl-,-cyclodextrin, thus suggesting the localization of all three proteins in cholesterol-dependent domains. Finally, bradykinin (which is known to activate the NCS-1 pathway) caused a significant increase in NCS-1 in the DRMs. These findings suggest that different membrane microdomains are involved in the spatial organization of the complex molecular network that converges on calcium channels and the secretory machinery. [source]

G protein ,3 subunit 825T genotype is not associated with differing outcome in pediatric renal transplant recipients

PEDIATRIC TRANSPLANTATION, Issue 2 2002
Berthold Hocher
Recent studies have identified a novel polymorphism (C825T) of the gene encoding the ,3 subunit of heterotrimeric G proteins (GNB3), associated with enhanced activation of G proteins, which appears to be more common in hypertensive patients. The donor GNB3 825TT genotype was associated with reduced kidney allograft survival in adults. We examined (in 100 Caucasian pediatric renal transplant recipients) whether the GNB3 (C825T) polymorphism was associated with disease progression and outcome after renal transplantation. The slope of 1/creatinine was determined by linear regression analysis of a median of 12 points before and after renal transplantation, and the population was divided into two groups of equal size, before and after transplantation, according to the slope. The observed frequencies were 57 for the CC, 33 for the CT, and 10 for the TT haplotype. For comparison, 738 consecutive newborn babies with the same ethnic background were typed in the same hospital. Allele frequencies were statistically not significantly different (chi-square test, p =,0.1327). When dividing the pediatric renal transplant recipients into two groups with regard to the slope of 1/creatinine, both before and after renal transplantation, the observed proportions were CC 26, CT 17, and TT 7 in the group with the poorer slope and CC 31, CT 16, and TT 3 in the group with the better slope before renal transplantation (not significant [NS], chi-square test, p =,0.1777). The observed proportions after renal transplantation were CC 26, CT 16, and TT 8 in the group with the poorer slope and CC 31, CT 15, and TT 4 in the group with the better slope, respectively (NS, chi-square test, p =,0.167). Allograft survival was not associated with the T allele. In conclusion, in a sizeable number of pediatric renal transplant recipients the GNB3 C825T polymorphism was found not to be a genetic risk factor for end-stage kidney disease. In addition, kidney graft function and survival was also found not to be associated with a recipient GNB3 C825T polymorphism. [source]

Synthesis and Spectroscopic Characterization of Photo-affinity Peptide Ligands to Study Rhodopsin,G Protein Interaction,

PHOTOCHEMISTRY & PHOTOBIOLOGY, Issue 4 2008
Yihui Chen
G protein-coupled receptors (GPCRs) are involved in the control of virtually all aspects of our behavior and physiology. Activated receptors catalyze nucleotide exchange in heterotrimeric G proteins (composed of ,·GDP, , and , subunits) on the inner surface of the cell membrane. The GPCR rhodopsin and the G protein transducin (Gt) are key proteins in the early steps of the visual cascade. The main receptor interaction sites on Gt are the C-terminal tail of the Gt,-subunit and the farnesylated C-terminal tail of the Gt,-subunit. Synthetic peptides derived from these C-termini specifically bind and stabilize the active rhodopsin conformation (R*). Here we report the synthesis of R*-interacting peptides containing photo-reactive groups with a specific isotope pattern, which can facilitate detection of cross-linked products by mass spectrometry. In a preliminary set of experiments, we characterized such peptides derived from the farnesylated Gt, C-terminus (Gt,(60-71)far) in terms of their capability to bind R*. Here, we describe novel peptides with photo-affinity labels that bind R* with affinities similar to that of the native Gt,(60-71)far peptide. Such peptides will enable an improved experimental strategy to probe rhodopsin,Gt interaction and to map so far unknown interaction sites between both proteins. [source]

Involvement of G Proteins in the Mycelial Photoresponses of Phycomyces,

PHOTOCHEMISTRY & PHOTOBIOLOGY, Issue 4 2004
George Tsolakis
ABSTRACT Many responses of the zygomycete fungus Phycomyces blakesleeanus are mediated by blue light, e.g. the stimulation of ,-carotene synthesis (photocarotenogenesis) and the formation of fruiting bodies (photomorphogenesis). Even though both responses have been described in detail genetically and biophysically, the underlying molecular events remain unknown. Applying a pharmacological approach in developing mycelia, we investigated the possible involvement of heterotrimeric G proteins in the blue-light transduction chains of both responses. G protein agonists (guanosine triphosphate analogues, cholera toxin, pertussis toxin) mimicked in darkness the effect of blue light for both responses, except for cholera toxin, which was ineffective in increasing the ,-carotene content of dark-grown mycelia. Experiments combining the two toxins indicated that photocarotenogenesis could involve an inhibitory G protein (Gi) type, whereas photomorphogenesis may depend on a transducin (Gt type)-like heterotrimer. The determination of the carB (phytoene dehydrogenase) and chs1 (chitin synthase 1) gene expression under various conditions of exogenous challenge supports the G protein participation. The fluctuations of the time course measurements of the carB and chs1 transcripts are discussed. [source]

Characterization of heterotrimeric G protein complexes in rice plasma membrane

THE PLANT JOURNAL, Issue 2 2004
Chiyuki Kato
Summary Two genes in the rice genome were identified as those encoding the , subunits, ,1 and ,2, of heterotrimeric G proteins. Using antibodies against the recombinant proteins for the ,, ,, ,1, and ,2 subunits of the G protein complexes, all of the subunits were proven to be localized in the plasma membrane in rice. Gel filtration of solubilized plasma membrane proteins showed that all of the , subunits were present in large protein complexes (about 400 kDa) containing the other subunits, ,, ,1, and ,2, and probably also some other proteins, whereas large amounts of the , and , (,1 and ,2) subunits were freed from the large complexes and took a 60-kDa form. A yeast two-hybrid assay and co-immunoprecipitation experiments showed that the , subunit interacted tightly with the ,1 and ,2 subunits, and so the , and , subunits appeared to form dimers in rice cells. Some dimers were associated with the , subunit, because few ,, ,1, and ,2 subunits were present in the 400-kDa complexes in a rice mutant, d1, which was lacking in the , subunit. When a constitutively active form of the , subunit was prepared by the exchange of one amino acid residue and introduced into d1, the mutagenized subunit was localized in the plasma membrane of the transformants and took a free, and not the 400-kDa, form. [source]