Your search keyword '"Ximena Romo"' showing total 16 results

1. Antioxidant activity of Bios-p peptide analogue in HEK293T cells and three-dimensional structure prediction

Author

Magdalena Cuevas Troncoso, Fabiola Zambrano, Fernando Romero Mejía, Andrés Ávila Barrera, Pamela Fernández Manzano, Patricia Navarrete Gómez, Ximena Romo Marty, and Ignacio Jofré Fernández

Subjects

chemistry.chemical_classification, education.field_of_study, Reactive oxygen species, Cell signaling, Antioxidant, Protease, medicine.medical_treatment, Population, HEK 293 cells, General Medicine, Biology, medicine.disease_cause, Biochemistry, chemistry, Extracellular, medicine, education, Oxidative stress

Abstract

Studies had indicate that excessive production of reactive oxygen species (ROS) affect cellular signaling pathways, which is associated with pathological and physiological conditions such as cancer, diabetes and neurodegenerative diseases In this context, our laboratory has obtained the Bios-p, a ROS modulator, peptide analogue by sequencing from the seed of Bauhinia bauhinoides, which represents the active 12-amino acid, obtained from the inhibitor BbKI protease and we predicted the three-dimensional structure of Bios-p analogue peptide using homology modeling, being patented by the working group of Dr. Maria Luiza Vilela Oliva of UNIFESP, Brazil (a member of our cluster). The protective effect on the viability and antioxidant capacity of Bios-p was studied in HEK 293T cells under oxidative stress induced by hydrogen peroxide (H2O2) using SYTOXGREEN/DHE and luminescence assay. The three-dimensional structure of Bios-p peptide analogue was predicted by homology-based modeling using Modeller9v8. The pretreatment with different concentrations of Bios-p (1 μM - 10 μM) showed an increase of 53.83% ± 3.86% the cellular viability in under oxidative stress compared to control. Furthermore, the results to indicate that HEK293T cells by incubating for 24 h with Bios-p shown a significant decreased of basal extracellular ROS on total cell population in 89.67% ± 0.76%, compared to control in the absence of the analogue. Similarly it is observed that Bios-p has a significant antioxidant effect on extracellular ROS production when cells are subjected to oxidative stress induced by 200 μM H2O2 in 64.37% ± 4.63%, compared to control in absence of H2O2 and Bios-p. These results suggest that Bios-p has potential as antioxidant agent in cells HEK293T under H2O2-induced oxidative stress and that can protect the cells viability as concentration-dependent, and we propose a new biotechnological tool for modulate the ROS production.

Published

2013

2. The action of ethanol on G protein. In silico and cellular/molecular evidences

Author

Sergio A. Aguila, Violeta Morin, Claudio Barrientos, Ximena Romo, Jessica Moreno, Pamela Fernandez, Daniela León, Francisco Rodríguez, Ramón Silva, Sebastián Ortiz, and Maritza Leonardi

Subjects

endocrine system, Ethanol, Gs alpha subunit, G protein, Protein subunit, HEK 293 cells, Mutagenesis, General Medicine, In vitro, chemistry.chemical_compound, chemistry, Biochemistry, mental disorders, Biophysics, Glycine receptor, reproductive and urinary physiology

Abstract

Ethanol (EtOH) enhances glycinergic currents in the central nervous system (CNS). Because evidence for an interaction between the α1 subunit of the glycine receptor (α1GlyR) and the G protein Gβγ subunit exists in vitro and because cAMP levels are known to increase in response to EtOH, we wanted to investigate the interaction between Gβγ and α1GlyR in response to EtOH treatment in HEK293 cells and to explore the possible sites of interaction between EtOH and the Gαs subunit. His pull-down assays in GlyR-His6-transfected HEK293 cells incubated with ethanol or propofol revealed that only EtOH treatment increased the binding of Gβγ heterodimers to α1GlyR. Using molecular modelling (protein structure prediction), was modelled the hGαs protein for the first time and validated this model by site-directed mutagenesis. By molecular docking, we identified some potential regions of interaction between hGαs and EtOH that are located on the SIII and SI regions of the Gαs. Therefore, we conclude that ethanol increases the interaction between α1GlyR and Gβγ in HEK293 cells, an effect that might be attributed to the interaction between EtOH and hGαs, which consequently stimulates hGαs.

Published

2013

3. Activated G Protein αsSubunits Increase the Ethanol Sensitivity of Human Glycine Receptors

Author

Luis G. Aguayo, Gustavo Moraga-Cid, Ximena Romo, and Gonzalo E. Yévenes

Subjects

Cellular and Molecular, Patch-Clamp Techniques, Gs alpha subunit, G protein, Gi alpha subunit, Fluorescent Antibody Technique, Receptors, Glycine, GTP-Binding Proteins, Cyclic AMP, GTP-Binding Protein alpha Subunits, Gs, Humans, Phosphorylation, Protein kinase A, Glycine receptor, Pharmacology, Ethanol, biology, Chemistry, Central Nervous System Depressants, Ligand-Gated Ion Channels, Cyclic AMP-Dependent Protein Kinases, Cell biology, HEK293 Cells, Gq alpha subunit, Biochemistry, biology.protein, Molecular Medicine, Ligand-gated ion channel, Signal transduction, Signal Transduction

Abstract

It is well known that ethanol modulates the function of the Cys loop ligand-gated ion channels, which include the inhibitory glycine receptors (GlyRs). Previous studies have consistently shown that transmembrane and extracellular sites are essential for ethanol actions in GlyRs. In addition, recent evidence has shown that the ethanol modulation of GlyRs is also affected by G protein activation through Gβγ subunits. However, more specific roles of G protein α subunits on ethanol actions are unknown. Here, we show that the allosteric effect of ethanol on the human α(1) GlyR is selectively enhanced by the expression of Gα(s) Q-L. For example, constitutively active Gα(s), but not Gα(q) or Gα(i), was able to displace the alcohol sensitivity of GlyRs toward low millimolar concentrations (17 ± 4 versus 48 ± 5% at 100 mM). Experiments under conditions that increased cAMP and protein kinase A (PKA)-mediated signaling, on the contrary, did not produce the same enhancement in sensitivity, suggesting that the Gα(s) Q-L effect was not dependent on cAMP/PKA-dependent signaling. On the other hand, the effect of Gα(s) Q-L was blocked by a Gβγ scavenger (9 ± 3% of control). Furthermore, two mutant receptors previously shown to have impaired interactions with Gβγ were not affected by Gα(s) Q-L, suggesting that Gβγ is needed for enhancing ethanol sensitivity. These results support the conclusion that activated Gα(s) can facilitate the Gβγ interaction with GlyRs in presence of ethanol, independent of increases in cAMP signaling. Thus, these data indicate that the activated form of Gα(s) is able to positively influence the effect of ethanol on a type of inhibitory receptor important for motor control, pain, and respiration.

Published

2011

4. Vitellogenin Induction and Reproductive Status in Wild Chilean Flounder Paralichthys adspersus (Steindachner, 1867) as Biomarkers of Endocrine Disruption Along the Marine Coast of the South Pacific

Author

Maritza Leonardi, Violeta Morin, Paulina Bustos, Marcia Puchi, and Ximena Romo

Subjects

Male, Gonad, Itata, Health, Toxicology and Mutagenesis, Blotting, Western, Zoology, Flounder, Endocrine Disruptors, Toxicology, Chilean flounder, Vitellogenins, Vitellogenin, medicine, Animals, Endocrine system, Chile, Gonads, biology, Reproduction, Paralichthys adspersus, Estrogens, General Medicine, biology.organism_classification, Pollution, Fishery, Gonadosomatic Index, medicine.anatomical_structure, biology.protein, Electrophoresis, Polyacrylamide Gel, Water Pollutants, Chemical, Environmental Monitoring

Abstract

This study evaluated the condition factor, gonadosomatic, and hepatosomatic indexes, occurrence of plasmatic vitellogenin (Vg), and frequency of spermatogenic maturity stages in male Chilean flounders, Paralichthys adspersus, caught at three different coastal sites off the Bio-Bio region, central Chile, during 1 year. The Vg was detected by polyacrylamide gel electrophoresis with sodium dodecyl sulfate and Western blot analyses using an antibody against Chilean flounder Vg. The spermatogenic maturity stages were analyzed by histological gonadic diagnostic. The prevalence of plasmatic Vg induction in male fish differed significantly among sites. The flounders sampled from the Itata area were the most affected. Evaluations of biometric data, plasmatic Vg induction, and spermatogenic maturity stages of the flounder showed the following: (1) lower gonadosomatic index, (2) greater hepatosomatic index, (3) greater prevalence of plasmatic Vg, and (4) delayed development of the gonad. The results suggest that estrogenic endocrine-disruption compounds are introduced into the marine environment, negatively affecting the fish studied. The relevance of this report is discussed in relation to estrogenic compounds introduced by industrial and municipal wastewater effluents in the areas studied.

Published

2011

5. xRic-8 is a GEF for Gsα and participates in maintaining meiotic arrest inXenopus laevis oocytes

Author

Antonieta Ramirez de Arellano, Ximena Romo, Silvana Martinez, Marcela Torrejón, Pamela Pasten, Pablo Lara, Ximena Soto, Juan Olate, María Victoria Hinrichs, and Martin Montecino

Subjects

Gs alpha subunit, Physiology, Molecular Sequence Data, Clinical Biochemistry, Xenopus, Xenopus Proteins, Biology, Adenylyl cyclase, Xenopus laevis, chemistry.chemical_compound, GTP-Binding Protein alpha Subunits, Gs, medicine, Animals, Guanine Nucleotide Exchange Factors, Humans, Amino Acid Sequence, RNA, Messenger, Cloning, Molecular, RNA, Small Interfering, Receptor, Microinjection, Base Sequence, Cell Biology, Cell cycle, biology.organism_classification, Oocyte, Cell biology, Meiosis, medicine.anatomical_structure, Gene Expression Regulation, chemistry, Oocytes, Intracellular

Abstract

Immature stage VI Xenopus oocytes are arrested at the G2/M border of meiosis I until exposed to progesterone, which induces meiotic resumption through a non-genomic mechanism. One of the earliest events produced by this hormone is inhibition of the plasma membrane enzyme adenylyl cyclase (AC), with the concomitant drop in intracellular cAMP levels and reinitiation of the cell cycle. Recently Gsα and Gβγ have been shown to play an important role as positive regulators of Xenopus oocyte AC, maintaining the oocyte in the arrested state. However, a question that still remains unanswered, is how the activated state of Gsα and Gβγ is achieved in the immature oocyte, since no receptor or ligand have been found to be required. Here we provide evidence that xRic-8 can act in vitro and in vivo as a GEF for Gsα. Overexpression of xRic-8, through mRNA injection, greatly inhibits progesterone induced oocyte maturation and endogenous xRic-8 mRNA depletion, through siRNA microinjection, induces spontaneous oocyte maturation. These results suggest that xRic-8 is participating in the immature oocyte by keeping Gsα-Gβγ-AC signaling complex in an activated state and therefore maintaining G2 arrest. J. Cell. Physiol. 214: 673–680, 2008. © 2007 Wiley-Liss, Inc.

Published

2007

6. A Gβγ stimulated adenylyl cyclase is involved inxenopus laevisoocyte maturation

Author

Maríavictoria Hinrichs, Rodrigo A. Grandy, Juan Olate, Martin Montecino, Ximena Soto, Ximena Romo, and Leonardo Guzmán

Subjects

Gene isoform, medicine.medical_specialty, Physiology, G protein, fungi, Clinical Biochemistry, Xenopus, Oocyte activation, Cell Biology, Biology, Oocyte, biology.organism_classification, Cell biology, Adenylyl cyclase, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, chemistry, Internal medicine, medicine, Microinjection, Minigene

Abstract

Xenopus laevis oocyte maturation is induced by the steroid hormone progesterone through a nongenomic mechanism that implicates the inhibition of the effector system adenylyl cyclase (AC). Recently, it has been shown that the G protein betagamma heterodimer is involved in oocyte maturation arrest. Since AC is the proposed target for Gbetagamma action, we considered of importance to identify and characterize the Gbetagamma regulated AC isoform(s) that are expressed in the Xenopus oocyte. Through biochemical studies, we found that stage VI plasma membrane oocyte AC activity showed attributes of an AC2 isoform. Furthermore, exogenous Gbetagamma was capable to activate oocyte AC only in the presence of the activated form of Galphas (Galphas-GTPgammaS), which is in agreement with the Ggammabeta conditional activation reported for the mammalian AC2 and AC4 isotypes. In order to study the functional role of AC in oocyte maturation we cloned from a Xenopus oocyte cDNA library a gene encoding an AC with high identity to AC7 (xAC7). Based on this sequence, we constructed a minigene encoding the AC-Gbetagamma interacting region (xAC7pep) to block, within the oocyte, this interaction. We found that microinjection of the xAC7pep potentiated progesterone-induced maturation, as did the AC2 minigene. From these results we can conclude that a Gbetagamma-activated AC is playing an important role in Xenopus oocyte meiotic arrest in a Galphas-GTP dependent manner.

Published

2004

7. Human brain synembryn interacts with Gsα and Gqα and is translocated to the plasma membrane in response to isoproterenol and carbachol

Author

Martin Montecino, Juan Olate, Jose R. Naranjo, María Victoria Hinrichs, María de los Angeles García, Carla Klattenhoff, Britt Mellström, Leonardo Guzmán, Ximena Soto, and Ximena Romo

Subjects

Gs alpha subunit, Carbachol, Physiology, Effector, Clinical Biochemistry, Cell Biology, Neurotransmission, Biology, Cell biology, chemistry.chemical_compound, chemistry, Cell surface receptor, Heterotrimeric G protein, medicine, Neurotransmitter, Intracellular, medicine.drug

Abstract

Heterotrimeric G-proteins transduce signals from heptahelical transmembrane receptors to different effector systems, regulating diverse complex intracellular pathways and functions. In brain, facilitation of depolarization-induced neurotransmitter release for synaptic transmission is mediated by Gsalpha and Gqalpha. To identify effectors for Galpha-proteins, we performed a yeast two-hybrid screening of a human brain cDNA library, using the human Galphas protein as a bait. We identified a protein member of the synembryn family as one of the interacting proteins. Extending the study to other Galpha subunits, we found that Gqalpha also interacts with synembryn, and these interactions were confirmed by in vitro pull down studies and by in vivo confocal laser microscopy analysis. Furthermore, synembryn was shown to translocate to the plasma membrane in response to carbachol and isoproterenol. This study supports recent findings in C. elegans where, through genetic studies, synembryn was shown to act together with Gqalpha regulating neuronal transmitter release. Based on these observations, we propose that synembryn is playing a similar role in human neuronal cells.

Published

2003

8. Gαs levels regulateXenopus laevisoocyte maturation

Author

M. Victoria Hinrichs, Ximena Romo, Juan Olate, and Leonardo Guzmán

Subjects

medicine.medical_specialty, Gs alpha subunit, biology, G protein, Wild type, Xenopus, Alpha (ethology), Cell Biology, biology.organism_classification, Cell biology, Adenylyl cyclase, chemistry.chemical_compound, Endocrinology, chemistry, Internal medicine, Genetics, medicine, Receptor, Developmental Biology, G protein-coupled receptor

Abstract

Progesterone, produced by follicular cells, induces Xenopus laevis oocyte maturation through a very early event that inhibits the activity of the adenylyl cyclase effector system. The participation of a G-protein has been implicated, based on the fact that the inhibitory effect of the steroid is GTP-dependent, and it has been proposed that progesterone acts interfering with G(alpha)s function at the plasma membrane. Here we investigate whether the change in oocyte G(alpha)s levels affects the maturation process induced by progesterone. Overexpression of X. laevis wild type (wt) G(alpha)s and the constitutive activated G(alpha)s(QL) mutant, both blocked progesterone-induced maturation, G(alpha)s(QL) being much more effective than the wt protein. On the other hand, depletion of G(alpha)s, by the use of antisense oligonucleotides, caused spontaneous maturation measured as MAPK activation, indicating clearly that the presence of G(alpha)s is necessary to keep oocytes arrested. Overexpression of three different G-protein coupled receptors (GPCR), the beta2-adrenergic receptor and the m4 and m5 muscarinic receptors, all caused inhibition of MAPK activation induced by progesterone. These receptors, upon their activation with the respective ligands, might be inducing the release of G(beta)gamma from their respective G(alpha), which together with endogenous G(alpha)s-GTP, activate adenylyl cyclase. Our results indicate that G(alpha)s plays an important role in the maturation process and support previous findings of G(beta)gamma participation, suggesting the presence of a mechanism where a constitutively activated G(alpha)s subunit, together with the G(beta)gamma heterodimer, both maintain high levels of intracellular cAMP levels, blocking the G2/M transition.

Published

2002

9. S111N mutation in the helical domain of human Gsα reduces its GDP/GTP exchange rate

Author

Ximena Romo, Mónica Brito, María Victoria Hinrichs, Juan Olate, Leonardo Guzmán, and Ximena Soto

Subjects

Gs alpha subunit, GTP', Chemistry, GTPgammaS, Cell Biology, GTPase, Biochemistry, chemistry.chemical_compound, Protein structure, GTP-binding protein regulators, Mutant protein, Biophysics, Molecular Biology, G alpha subunit

Abstract

G-protein alpha subunits consist of two domains: a Ras-like domain also called GTPase domain (GTPaseD), structurally homologous to monomeric G-proteins, and a more divergent domain, unique to heterotrimeric G-proteins, called helical domain (HD). G-protein activation, requires the exchange of bound GDP for GTP, and since the guanine nucleotide is buried in a deep cleft between both domains, it has been postulated that activation may involve a conformational change that will allow the opening of this cleft. Therefore, it has been proposed, that interdomain interactions are playing an important role in regulating the nucleotide exchange rate of the alpha subunit. While constructing different Gs(alpha) quimeras, we identified a Gs(alpha) random mutant, which was very inefficient in stimulating adenylyl cyclase activity. The introduced mutation corresponded to the substitution of Ser(111) for Asn (S111N), located in the carboxi terminal end of helix A of the HD, a region neither involved in AC interaction nor in the interdomain interface. In order to characterize this mutant, we expressed it in bacteria, purified it by niquel-agarose chromatography, and studied its nucleotide exchange properties. We demonstrated that the recombinant S111N Gs(alpha) was functional since it was able to undergo the characteristic conformational change upon GTP binding, detected by the acquisition of a trypsin-resistant conformation. When the biochemical properties were determined, the mutant protein exhibited a reduced GDP dissociation kinetics and as a consequence a slower GTPgammaS binding rate that was responsible for a diminished adenylyl cyclase activation when GTPgammaS was used as activator. These data provide new evidence that involves the HD as a regulator of Gs(alpha) function, in this case the alphaA helix, which is not directly involved with the nucleotide binding site nor the interdomain interface.

Published

2002

10. The glucose transporter-2 (GLUT2) is a low affinity dehydroascorbic acid transporter

Author

Pablo Binder, Ximena Romo, Eduardo Peña, Lorena Mardones, Claudia Jaña, Felipe Zuñiga, Valeska Ormazabal, and Marilyn Vergara

Subjects

endocrine system, Biophysics, Xenopus, digestive system, Biochemistry, chemistry.chemical_compound, Xenopus laevis, Cell Line, Tumor, Animals, Molecular Biology, Glucose Transporter Type 2, biology, Vitamin C, Glucose transporter, Fructose, Transporter, Cell Biology, biology.organism_classification, Dehydroascorbic Acid, Rats, chemistry, biology.protein, Hepatocytes, Oocytes, GLUT2, GLUT1, Dehydroascorbic acid

Abstract

We studied the acquisition of dehydroascorbic acid by rat hepatocytes, H4IIE rat hepatoma cells and Xenopus laevis oocytes. Transport kinetics and competition and inhibition studies revealed that rat hepatocytes transport oxidized dehydroascorbic acid through a single functional component possessing the functional and kinetic properties expected for the glucose transporter GLUT2. On the other hand, rat hepatoma cells showed expression of at least two dehydroascorbic acid transporters with the expected functional and kinetic properties expected for GLUT1 and GLUT2. Expression studies of GLUT2 in X. laevis oocytes followed by transport kinetics and competition and inhibition studies revealed that GLUT2 is a low affinity dehydroascorbic transporter whose kinetic and functional properties match those observed for the endogenous GLUT2 transporter in rat hepatocytes and rat hepatoma cells. Therefore, GLUT2, a transporter known as a low affinity transporter of glucose and fructose and a high affinity transporter of glucosamine is also a low affinity dehydroascorbic acid transporter.

Published

2011

11. A Gbetagamma stimulated adenylyl cyclase is involved in Xenopus laevis oocyte maturation

Author

Leonardo, Guzmán, Ximena, Romo, Rodrigo, Grandy, Ximena, Soto, Martín, Montecino, Maríavictoria, Hinrichs, and Juan, Olate

Subjects

Cell Membrane, GTP-Binding Protein beta Subunits, Molecular Sequence Data, Gene Expression Regulation, Developmental, Cell Differentiation, Xenopus Proteins, GTP-Binding Protein alpha Subunits, Peptide Fragments, Xenopus laevis, Guanosine 5'-O-(3-Thiotriphosphate), GTP-Binding Protein gamma Subunits, Oocytes, Animals, Protein Isoforms, Female, Progesterone, Adenylyl Cyclases

Abstract

Xenopus laevis oocyte maturation is induced by the steroid hormone progesterone through a nongenomic mechanism that implicates the inhibition of the effector system adenylyl cyclase (AC). Recently, it has been shown that the G protein betagamma heterodimer is involved in oocyte maturation arrest. Since AC is the proposed target for Gbetagamma action, we considered of importance to identify and characterize the Gbetagamma regulated AC isoform(s) that are expressed in the Xenopus oocyte. Through biochemical studies, we found that stage VI plasma membrane oocyte AC activity showed attributes of an AC2 isoform. Furthermore, exogenous Gbetagamma was capable to activate oocyte AC only in the presence of the activated form of Galphas (Galphas-GTPgammaS), which is in agreement with the Ggammabeta conditional activation reported for the mammalian AC2 and AC4 isotypes. In order to study the functional role of AC in oocyte maturation we cloned from a Xenopus oocyte cDNA library a gene encoding an AC with high identity to AC7 (xAC7). Based on this sequence, we constructed a minigene encoding the AC-Gbetagamma interacting region (xAC7pep) to block, within the oocyte, this interaction. We found that microinjection of the xAC7pep potentiated progesterone-induced maturation, as did the AC2 minigene. From these results we can conclude that a Gbetagamma-activated AC is playing an important role in Xenopus oocyte meiotic arrest in a Galphas-GTP dependent manner.

Published

2004

12. Human brain synembryn interacts with Gsalpha and Gqalpha and is translocated to the plasma membrane in response to isoproterenol and carbachol

Author

Carla, Klattenhoff, Martín, Montecino, Ximena, Soto, Leonardo, Guzmán, Ximena, Romo, María Angeles, García, Britt, Mellstrom, José Ramón, Naranjo, María Victoria, Hinrichs, and Juan, Olate

Subjects

Neurons, Cell Membrane, Molecular Sequence Data, Isoproterenol, Brain, Nuclear Proteins, Cholinergic Agonists, Heterotrimeric GTP-Binding Proteins, PC12 Cells, Rats, Protein Transport, Cytosol, GTP-Binding Proteins, Two-Hybrid System Techniques, GTP-Binding Protein alpha Subunits, Gs, Animals, GTP-Binding Protein alpha Subunits, Gq-G11, Guanine Nucleotide Exchange Factors, Humans, Carbachol, Caenorhabditis elegans Proteins, Adrenergic alpha-Agonists

Abstract

Heterotrimeric G-proteins transduce signals from heptahelical transmembrane receptors to different effector systems, regulating diverse complex intracellular pathways and functions. In brain, facilitation of depolarization-induced neurotransmitter release for synaptic transmission is mediated by Gsalpha and Gqalpha. To identify effectors for Galpha-proteins, we performed a yeast two-hybrid screening of a human brain cDNA library, using the human Galphas protein as a bait. We identified a protein member of the synembryn family as one of the interacting proteins. Extending the study to other Galpha subunits, we found that Gqalpha also interacts with synembryn, and these interactions were confirmed by in vitro pull down studies and by in vivo confocal laser microscopy analysis. Furthermore, synembryn was shown to translocate to the plasma membrane in response to carbachol and isoproterenol. This study supports recent findings in C. elegans where, through genetic studies, synembryn was shown to act together with Gqalpha regulating neuronal transmitter release. Based on these observations, we propose that synembryn is playing a similar role in human neuronal cells.

Published

2003

13. G(alpha)s levels regulate Xenopus laevis oocyte maturation

Author

Ximena, Romo, M Victoria, Hinrichs, Leonardo, Guzmán, and Juan, Olate

Subjects

G2 Phase, MAP Kinase Signaling System, Egg Proteins, GTP-Binding Protein beta Subunits, Receptors, Cell Surface, Heterotrimeric GTP-Binding Proteins, Models, Biological, Receptors, Muscarinic, Second Messenger Systems, Oligodeoxyribonucleotides, Antisense, Xenopus laevis, Oogenesis, GTP-Binding Protein gamma Subunits, GTP-Binding Protein alpha Subunits, Gs, Animals, Female, Guanosine Triphosphate, Receptors, Adrenergic, beta-2, Progesterone, Adenylyl Cyclases

Abstract

Progesterone, produced by follicular cells, induces Xenopus laevis oocyte maturation through a very early event that inhibits the activity of the adenylyl cyclase effector system. The participation of a G-protein has been implicated, based on the fact that the inhibitory effect of the steroid is GTP-dependent, and it has been proposed that progesterone acts interfering with G(alpha)s function at the plasma membrane. Here we investigate whether the change in oocyte G(alpha)s levels affects the maturation process induced by progesterone. Overexpression of X. laevis wild type (wt) G(alpha)s and the constitutive activated G(alpha)s(QL) mutant, both blocked progesterone-induced maturation, G(alpha)s(QL) being much more effective than the wt protein. On the other hand, depletion of G(alpha)s, by the use of antisense oligonucleotides, caused spontaneous maturation measured as MAPK activation, indicating clearly that the presence of G(alpha)s is necessary to keep oocytes arrested. Overexpression of three different G-protein coupled receptors (GPCR), the beta2-adrenergic receptor and the m4 and m5 muscarinic receptors, all caused inhibition of MAPK activation induced by progesterone. These receptors, upon their activation with the respective ligands, might be inducing the release of G(beta)gamma from their respective G(alpha), which together with endogenous G(alpha)s-GTP, activate adenylyl cyclase. Our results indicate that G(alpha)s plays an important role in the maturation process and support previous findings of G(beta)gamma participation, suggesting the presence of a mechanism where a constitutively activated G(alpha)s subunit, together with the G(beta)gamma heterodimer, both maintain high levels of intracellular cAMP levels, blocking the G2/M transition.

Published

2002

14. S111N mutation in the helical domain of human Gs(alpha) reduces its GDP/GTP exchange rate

Author

Mónica, Brito, Leonardo, Guzmán, Ximena, Romo, Ximena, Soto, María Victoria, Hinrichs, and Juan, Olate

Subjects

Models, Molecular, Protein Conformation, Receptors, Cell Surface, Guanosine Diphosphate, Protein Structure, Secondary, Protein Structure, Tertiary, Fluorides, Amino Acid Substitution, GTP-Binding Proteins, Guanosine 5'-O-(3-Thiotriphosphate), GTP-Binding Protein alpha Subunits, Gs, Serine, Humans, Point Mutation, Trypsin, Guanosine Triphosphate, Asparagine, Aluminum Compounds, Adenylyl Cyclases

Abstract

G-protein alpha subunits consist of two domains: a Ras-like domain also called GTPase domain (GTPaseD), structurally homologous to monomeric G-proteins, and a more divergent domain, unique to heterotrimeric G-proteins, called helical domain (HD). G-protein activation, requires the exchange of bound GDP for GTP, and since the guanine nucleotide is buried in a deep cleft between both domains, it has been postulated that activation may involve a conformational change that will allow the opening of this cleft. Therefore, it has been proposed, that interdomain interactions are playing an important role in regulating the nucleotide exchange rate of the alpha subunit. While constructing different Gs(alpha) quimeras, we identified a Gs(alpha) random mutant, which was very inefficient in stimulating adenylyl cyclase activity. The introduced mutation corresponded to the substitution of Ser(111) for Asn (S111N), located in the carboxi terminal end of helix A of the HD, a region neither involved in AC interaction nor in the interdomain interface. In order to characterize this mutant, we expressed it in bacteria, purified it by niquel-agarose chromatography, and studied its nucleotide exchange properties. We demonstrated that the recombinant S111N Gs(alpha) was functional since it was able to undergo the characteristic conformational change upon GTP binding, detected by the acquisition of a trypsin-resistant conformation. When the biochemical properties were determined, the mutant protein exhibited a reduced GDP dissociation kinetics and as a consequence a slower GTPgammaS binding rate that was responsible for a diminished adenylyl cyclase activation when GTPgammaS was used as activator. These data provide new evidence that involves the HD as a regulator of Gs(alpha) function, in this case the alphaA helix, which is not directly involved with the nucleotide binding site nor the interdomain interface.

Published

2002

15. Antioxidant activity of Bios-p peptide analogue in HEK293T cells and three-dimensional structure prediction

Author

Manzano, Pamela Fernández, primary, Fernández, Ignacio Jofré, additional, Zambrano, Fabiola, additional, Gómez, Patricia Navarrete, additional, Troncoso, Magdalena Cuevas, additional, Marty, Ximena Romo, additional, Barrera, Andrés Ávila, additional, and Mejía, Fernando Romero, additional

Published

2013

16. A G? stimulated adenylyl cyclase is involved in xenopus laevis oocyte maturationData deposition: The sequence reported in this article has been deposited in the GenBank database (accession no. AY462195).

Author

Leonardo Guzmn, Ximena Romo, Rodrigo Grandy, Ximena Soto, Martn Montecino, Maravictoria Hinrichs, and Juan Olate

Subjects

*XENOPUS, *ADENYLATE cyclase, *CORPUS luteum, *G proteins

Abstract

Xenopus laevis oocyte maturation is induced by the steroid hormone progesterone through a nongenomic mechanism that implicates the inhibition of the effector system adenylyl cyclase (AC). Recently, it has been shown that the G protein ? heterodimer is involved in oocyte maturation arrest. Since AC is the proposed target for G? action, we considered of importance to identify and characterize the G? regulated AC isoform(s) that are expressed in the Xenopus oocyte. Through biochemical studies, we found that stage VI plasma membrane oocyte AC activity showed attributes of an AC2 isoform. Furthermore, exogenous G? was capable to activate oocyte AC only in the presence of the activated form of Gas (Gas-GTP?S), which is in agreement with the G? conditional activation reported for the mammalian AC2 and AC4 isotypes. In order to study the functional role of AC in oocyte maturation we cloned from a Xenopus oocyte cDNA library a gene encoding an AC with high identity to AC7 (xAC7). Based on this sequence, we constructed a minigene encoding the AC-G? interacting region (xAC7pep) to block, within the oocyte, this interaction. We found that microinjection of the xAC7pep potentiated progesterone-induced maturation, as did the AC2 minigene. From these results we can conclude that a G?-activated AC is playing an important role in Xenopus oocyte meiotic arrest in a Gas-GTP dependent manner. 2005 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

2005