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3. Growth Hormone-Releasing Hormone

Author

MALAGÓN, M.M., primary, VÁZQUEZ-MARTÍNEZ, R., additional, MARTÍNEZ-FUENTES, A.J., additional, GRACIA-NAVARRO, F., additional, and CASTAÑO, J.P., additional

Published
2006
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6. Proteasome Dysfunction Associated to Oxidative Stress and Proteotoxicity in Adipocytes Compromises Insulin Sensitivity in Human Obesity

Author

Díaz-Ruiz, A., Guzmán-Ruiz, R., Moreno, N. R., García-Rios, A., Delgado-Casado, N., Membrives, A., Túnez, I., El Bekay, R., Fernández-Real, J. M., Tovar Carro, Sulay, Diéguez González, Carlos, Tinahones, F. J., Vázquez-Martínez, R., López-Miranda, J., and Malagón, M

Subjects
Adult, Male, Obesity, Metabolically Benign, Proteasome Endopeptidase Complex, Palmitic Acid, Subcutaneous Fat, Endoplasmic Reticulum Stress, Disease Models, Animal, Mice, Oxidative Stress, Gene Expression Regulation, 3T3-L1 Cells, Adipocytes, Unfolded Protein Response, Animals, Humans, Female, Insulin Resistance, Omentum
Abstract

AIMS: Obesity is characterized by a low-grade systemic inflammatory state and adipose tissue (AT) dysfunction, which predispose individuals to the development of insulin resistance (IR) and metabolic disease. However, a subset of obese individuals, referred to as metabolically healthy obese (MHO) individuals, are protected from obesity-associated metabolic abnormalities. Here, we aim at identifying molecular factors and pathways in adipocytes that are responsible for the progression from the insulin-sensitive to the insulin-resistant, metabolically unhealthy obese (MUHO) phenotype. RESULTS: Proteomic analysis of paired samples of adipocytes from subcutaneous (SC) and omental (OM) human AT revealed that both types of cells are altered in the MUHO state. Specifically, the glutathione redox cycle and other antioxidant defense systems as well as the protein-folding machinery were dysregulated and endoplasmic reticulum stress was increased in adipocytes from IR subjects. Moreover, proteasome activity was also compromised in adipocytes of MUHO individuals, which was associated with enhanced accumulation of oxidized and ubiquitinated proteins in these cells. Proteasome activity was also impaired in adipocytes of diet-induced obese mice and in 3T3-L1 adipocytes exposed to palmitate. In line with these data, proteasome inhibition significantly impaired insulin signaling in 3T3-L1 adipocytes. INNOVATION: This study provides the first evidence of the occurrence of protein homeostasis deregulation in adipocytes in human obesity, which, together with oxidative damage, interferes with insulin signaling in these cells. CONCLUSION: Our results suggest that proteasomal dysfunction and impaired proteostasis in adipocytes, resulting from protein oxidation and/or misfolding, constitute major pathogenic mechanisms in the development of IR in obesity. IMIBIC/Universidad de Córdoba-SCAI (ProteoRed, PRB2-ISCIII) MINECO/FEDER Junta de Andalucía/FEDER CIBERobn(Instituto de Salud Carlos III)

Published
2015

9. The L-α-lysophosphatidylinositol/GPR55 system and its potential role in human obesity.

Author

Moreno-Navarrete JM, Catalán V, Whyte L, Díaz-Arteaga A, Vázquez-Martínez R, Rotellar F, Guzmán R, Gómez-Ambrosi J, Pulido MR, Russell WR, Imbernón M, Ross RA, Malagón MM, Dieguez C, Fernández-Real JM, Frühbeck G, Nogueiras R, Moreno-Navarrete, José María, Catalán, Victoria, and Whyte, Lauren

Abstract

GPR55 is a putative cannabinoid receptor, and l-α-lysophosphatidylinositol (LPI) is its only known endogenous ligand. We investigated 1) whether GPR55 is expressed in fat and liver; 2) the correlation of both GPR55 and LPI with several metabolic parameters; and 3) the actions of LPI on human adipocytes. We analyzed CB1, CB2, and GPR55 gene expression and circulating LPI levels in two independent cohorts of obese and lean subjects, with both normal or impaired glucose tolerance and type 2 diabetes. Ex vivo experiments were used to measure intracellular calcium and lipid accumulation. GPR55 levels were augmented in the adipose tissue of obese subjects and further so in obese patients with type 2 diabetes when compared with nonobese subjects. Visceral adipose tissue GPR55 correlated positively with weight, BMI, and percent fat mass, particularly in women. Hepatic GPR55 gene expression was similar in obese and type 2 diabetic subjects. Circulating LPI levels were increased in obese patients and correlated with fat percentage and BMI in women. LPI increased the expression of lipogenic genes in visceral adipose tissue explants and intracellular calcium in differentiated visceral adipocytes. These findings indicate that the LPI/GPR55 system is positively associated with obesity in humans. [ABSTRACT FROM AUTHOR]

Published
2012
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10. Actin polymerisation at the cytoplasmic face of eukaryotic nuclei

Author

David-Watine Brigitte, Delbarre Erwan, Vazquez-Martinez Rafael, Enninga Jost, Münter Sylvia, Nehrbass Ulf, and Shorte Spencer L

Subjects
Cytology, QH573-671
Abstract

Abstract Background There exists abundant molecular and ultra-structural evidence to suggest that cytoplasmic actin can physically interact with the nuclear envelope (NE) membrane system. However, this interaction has yet to be characterised in living interphase cells. Results Using a fluorescent conjugate of the actin binding drug cytochalasin D (CD-BODIPY) we provide evidence that polymerising actin accumulates in vicinity to the NE. In addition, both transiently expressed fluorescent actin and cytoplasmic micro-injection of fluorescent actin resulted in accumulation of actin at the NE-membrane. Consistent with the idea that the cytoplasmic phase of NE-membranes can support this novel pool of perinuclear actin polymerisation we show that isolated, intact, differentiated primary hepatocyte nuclei support actin polymerisation in vitro. Further this phenomenon was inhibited by treatments hindering steric access to outer-nuclear-membrane proteins (e.g. wheat germ agglutinin, anti-nesprin and anti-nucleoporin antibodies). Conclusion We conclude that actin polymerisation occurs around interphase nuclei of living cells at the cytoplasmic phase of NE-membranes.

Published
2006
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11. RT-PCR analysis of the expression of POMC and its processing enzyme PC1 in amphibian melanotropes

Author

Peinado, J.R., Cruz-García, D., Vázquez-Martínez, R., Anouar, Y., Tonon, M.C., Vaudry, H., Gracia-Navarro, F., Castaño, J.P., and Malagón, M.M.

Subjects
*GENE expression, *AMPHIBIANS, *PROOPIOMELANOCORTIN, *GENETIC regulation
Abstract

Abstract: The frog intermediate lobe comprises two functionally distinct cell subtypes, referred to as secretory and storage melanotropes, which differ in their ultrastructure, secretory, and synthetic rates, and display dissimilar responses to hypothalamic regulatory factors. All these differences make melanotrope subtypes an excellent model to analyze the expression and regulation of genes involved in the control and maintenance of the secretory state of endocrine cells. However, quantification of the expression levels of genes involved in the secretory process requires the characterization of a gene whose expression remains constant irrespective of the secretory state of the cells. In this study, we have cloned the glyceraldehyde-3-phosphate dehydrogenase (GAPDH) gene from frog pituitary and have evaluated its suitability as internal standard in gene expression studies in melanotropes. A semiquantitative RT-PCR system developed to this end revealed that secretory melanotropes and storage melanotropes possess similar expression levels of GAPDH, whereas, as expected, secretory melanotropes showed higher levels of POMC transcripts than storage cells. Furthermore, we found that the expression of the convertase PC1, an intracellular protease involved in POMC processing, parallels that of POMC, thus suggesting that the higher secretory rate of the POMC-derived peptide α-MSH exhibited by secretory melanotropes is supported by their higher PC1 expression levels. In addition, we have shown that both POMC and PC1 mRNAs are up-regulated by the hypothalamic factor TRH in melanotrope cell cultures. In contrast, the inhibitory factor NPY reduced the expression level of the convertase but did not modify that of POMC. Taken together, these results demonstrate that PC1 expression is regulated in melanotropes by both stimulatory (TRH) and inhibitory (NPY) hypothalamic signals, in a manner which essentially parallels that observed for the precursor POMC. [Copyright &y& Elsevier]

Published
2006
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12. Hypothalamic AMPK-ER Stress-JNK1 Axis Mediates the Central Actions of Thyroid Hormones on Energy Balance.

Author

Martínez-Sánchez N, Seoane-Collazo P, Contreras C, Varela L, Villarroya J, Rial-Pensado E, Buqué X, Aurrekoetxea I, Delgado TC, Vázquez-Martínez R, González-García I, Roa J, Whittle AJ, Gomez-Santos B, Velagapudi V, Tung YCL, Morgan DA, Voshol PJ, Martínez de Morentin PB, López-González T, Liñares-Pose L, Gonzalez F, Chatterjee K, Sobrino T, Medina-Gómez G, Davis RJ, Casals N, Orešič M, Coll AP, Vidal-Puig A, Mittag J, Tena-Sempere M, Malagón MM, Diéguez C, Martínez-Chantar ML, Aspichueta P, Rahmouni K, Nogueiras R, Sabio G, Villarroya F, and López M

Subjects
Adipose Tissue, Brown metabolism, Animals, Lipid Metabolism, Liver metabolism, Male, Mice, Inbred C57BL, Rats, Rats, Sprague-Dawley, Thermogenesis, Triiodothyronine metabolism, Energy Metabolism, Hypothalamus metabolism, Mitogen-Activated Protein Kinase 8 metabolism, Signal Transduction, Thyroid Hormones metabolism
Abstract

Thyroid hormones (THs) act in the brain to modulate energy balance. We show that central triiodothyronine (T3) regulates de novo lipogenesis in liver and lipid oxidation in brown adipose tissue (BAT) through the parasympathetic (PSNS) and sympathetic nervous system (SNS), respectively. Central T3 promotes hepatic lipogenesis with parallel stimulation of the thermogenic program in BAT. The action of T3 depends on AMP-activated protein kinase (AMPK)-induced regulation of two signaling pathways in the ventromedial nucleus of the hypothalamus (VMH): decreased ceramide-induced endoplasmic reticulum (ER) stress, which promotes BAT thermogenesis, and increased c-Jun N-terminal kinase (JNK) activation, which controls hepatic lipid metabolism. Of note, ablation of AMPKα1 in steroidogenic factor 1 (SF1) neurons of the VMH fully recapitulated the effect of central T3, pointing to this population in mediating the effect of central THs on metabolism. Overall, these findings uncover the underlying pathways through which central T3 modulates peripheral metabolism., (Copyright © 2017 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2017
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13. The cytoskeletal protein septin 11 is associated with human obesity and is involved in adipocyte lipid storage and metabolism.

Author

Moreno-Castellanos N, Rodríguez A, Rabanal-Ruiz Y, Fernández-Vega A, López-Miranda J, Vázquez-Martínez R, Frühbeck G, and Malagón MM

Subjects
Adult, Caveolae metabolism, Fatty Acid-Binding Proteins genetics, Fatty Acid-Binding Proteins metabolism, Female, Gene Silencing physiology, Humans, Immunoblotting, Immunohistochemistry, Insulin Resistance genetics, Insulin Resistance physiology, Lipid Metabolism genetics, Lipid Metabolism physiology, Male, Middle Aged, Obesity genetics, Real-Time Polymerase Chain Reaction, Septins genetics, Adipocytes metabolism, Obesity metabolism, Septins metabolism
Abstract

Aims/hypothesis: Septins are newly identified members of the cytoskeleton that have been proposed as biomarkers of a number of diseases. However, septins have not been characterised in adipose tissue and their relationship with obesity and insulin resistance remains unknown. Herein, we characterised a member of this family, septin 11 (SEPT11), in human adipose tissue and analysed its potential involvement in the regulation of adipocyte metabolism., Methods: Gene and protein expression levels of SEPT11 were analysed in human adipose tissue. SEPT11 distribution was evaluated by immunocytochemistry, electron microscopy and subcellular fractionation techniques. Glutathione S-transferase (GST) pull-down, immunoprecipitation and yeast two-hybrid screening were used to identify the SEPT11 interactome. Gene silencing was used to assess the role of SEPT11 in the regulation of insulin signalling and lipid metabolism in adipocytes., Results: We demonstrate the expression of SEPT11 in human adipocytes and its upregulation in obese individuals, with SEPT11 mRNA content positively correlating with variables of insulin resistance in subcutaneous adipose tissue. SEPT11 content was regulated by lipogenic, lipolytic and proinflammatory stimuli in human adipocytes. SEPT11 associated with caveolae in mature adipocytes and interacted with both caveolin-1 and the intracellular fatty acid chaperone, fatty acid binding protein 5 (FABP5). Lipid loading of adipocytes caused the association of the three proteins with the surface of lipid droplets. SEPT11 silencing impaired insulin signalling and insulin-induced lipid accumulation in adipocytes., Conclusions/interpretation: Our findings support a role for SEPT11 in lipid traffic and metabolism in adipocytes and open new avenues for research on the control of lipid storage in obesity and insulin resistance.

Published
2017
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14. The Effects of Bariatric Surgery-Induced Weight Loss on Adipose Tissue in Morbidly Obese Women Depends on the Initial Metabolic Status.

Author

Moreno-Castellanos N, Guzmán-Ruiz R, Cano DA, Madrazo-Atutxa A, Peinado JR, Pereira-Cunill JL, García-Luna PP, Morales-Conde S, Socas-Macias M, Vázquez-Martínez R, Leal-Cerro A, and Malagón MM

Subjects
Adult, Bariatric Surgery, Female, Humans, Obesity, Morbid metabolism, Women's Health, Biomarkers metabolism, Insulin Resistance, Metabolic Syndrome metabolism, Obesity, Morbid surgery, Subcutaneous Fat, Abdominal metabolism, Weight Loss
Abstract

Background: Adipose tissue (AT) dysfunction in obesity is commonly linked to insulin resistance and promotes the development of metabolic disease. Bariatric surgery (BS) represents an effective strategy to reduce weight and to improve metabolic health in morbidly obese subjects. However, the mechanisms and pathways that are modified in AT in response to BS are not fully understood, and few information is still available as to whether these may vary depending on the metabolic status of obese subjects., Methods: Abdominal subcutaneous adipose tissue (SAT) samples were obtained from morbidly obese women (n = 18) before and 13.3 ± 0.37 months after BS. Obese women were stratified into two groups: normoglycemic (NG; Glu < 100 mg/dl, HbA1c <5.7 %) or insulin resistant (IR; Glu 100-126 mg/dl, HbA1c 5.7-6.4 %) (n = 9/group). A multi-comparative proteomic analysis was employed to identify differentially regulated SAT proteins by BS and/or the degree of insulin sensitivity. Serum levels of metabolic, inflammatory, and anti-oxidant markers were also analyzed., Results: Before surgery, NG and IR subjects exhibited differences in AT proteins related to inflammation, metabolic processes, the cytoskeleton, and mitochondria. BS caused comparable weight reductions and improved glucose homeostasis in both groups. However, BS caused dissimilar changes in metabolic enzymes, inflammatory markers, cytoskeletal components, mitochondrial proteins, and angiogenesis regulators in NG and IR women., Conclusions: BS evokes significant molecular rearrangements indicative of improved AT function in morbidly obese women at either low or high metabolic risk, though selective adaptive changes in key cellular processes occur depending on the initial individual's metabolic status.

Published
2016
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15. Effects of glucagon-like peptide-1 on the differentiation and metabolism of human adipocytes.

Author

El Bekay R, Coín-Aragüez L, Fernández-García D, Oliva-Olivera W, Bernal-López R, Clemente-Postigo M, Delgado-Lista J, Diaz-Ruiz A, Guzman-Ruiz R, Vázquez-Martínez R, Lhamyani S, Roca-Rodríguez MM, Veledo SF, Vendrell J, Malagón MM, and Tinahones FJ

Subjects
3T3-L1 Cells, Adipocytes cytology, Adipocytes metabolism, Animals, Diabetes Mellitus, Type 2 complications, Diabetes Mellitus, Type 2 drug therapy, Exenatide, Gene Expression drug effects, Genetic Markers, Humans, Mice, Obesity, Morbid complications, Obesity, Morbid metabolism, Obesity, Morbid pathology, Peptides therapeutic use, Pilot Projects, Prospective Studies, Venoms therapeutic use, Adipocytes drug effects, Cell Differentiation drug effects, Glucagon-Like Peptide 1 pharmacology
Abstract

Background and Purpose: Glucagon-like peptide-1 (GLP-1) analogues improve glycaemic control in type 2 diabetic (T2D) patients and cause weight loss in obese subjects by as yet unknown mechanisms. We recently demonstrated that the GLP-1 receptor, which is present in adipocytes and the stromal vascular fraction of human adipose tissue (AT), is up-regulated in AT of insulin-resistant morbidly obese subjects compared with healthy lean subjects. The aim of this study was to explore the effects of in vitro and in vivo administration of GLP-1 and its analogues on AT and adipocyte functions from T2D morbidly obese subjects., Experimental Approach: We analysed the effects of GLP-1 on human AT and isolated adipocytes in vitro and the effects of GLP-1 mimetics on AT of morbidly obese T2D subjects in vivo., Key Results: GLP-1 down-regulated the expression of lipogenic genes when administered during in vitro differentiation of human adipocytes from morbidly obese patients. GLP-1 also decreased the expression of adipogenic/lipogenic genes in AT explants and mature adipocytes, while increasing that of lipolytic markers and adiponectin. In 3T3-L1 adipocytes, GLP-1 decreased free cytosolic Ca2+ concentration ([Ca2+]i). GLP-1-induced responses were only partially blocked by GLP-1 receptor antagonist exendin (9–39). Moreover, administration of exenatide or liraglutide reduced adipogenic and inflammatory marker mRNA in AT of T2D obese subjects., Conclusions and Implications: Our data suggest that the beneficial effects of GLP-1 are associated with changes in the adipogenic potential and ability of AT to expand, via activation of the canonical GLP-1 receptor and an additional, as yet unknown, receptor.

Published
2016
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16. Proteasome Dysfunction Associated to Oxidative Stress and Proteotoxicity in Adipocytes Compromises Insulin Sensitivity in Human Obesity.

Author

Díaz-Ruiz A, Guzmán-Ruiz R, Moreno NR, García-Rios A, Delgado-Casado N, Membrives A, Túnez I, El Bekay R, Fernández-Real JM, Tovar S, Diéguez C, Tinahones FJ, Vázquez-Martínez R, López-Miranda J, and Malagón MM

Subjects
3T3-L1 Cells, Adipocytes metabolism, Adult, Animals, Disease Models, Animal, Endoplasmic Reticulum Stress, Female, Gene Expression Regulation, Humans, Male, Mice, Obesity, Metabolically Benign metabolism, Obesity, Metabolically Benign pathology, Omentum cytology, Omentum metabolism, Omentum pathology, Palmitic Acid pharmacology, Proteomics methods, Subcutaneous Fat metabolism, Subcutaneous Fat pathology, Unfolded Protein Response, Adipocytes pathology, Insulin Resistance, Obesity, Metabolically Benign physiopathology, Oxidative Stress, Proteasome Endopeptidase Complex metabolism
Abstract

Aims: Obesity is characterized by a low-grade systemic inflammatory state and adipose tissue (AT) dysfunction, which predispose individuals to the development of insulin resistance (IR) and metabolic disease. However, a subset of obese individuals, referred to as metabolically healthy obese (MHO) individuals, are protected from obesity-associated metabolic abnormalities. Here, we aim at identifying molecular factors and pathways in adipocytes that are responsible for the progression from the insulin-sensitive to the insulin-resistant, metabolically unhealthy obese (MUHO) phenotype., Results: Proteomic analysis of paired samples of adipocytes from subcutaneous (SC) and omental (OM) human AT revealed that both types of cells are altered in the MUHO state. Specifically, the glutathione redox cycle and other antioxidant defense systems as well as the protein-folding machinery were dysregulated and endoplasmic reticulum stress was increased in adipocytes from IR subjects. Moreover, proteasome activity was also compromised in adipocytes of MUHO individuals, which was associated with enhanced accumulation of oxidized and ubiquitinated proteins in these cells. Proteasome activity was also impaired in adipocytes of diet-induced obese mice and in 3T3-L1 adipocytes exposed to palmitate. In line with these data, proteasome inhibition significantly impaired insulin signaling in 3T3-L1 adipocytes., Innovation: This study provides the first evidence of the occurrence of protein homeostasis deregulation in adipocytes in human obesity, which, together with oxidative damage, interferes with insulin signaling in these cells., Conclusion: Our results suggest that proteasomal dysfunction and impaired proteostasis in adipocytes, resulting from protein oxidation and/or misfolding, constitute major pathogenic mechanisms in the development of IR in obesity.

Published
2015
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17. Adipobiology for novel therapeutic approaches in metabolic syndrome.

Author

Malagón MM, Díaz-Ruiz A, Guzmán-Ruiz R, Jiménez-Gómez Y, Moreno NR, García-Navarro S, Vázquez-Martínez R, and Peinado JR

Subjects
Animals, Energy Metabolism physiology, Humans, Insulin Resistance physiology, Metabolic Syndrome epidemiology, Obesity blood, Obesity epidemiology, Obesity therapy, Adipokines blood, Adipose Tissue metabolism, Metabolic Syndrome blood, Metabolic Syndrome therapy
Abstract

Obesity is dramatically increasing virtually worldwide, which has been linked to the rising prevalence of metabolic syndrome. Excess fat accumulation causes severe alterations in adipose tissue function. Actually, adipose tissue is now recognized as a major endocrine and secretory organ that releases a wide variety of signaling molecules (hormones, growth factors, cytokines, chemokines, etc.), the adipokines, which play central roles in the regulation of energy metabolism and homeostasis, immunity and inflammation. In addition, adipose tissue is no longer regarded as a passive lipid storage site but as a highly dynamic energy depot which stores excess energy during periods of positive energy balance and mobilizes it in periods of nutrient deficiency in a tightly regulated manner. Altered lipid release and adipokine production and signaling, as occurs in obesity, are linked to insulin resistance and the associated comorbidities of metabolic syndrome (dyslipidemia, hypertension), which confer an increased risk for the development of type 2 diabetes and cardiovascular disease. Here we summarize current knowledge on adipose tissue and review the contribution of novel techniques and experimental approaches in adipobiology to the identification of novel biomarkers and potential targets for dietary or pharmacological intervention to prevent and treat adipose tissue-associated diseases.

Published
2013
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18. The long coiled-coil protein NECC2 is associated to caveolae and modulates NGF/TrkA signaling in PC12 cells [corrected].

Author

Díaz-Ruiz A, Rabanal-Ruiz Y, Trávez A, Gracia-Navarro F, Cruz-García D, Montero-Hadjadje M, Anouar Y, Gasman S, Vitale N, Vázquez-Martínez R, and Malagón MM

Subjects
Animals, Caveolin 1 genetics, Caveolin 1 metabolism, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, HEK293 Cells, Humans, Immunoblotting, Membrane Proteins genetics, Microscopy, Confocal, Mitogen-Activated Protein Kinase 1 metabolism, Mitogen-Activated Protein Kinase 3 metabolism, PC12 Cells, Phosphorylation drug effects, RNA Interference, Rats, Caveolae metabolism, Membrane Proteins metabolism, Nerve Growth Factor pharmacology, Receptor, trkA metabolism, Signal Transduction drug effects
Abstract

TrkA-mediated NGF signaling in PC12 cells has been shown to be compartimentalized in specialized microdomains of the plasma membrane, the caveolae, which are organized by scaffold proteins including the member of the caveolin family of proteins, caveolin-1. Here, we characterize the intracellular distribution as well as the biochemical and functional properties of the neuroendocrine long coiled-coil protein 2 (NECC2), a novel long coiled-coil protein selectively expressed in neuroendocrine tissues that contains a predicted caveolin-binding domain and displays structural characteristics of a scaffolding factor. NECC2 distributes in caveolae, wherein it colocalizes with the TrkA receptor, and behaves as a caveolae-associated protein in neuroendocrine PC12 cells. In addition, stimulation of PC12 cells with nerve growth factor (NGF) increased the expression and regulated the distribution of NECC2. Interestingly, knockdown as well as overexpression of NECC2 resulted in a reduction of NGF-induced phosphorylation of the TrkA downstream effector extracellular signal-regulated kinases 1 and 2 (ERK1/ERK2) but not of Akt. Altogether, our results identify NECC2 as a novel component of caveolae in PC12 cells and support the contribution of this protein in the maintenance of TrkA-mediated NGF signaling.

Published
2013
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19. Nutritional, hormonal, and depot-dependent regulation of the expression of the small GTPase Rab18 in rodent adipose tissue.

Author

Pulido MR, Rabanal-Ruiz Y, Almabouada F, Díaz-Ruiz A, Burrell MA, Vázquez MJ, Castaño JP, Kineman RD, Luque RM, Diéguez C, Vázquez-Martínez R, and Malagón MM

Subjects
Adipose Tissue metabolism, Animals, Base Sequence, Blotting, Western, DNA Primers, Female, Immunohistochemistry, Male, Mice, Mice, Inbred C57BL, Obesity enzymology, Obesity genetics, RNA, Messenger genetics, Rats, Rats, Inbred Lew, Rats, Sprague-Dawley, Real-Time Polymerase Chain Reaction, rab GTP-Binding Proteins genetics, Adipose Tissue enzymology, Diet, Hormones physiology, rab GTP-Binding Proteins metabolism
Abstract

There is increasing evidence that proteins associated with lipid droplets (LDs) play a key role in the coordination of lipid storage and mobilization in adipocytes. The small GTPase, RAB18, has been recently identified as a novel component of the protein coat of LDs and proposed to play a role in both β-adrenergic stimulation of lipolysis and insulin-induced lipogenesis in 3T3-L1 adipocytes. In order to better understand the role of Rab18 in the regulation of lipid metabolism in adipocytes, we evaluated the effects of age, fat location, metabolic status, and hormonal milieu on Rab18 expression in rodent white adipose tissue (WAT). Rab18 mRNA was undetectable at postnatal day 15 (P15), but reached adult levels by P45, in both male and female rats. In adult rats, Rab18 immunolocalized around LDs, as well as within the cytoplasm of mature adipocytes. A weak Rab18 signal was also detected in the stromal-vascular fraction of WAT. In mice, fasting significantly increased, though with a distinct time-course pattern, Rab18 mRNA and protein levels in visceral and subcutaneous WAT. The expression of Rab18 was also increased in visceral and subcutaneous WAT of obese mice (diet-induced, ob/ob, and New Zealand obese mice) compared with lean controls. Rab18 expression in rats was unaltered by castration, adrenalectomy, or GH deficiency but was increased by hypophysectomy, as well as hypothyroidism. When viewed together, our results suggest the participation of Rab18 in the regulation of lipid processing in adipose tissue under both normal and pathological conditions.

Published
2012
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20. Truncated variants of pig somatostatin receptor subtype 5 (sst5) act as dominant-negative modulators for sst2-mediated signaling.

Author

Durán-Prado M, Gahete MD, Delgado-Niebla E, Martínez-Fuentes AJ, Vázquez-Martínez R, García-Navarro S, Gracia-Navarro F, Malagon MM, Luque RM, and Castaño JP

Subjects
Alternative Splicing, Animals, CHO Cells, Cloning, Molecular, Cricetinae, Humans, Peptide Fragments, Protein Engineering, Protein Isoforms physiology, Swine, Tissue Distribution, Calcium Signaling physiology, Protein Structure, Tertiary physiology, Receptors, Somatostatin physiology, Signal Transduction physiology
Abstract

Somatostatin (SST) and its related peptide cortistatin (CORT) exert their multiple actions through binding to the SST receptor (sst) family, generally considered to comprise five G protein-coupled receptors with seven transmembrane domains (TMD), named sst1-sst5, plus a splice sst2B variant. However, we recently discovered that human and rodent sst5 gene expression also generates, through noncanonical alternative splicing, novel truncated albeit functional sst5 variants with less than seven TMD. Here, we cloned and characterized for the first time the porcine wild-type sst5 (psst5, full-length) and identified two novel truncated psst5 variants with six and three TMD, thus termed psst5TMD6 and psst5TMD3, respectively. In line with that observed in human and rodent truncated sst5 variants, psst5TMD6 and psst5TMD3 are functional (e.g., activate calcium signaling), selectively respond to SST and CORT, respectively, and exhibit specific tissue expression profiles that differ from full-length psst5 and often overlaps with psst2 expression. Moreover, fluorescence resonance energy transfer analysis shows that psst5 truncated variants physically interact with psst2, thereby altering their localization at the plasma membrane and specifically disrupting the cellular response to SST and/or CORT. These results represent the first characterization of a key porcine SST receptor, psst5, and, together with our previous results, provide strong evidence that alternative splicing-derived, truncated sst5 variants with distinct functional capacities exist in the mammalian lineage, where they can act as dominant-negative receptors, by interacting directly with long, seven TMD variants, potentially contributing to modulate normal and pathological SST and CORT signaling.

Published
2012
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21. Alcohol induces Golgi fragmentation in differentiated PC12 cells by deregulating Rab1-dependent ER-to-Golgi transport.

Author

Tomás M, Marín MP, Martínez-Alonso E, Esteban-Pretel G, Díaz-Ruiz A, Vázquez-Martínez R, Malagón MM, Renau-Piqueras J, and Martínez-Menárguez JA

Subjects
Animals, Golgi Matrix Proteins, Membrane Proteins metabolism, PC12 Cells, Protein Transport, Rats, Vesicular Transport Proteins metabolism, rab1 GTP-Binding Proteins metabolism, Cell Differentiation, Endoplasmic Reticulum metabolism, Ethanol pharmacology, Golgi Apparatus metabolism, rab1 GTP-Binding Proteins genetics
Abstract

In the present study, we analyze the effects of ethanol on the Golgi structure and membrane transport in differentiated PC12 cells, which are used as a model of neurons. Chronic exposure to moderate doses of ethanol induces Golgi fragmentation, a common characteristic of many neurodegenerative diseases. Alcohol impaired the lateral linking of stacks without causing microtubule damage. Extensive immunocytochemical and western blot analyses of representative Golgi proteins showed that few, but important, proteins are significantly affected. Thus, alcohol exposure induced a significant ER-to-Golgi transport delay, the retention of the GTPase Rab1 in the Golgi membranes and the accumulation of tethering factor p115 in the cytosol. These modifications would explain the observed fragmentation. The amount of p115 and the stacking protein GRASP65 increased in alcohol-treated cells, which might be a mechanism to reverse Golgi damage. Importantly, the overexpression of GTP-tagged Rab1 but not of a dominant-negative Rab1 mutant, restored the Golgi morphology, suggesting that this protein is the main target of alcohol. Taken together, our results support the view that alcohol and neurodegenerative diseases such as Parkinson have similar effects on intracellular trafficking and provide new clues on the neuropathology of alcoholism.

Published
2012
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22. The Golgi-associated long coiled-coil protein NECC1 participates in the control of the regulated secretory pathway in PC12 cells.

Author

Cruz-García D, Díaz-Ruiz A, Rabanal-Ruiz Y, Peinado JR, Gracia-Navarro F, Castaño JP, Montero-Hadjadje M, Tonon MC, Vaudry H, Anouar Y, Vázquez-Martínez R, and Malagón MM

Subjects
Animals, Biological Transport, Gene Silencing, Homeodomain Proteins genetics, Membrane Proteins genetics, Neuroendocrine Cells metabolism, PC12 Cells, Rats, Golgi Apparatus metabolism, Homeodomain Proteins metabolism, Membrane Proteins metabolism
Abstract

Golgi-associated long coiled-coil proteins, often referred to as golgins, are involved in the maintenance of the structural organization of the Golgi apparatus and the regulation of membrane traffic events occurring in this organelle. Little information is available on the contribution of golgins to Golgi function in cells specialized in secretion such as endocrine cells or neurons. In the present study, we characterize the intracellular distribution as well as the biochemical and functional properties of a novel long coiled-coil protein present in neuroendocrine tissues, NECC1 (neuroendocrine long coiled-coil protein 1). The present study shows that NECC1 is a peripheral membrane protein displaying high stability to detergent extraction, which distributes across the Golgi apparatus in neuroendocrine cells. In addition, NECC1 partially localizes to post-Golgi carriers containing secretory cargo in PC12 cells. Overexpression of NECC1 resulted in the formation of juxtanuclear aggregates together with a slight fragmentation of the Golgi and a decrease in K+-stimulated hormone release. In contrast, NECC1 silencing did not alter Golgi architecture, but enhanced K+-stimulated hormone secretion in PC12 cells. In all, the results of the present study identify NECC1 as a novel component of the Golgi matrix and support a role for this protein as a negative modulator of the regulated trafficking of secretory cargo in neuroendocrine cells.

Published
2012
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23. Revisiting the regulated secretory pathway: from frogs to human.

Author

Vázquez-Martínez R, Díaz-Ruiz A, Almabouada F, Rabanal-Ruiz Y, Gracia-Navarro F, and Malagón MM

Subjects
Animals, Anura, Endoplasmic Reticulum physiology, Golgi Apparatus physiology, Humans, Secretory Vesicles physiology, Endocrine System physiology, Neuroendocrine Cells physiology, Secretory Pathway physiology
Abstract

The regulated secretory pathway is a hallmark of endocrine and neuroendocrine cells. This process comprises different sequential steps, including ER-associated protein synthesis, ER-to-Golgi protein transport, Golgi-associated posttranslational modification, sorting and packing of secretory proteins into carrier granules, cytoskeleton-based granule transport towards the plasma membrane and tethering, docking and fusion of granules with specialized releasing zones in the plasma membrane. Each one of these steps is tightly regulated by a large number of factors that function in a spatially and temporarily coordinated fashion. During the past three decades, much effort has been devoted to characterize the precise role of the yet-known proteins participating in the different steps of this process and to identify new regulatory factors in order to obtain a unifying picture of the secretory pathway. In spite of this and given the enormous complexity of the process, certain steps are not fully understood yet and many players remain to be identified. In this review, we offer a summary of the current knowledge on the main molecular mechanisms that govern and ensure the correct release of secretory proteins. In addition, we have integrated the advance on the field made possible by studies carried out in non-mammalian vertebrates, which, although not very numerous, have substantially contributed to acquire a mechanistic understanding of the regulated secretory pathway., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2012
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24. Proteomic profiling of adipose tissue from Zmpste24-/- mice, a model of lipodystrophy and premature aging, reveals major changes in mitochondrial function and vimentin processing.

Author

Peinado JR, Quirós PM, Pulido MR, Mariño G, Martínez-Chantar ML, Vázquez-Martínez R, Freije JM, López-Otín C, and Malagón MM

Subjects
Aging, Premature genetics, Animals, Biomarkers blood, Blood Glucose metabolism, Gene Expression Regulation, HMGB1 Protein genetics, HMGB1 Protein metabolism, Intra-Abdominal Fat metabolism, Intra-Abdominal Fat pathology, Lamin Type A, Lipid Metabolism, Lipids blood, Lipodystrophy genetics, Male, Metabolome, Mice, Mice, Knockout, Mitochondria enzymology, Nuclear Proteins metabolism, Oxidation-Reduction, Phosphoproteins metabolism, Protein Interaction Maps, Protein Precursors metabolism, Proteome genetics, Aging, Premature metabolism, Lipodystrophy metabolism, Membrane Proteins genetics, Metalloendopeptidases genetics, Mitochondria metabolism, Proteome metabolism, Vimentin metabolism
Abstract

Lipodystrophy is a major disease involving severe alterations of adipose tissue distribution and metabolism. Mutations in genes encoding the nuclear envelope protein lamin A or its processing enzyme, the metalloproteinase Zmpste24, cause diverse human progeroid syndromes that are commonly characterized by a selective loss of adipose tissue. Similarly to humans, mice deficient in Zmpste24 accumulate prelamin A and display phenotypic features of accelerated aging, including lipodystrophy. Herein, we report the proteome and phosphoproteome of adipose tissue as well as serum metabolome in lipodystrophy by using Zmpste24(-/-) mice as experimental model. We show that Zmpste24 deficiency enhanced lipolysis, fatty acid biogenesis and β-oxidation as well as decreased fatty acid re-esterification, thus pointing to an increased partitioning of fatty acid toward β-oxidation and away from storage that likely underlies the observed size reduction of Zmpste24-null adipocytes. Besides the mitochondrial proteins related to lipid metabolism, other protein networks related to mitochondrial function, including those involved in tricarboxylic acid cycle and oxidative phosphorylation, were up-regulated in Zmpste24(-/-) mice. These results, together with the observation of an increased mitochondrial response to oxidative stress, support the relationship between defective prelamin A processing and mitochondrial dysfunction and highlight the relevance of oxidative damage in lipoatrophy and aging. We also show that absence of Zmpste24 profoundly alters the processing of the cytoskeletal protein vimentin and identify a novel protein dysregulated in lipodystrophy, High-Mobility Group Box-1 Protein. Finally, we found several lipid derivates with important roles in energy balance, such as Lysophosphatidylcholine or 2-arachidonoylglycerol, to be dysregulated in Zmpste24(-/-) serum. Together, our findings in Zmpste24(-/-) mice may be useful to unveil the mechanisms underlying adipose tissue dysfunction and its overall contribution to body homeostasis in progeria and other lipodystrophy syndromes as well as to develop novel strategies to prevent or ameliorate these diseases.

Published
2011
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25. Expression of functional KISS1 and KISS1R system is altered in human pituitary adenomas: evidence for apoptotic action of kisspeptin-10.

Author

Martínez-Fuentes AJ, Molina M, Vázquez-Martínez R, Gahete MD, Jiménez-Reina L, Moreno-Fernández J, Benito-López P, Quintero A, de la Riva A, Diéguez C, Soto A, Leal-Cerro A, Resmini E, Webb SM, Zatelli MC, degli Uberti EC, Malagón MM, Luque RM, and Castaño JP

Subjects
Calcium metabolism, Cells, Cultured, Fluorescent Antibody Technique, Humans, In Vitro Techniques, Kisspeptins, Pituitary Gland metabolism, Pituitary Gland pathology, Pituitary Neoplasms pathology, Receptors, G-Protein-Coupled genetics, Receptors, Kisspeptin-1, Reverse Transcriptase Polymerase Chain Reaction, Temperature, Tumor Suppressor Proteins genetics, Apoptosis genetics, Apoptosis physiology, Gene Expression Regulation, Neoplastic, Pituitary Neoplasms metabolism, Pituitary Neoplasms physiopathology, Receptors, G-Protein-Coupled metabolism, Tumor Suppressor Proteins metabolism
Abstract

Context: KISS1 was originally identified as a metastasis-suppressor gene able to inhibit tumor progression. KISS1 gene products, the kisspeptins, bind to a G-protein-coupled receptor (KISS1R, formerly GPR54), which is highly expressed in placenta, pituitary, and pancreas, whereas KISS1 mRNA is mainly expressed in placenta, hypothalamus, striatum, and pituitary., Objective and Design: KISS1/KISS1R pituitary expression profile, coupled to their anti-tumoral capacities, led us to hypothesize that this system may be involved in the biology of pituitary tumors. To explore this notion, expression levels of KISS1R and KISS1 were evaluated in normal and adenomatous pituitaries. Additionally, functionality of this system was assessed by treating dispersed pituitary adenoma cells in primary culture with kisspeptin-10 and evaluating intracellular calcium kinetics and apoptotic rate., Results: Both KISS1 and KISS1R were expressed in normal pituitary, whereas this simultaneous expression was frequently lost in pituitary tumors, where diverse patterns of KISS1/KISS1R expression were observed that differed among distinct types of pituitary adenomas. Measurement of calcium kinetics revealed that kisspeptin-10 elicits a remarkable increase in [Ca(2+)](i) in individual cells from four out of the five GH-producing adenomas studied, whereas cells derived from non-functioning pituitary adenomas (NFPA, n=45) did not respond. In contrast, kisspeptin-10 treatment increased the apoptotic rate in cells derived from both GH-producing and NFPA., Conclusions: These results provide primary evidence that KISS1 and KISS1R expression can be differentially lost in pituitary tumor subtypes, where this system can exert functional, proapoptotic actions, and thereby offer novel insights to investigate the biology and therapeutic options to treat these tumors.

Published
2011
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26. Rab proteins and the secretory pathway: the case of rab18 in neuroendocrine cells.

Author

Vázquez-Martínez R and Malagón MM

Abstract

The secretory pathway is a process characteristic of cells specialized in secretion such as endocrine cells and neurons. It consists of different stages that are dependent on specific transport of proteins in vesicular-tubular carriers. Biochemical analyses have unveiled a number of protein families that confer identity to carrier vesicles and specificity to their transport. Among them is the family of Rab proteins, Ras-like small GTPases that anchor to the surface of transport vesicles and participate in vesicle formation from the donor compartment, transport along cytoskeletal tracks, and docking and fusion with the acceptor compartment. All of these functions are accomplished through the recruitment of effector proteins, such as sorting adaptors, tethering factors, kinases, phosphatases, and motors. The numerous Rab proteins have distinct subcellular distributions throughout the endomembrane system, which ensures efficient cargo transfer. Rab proteins act as molecular switches that alternate between a cytosolic GDP-bound, inactive form and a membrane-associated GTP-bound, active conformation. Cycling between inactive and active states is a highly regulated process that enables Rabs to confer spatio-temporal precision to the different stages through which a vesicle passes during its lifespan. This review focuses on our current knowledge on Rab functioning, from their structural features to the multiple regulatory proteins and effectors that control Rab activity and translate Rab function. Furthermore, we also summarize the information available on a particular Rab protein, Rab18, which has been linked to the control of secretory granule traffic in neuroendocrine cells.

Published
2011
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27. Rab18 dynamics in adipocytes in relation to lipogenesis, lipolysis and obesity.

Author

Pulido MR, Diaz-Ruiz A, Jiménez-Gómez Y, Garcia-Navarro S, Gracia-Navarro F, Tinahones F, López-Miranda J, Frühbeck G, Vázquez-Martínez R, and Malagón MM

Subjects
3T3-L1 Cells, Adipocytes cytology, Adipocytes drug effects, Adiponectin metabolism, Animals, Blotting, Western, Cells, Cultured, Endoplasmic Reticulum drug effects, Endoplasmic Reticulum metabolism, Female, Humans, Hypoglycemic Agents pharmacology, Immunoenzyme Techniques, Insulin pharmacology, Lipid Metabolism, Male, Mice, RNA, Messenger genetics, Reverse Transcriptase Polymerase Chain Reaction, Adipocytes metabolism, Lipogenesis, Lipolysis, Obesity physiopathology, rab GTP-Binding Proteins physiology
Abstract

Lipid droplets (LDs) are organelles that coordinate lipid storage and mobilization, both processes being especially important in cells specialized in managing fat, the adipocytes. Proteomic analyses of LDs have consistently identified the small GTPase Rab18 as a component of the LD coat. However, the specific contribution of Rab18 to adipocyte function remains to be elucidated. Herein, we have analyzed Rab18 expression, intracellular localization and function in relation to the metabolic status of adipocytes. We show that Rab18 production increases during adipogenic differentiation of 3T3-L1 cells. In addition, our data show that insulin induces, via phosphatidylinositol 3-kinase (PI3K), the recruitment of Rab18 to the surface of LDs. Furthermore, Rab18 overexpression increased basal lipogenesis and Rab18 silencing impaired the lipogenic response to insulin, thereby suggesting that this GTPase promotes fat accumulation in adipocytes. On the other hand, studies of the β-adrenergic receptor agonist isoproterenol confirmed and extended previous evidence for the participation of Rab18 in lipolysis. Together, our data support the view that Rab18 is a common mediator of lipolysis and lipogenesis and suggests that the endoplasmic reticulum (ER) is the link that enables Rab18 action on these two processes. Finally, we describe, for the first time, the presence of Rab18 in human adipose tissue, wherein the expression of this GTPase exhibits sex- and depot-specific differences and is correlated to obesity. Taken together, these findings indicate that Rab18 is involved in insulin-mediated lipogenesis, as well as in β-adrenergic-induced lipolysis, likely facilitating interaction of LDs with ER membranes and the exchange of lipids between these compartments. A role for Rab18 in the regulation of adipocyte biology under both normal and pathological conditions is proposed.

Published
2011
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28. Resistin regulates pituitary somatotrope cell function through the activation of multiple signaling pathways.

Author

Rodríguez-Pacheco F, Vázquez-Martínez R, Martínez-Fuentes AJ, Pulido MR, Gahete MD, Vaudry H, Gracia-Navarro F, Diéguez C, Castaño JP, and Malagón MM

Subjects
Adenylyl Cyclases metabolism, Animals, Calcium metabolism, Cells, Cultured, Cyclic AMP metabolism, Cyclic AMP-Dependent Protein Kinases metabolism, Male, Phosphatidylinositol 3-Kinases metabolism, Phospholipase C beta metabolism, Rats, Rats, Sprague-Dawley, Signal Transduction, Growth Hormone metabolism, Receptors, Ghrelin metabolism, Receptors, Neuropeptide metabolism, Receptors, Pituitary Hormone-Regulating Hormone metabolism, Resistin metabolism, Somatotrophs metabolism
Abstract

The adipokine resistin is an insulin-antagonizing factor that also plays a regulatory role in inflammation, immunity, food intake, and gonadal function. Although adipose tissue is the primary source of resistin, it is also expressed in other tissues and organs, including the pituitary. However, there is no information on whether resistin, as described previously for other adipokines such as leptin and adiponectin, could regulate this gland. Likewise, the molecular basis of resistin actions remains largely unexplored. Here we show that administration of resistin to dispersed rat anterior pituitary cells increased GH release in both the short (4 h) and long (24 h) term, decreased mRNA levels of the receptor of the somatotrope regulator ghrelin, and increased free cytosolic Ca(2+) concentration in single somatotropes. By means of a pharmacological approach, we found that the stimulatory action of resistin occurs through a Gs protein-dependent mechanism and that the adenylate cyclase/cAMP/protein kinase A pathway, the phosphatidylinositol 3-kinase/Akt pathway, protein kinase C, and extracellular Ca(2+) entry through L-type voltage-sensitive Ca(2+) channels are essential players in mediating the effects of resistin on somatotropes. Taken together, our results demonstrate for the first time a regulatory role for resistin on somatotrope function and provide novel insights on the intracellular mechanisms activated by this protein.

Published
2009
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29. Are somatostatin and cortistatin two siblings in regulating endocrine secretions? In vitro work ahead.

Author

Gahete MD, Durán-Prado M, Luque RM, Martínez-Fuentes AJ, Vázquez-Martínez R, Malagón MM, and Castaño JP

Subjects
Animals, Corticotrophs metabolism, Gonadotrophs metabolism, Growth Hormone metabolism, Humans, Lactotrophs metabolism, Organ Specificity, Pancreas metabolism, Pituitary Neoplasms metabolism, Prolactin metabolism, Receptors, Somatostatin metabolism, Thyroid Gland metabolism, Thyrotrophs metabolism, Neuropeptides physiology, Receptors, Neuropeptide metabolism, Somatostatin physiology
Abstract

Somatostatin (SRIF) and cortistatin (CST) are two cyclic peptides sharing remarkable structural, pharmacological and functional similarities. Both peptides bind all somatostatin receptors subtypes (sst1-5) with comparable affinities, which may explain the considerable similitude between their actions, particularly on endocrine targets. However, the expression patterns of both peptides do not overlap in human tissues, and they are regulated by different stimuli, suggesting that SRIF and CST can exert unique roles. In fact, CST can bind other receptors, different to ssts (e.g. ghrelin receptor, GHS-R and the MrgX2 receptor), which may be involved in those differential actions. In this review, we have summarized the limited knowledge gathered so far regarding the in vitro actions exerted by CST in different endocrine systems under normal and pathophysiological conditions, and have compared them with the well established functions known for SRIF on these systems. Available data suggests that CST substantially reproduces, but not fully mimics the "in vitro" effects of SRIF on pituitary secretions of human and animal models. Conversely, the functions of CST in the majority of peripheral endocrine (and non-endocrine) tissues are still unknown. Notwithstanding this, the differential tissue expression pattern of SRIF, CST and their receptors suggests that CST may act as a mere natural SRIF analogue in a number of tissues but in some endocrine tissues it may play a predominant, unique regulatory role with potential pathophysiological relevance. The challenge is now to find the genuine differences between these seemingly identical endocrine siblings.

Published
2008
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30. Porcine somatostatin receptor 2 displays typical pharmacological sst2 features but unique dynamics of homodimerization and internalization.

Author

Durán-Prado M, Bucharles C, Gonzalez BJ, Vázquez-Martínez R, Martínez-Fuentes AJ, García-Navarro S, Rhodes SJ, Vaudry H, Malagón MM, and Castaño JP

Subjects
Animals, Antineoplastic Agents, Hormonal pharmacology, CHO Cells, Calcium metabolism, Cloning, Molecular, Cricetinae, Cricetulus, Cyclic AMP metabolism, Dimerization, Endocytosis physiology, Female, Fluorescence Resonance Energy Transfer, Hormone Antagonists pharmacology, Neuropeptides pharmacology, Octreotide pharmacology, Peptides, Cyclic pharmacology, Radioligand Assay, Receptors, Somatostatin agonists, Receptors, Somatostatin genetics, Somatostatin analogs & derivatives, Somatostatin metabolism, Somatostatin pharmacology, Sus scrofa, Pituitary Gland cytology, Pituitary Gland physiology, Receptors, Somatostatin chemistry, Receptors, Somatostatin metabolism
Abstract

Somatostatin (SRIF) exerts its multiple actions, including inhibition of GH secretion and of tumoral growth, through a family of five receptor subtypes (sst1-sst5). We recently reported that an sst2-selective agonist markedly decreases GH release from pig somatotropes, suggesting important roles for this scarcely explored receptor, psst2. Here, functional expression of psst2 in Chinese hamster ovary-K1 and human embryonic kidney-293-AD cell lines was employed to determine its pharmacological features and functional ability to reduce cAMP, and to examine its homodimerization and internalization dynamics in real time in single living cells. Results show that psst2 is a high-affinity receptor (dissociation constant = 0.27 nM) displaying a typical sst2 profile (nM affinity for SRIF-14> or =SRIF-28>cortistatin>MK678>octreotide) and high selectivity (EC(50) = 1.1 nM) for the sst2 agonist l-779,976, but millimolar or undetectable affinity to other sst-specific agonists (sst3>sst1>sst5>>>sst4). Accordingly, SRIF dose-dependently inhibited forskolin-stimulated cAMP with high potency (EC(50) = 6.55 pm) and modest efficacy (maximum 29.1%) via psst2. Cotransfection of human embryonic kidney-293 and Chinese hamster ovary-K1 cells with two receptor constructs modified with distinct fluorescent tags (psst2-YFP/psst2-CFP) enabled fluorescence resonance energy transfer measurement of physical interaction between psst2 receptors and also receptor internalization in single living cells. This revealed that under basal conditions, psst2 forms constitutive homodimers/homomultimers, which dissociate immediately (11 sec) upon SRIF binding. Interestingly, contrary to human sst2, psst2 rapidly reassociates (110.5 sec) during a subsequent process that temporally overlaps with receptor internalization (half-maximal = 95.1 sec). Therefore, psst2 is a potent inhibitory receptor displaying a unique set of interrelated dynamic features of agonist-dependent dimerization, dissociation, internalization, and reassociation, a cascade of events that might be critical for receptor function.

Published
2007
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31. Ghrelin is produced by and directly activates corticotrope cells from adrenocorticotropin-secreting adenomas.

Author

Martínez-Fuentes AJ, Moreno-Fernández J, Vázquez-Martínez R, Durán-Prado M, de la Riva A, Tena-Sempere M, Diéguez C, Jiménez-Reina L, Webb SM, Pumar A, Leal-Cerro A, Benito-López P, Malagón MM, and Castaño JP

Subjects
Adult, Calcium metabolism, Female, Fluorescent Antibody Technique, Ghrelin, Humans, Immunohistochemistry, Pro-Opiomelanocortin genetics, RNA, Messenger analysis, Receptors, G-Protein-Coupled genetics, Receptors, Ghrelin, Adenoma metabolism, Adrenocorticotropic Hormone metabolism, Peptide Hormones physiology, Pituitary Neoplasms metabolism
Abstract

Context: In Cushing's disease, ACTH hypersecretion by pituitary corticotrope adenoma cells and resulting hypercortisolism is accompanied by a severely blunted GH secretory response. Interestingly, in Cushing's disease, ghrelin markedly increases plasma ACTH, whereas its stimulatory action on GH secretion is reduced. Although the reported expression of ghrelin receptors (GHS-R) in corticotrope tumors offers a potential mechanism for ghrelin-induced ACTH hypersecretion, studies on the direct effects of synthetic GH secretagogues on corticotropinoma cells offered contradictory results., Objective and Design: To evaluate the direct action of ghrelin on corticotropinoma cells from two patients with Cushing's disease, we measured its effect on free cytosolic calcium concentration ([Ca(2+)](i)). Additionally, expression of GHS-R and its ligand ghrelin was examined in these cells and in five additional corticotropinomas., Results: Ghrelin (10(-6) m) induced a marked [Ca(2+)](i) increase in 89.5% (case 1; n = 19 cells) and 85% (case 2; n = 13 cells) of corticotropinoma cells. Moreover, RT-PCR showed that expression of GHS-R isoforms is accompanied by that of ghrelin in all seven corticotrope adenomas examined. Importantly, double immunogold electron microscopy revealed that ghrelin is costored within ACTH secretory vesicles in densely granulated adenomatous corticotropes., Conclusions: These results constitute the first demonstration that ghrelin acts directly on corticotrope tumor cells derived from patients with Cushing's disease. The presence of ghrelin and GHS-R suggests that pituitary ghrelin may play an autocrine/paracrine role in regulating ACTH release in Cushing's disease. Our findings provide a plausible cellular basis for the exaggerated ACTH response to ghrelin in Cushing's disease and suggest novel research strategies to develop medical treatments for this disease.

Published
2006
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32. Amphibian melanotrophs as a model to analyze the secretory plasticity of endocrine cells.

Author

Peinado JR, Castaño JP, Vázquez-Martínez R, Anouar Y, Tonon MC, Vaudry H, Gracia-Navarro F, and Malagón MM

Subjects
Animals, Chromogranins, Proteins genetics, Proteins metabolism, Secretory Vesicles metabolism, alpha-MSH genetics, Pituitary Gland metabolism, Ranidae physiology, alpha-MSH metabolism
Abstract

Precise regulation of hormone secretion from endocrine cells is of critical importance for the maintenance of animal homeostasis. This is partly enabled through the ability of endocrine cells to adapt dynamically their secretory activity to the physiological demands through complex functional changes. Such a secretory plasticity results from coordinated adaptive changes at several levels of cell function, including hormonal gene expression and biosynthesis, hormone processing, trafficking, storage and release, expression of membrane receptors, activation of signaling pathways, etc. Integration of all these processes at the single cell level defines the secretory status of each of the individual cells producing a given hormone, whose coordinated activity ultimately determines the response of the whole endocrine gland. This short review summarizes our most recent findings on the cellular and molecular elements and mechanisms underlying the secretory plasticity of endocrine cells, obtained from the analysis of distinct aspects of melanotroph cell function.

Published
2002
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33. Amphibian melanotrope subpopulations respond differentially to hypothalamic secreto-inhibitors.

Author

Vázquez-Martínez R, Malagón MM, Castaño JP, Tonon MC, Vaudry H, and Gracia-Navarro F

Subjects
Animals, Calcium metabolism, Cytosol drug effects, Cytosol metabolism, Hypothalamus metabolism, Immunohistochemistry, Male, Neuropeptide Y pharmacology, Potassium Chloride pharmacology, Pro-Opiomelanocortin genetics, RNA, Messenger metabolism, gamma-Aminobutyric Acid pharmacology, Hypothalamus drug effects, Pituitary Gland drug effects, Pituitary Gland metabolism, Rana ridibunda, alpha-MSH metabolism
Abstract

The melanotrope population of the frog intermediate lobe consists of two subtypes of cells, referred to as high-(HD) and low-density (LD) melanotrope cells, which differ markedly in their basal morphofunctional features as well as their in vitro response to hypothalamic factors, such as the stimulator thyrotropin-releasing hormone (TRH) and the inhibitor dopamine. In this study, we have investigated whether other major hypothalamic regulators of the release of alpha-melanocyte-stimulating hormone (alpha-MSH), such as gamma-aminobutyric acid (GABA) and neuropeptide Y (NPY), also differentially regulate frog melanotrope subpopulations. Our results show that in LD cells, both factors markedly inhibited proopiomelanocortin (POMC) mRNA accumulation and alpha-MSH secretion. In contrast, the secretory and biosynthetic activity of HD cells was not modified by GABA. NPY inhibited POMC transcript accumulation and tended to reduce alpha-MSH secretion in HD cells, yet these effects were less pronounced than those evoked in LD cells. In addition, GABA and NPY inhibited the KCl-induced rise in cytosolic free calcium levels in both subpopulations. Taken together, these results further indicate that frog melanotrope subpopulations are differentially regulated by the hypothalamus and strongly suggest that the intensity of such regulation is directly related to the activity of the cell subset. Thus, the LD subpopulation represents a highly responsive cell subset which is regulated by multiple neuroendocrine factors (TRH, dopamine, GABA and NPY), whereas the hormone storage HD subpopulation shows a moderate response to single stimulatory (TRH) and inhibitory (NPY) inputs.

Published
2001
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34. Differential effects of dopamine on two frog melanotrope cell subpopulations.

Author

González de Aguilar JL, Malagón MM, Vázquez-Martínez RM, Martínez-Fuentes AJ, Tonon MC, Vaudry H, and Gracia-Navarro F

Subjects
Acetylation, Animals, Calcium metabolism, Cells, Cultured, Centrifugation, Density Gradient, Chromatography, High Pressure Liquid, In Situ Hybridization, Male, Pituitary Gland cytology, Pituitary Gland metabolism, Pro-Opiomelanocortin biosynthesis, Pro-Opiomelanocortin metabolism, RNA, Messenger metabolism, Radioimmunoassay, Rana ridibunda, Dopamine pharmacology, Pituitary Gland drug effects, Pro-Opiomelanocortin genetics, alpha-MSH metabolism
Abstract

The frog intermediate lobe consists of a single endocrine cell type, the melanotrope cells, which are under the tonic inhibitory control of dopamine. Separation of dispersed pars intermedia cells in a Percoll density gradient has revealed the existence of two melanotrope cell subpopulations, referred to as high-density (HD) and low-density (LD) cells. The aim of the present study was to investigate the effects of dopamine on each of these melanotrope cell subsets. Increasing doses of dopamine, ranging from 10(-9)-10(-6) M, inhibited the release of alpha-melanocyte-stimulating hormone (alpha-MSH) in LD (but not in HD) melanotrope cells. In addition, dopamine provoked a significant reduction of the rate of acetylation of alpha-MSH in LD cells but not in HD cells. Similarly, dopamine significantly decreased the accumulation of POMC messenger RNA in LD cells, whereas it did not affect POMC gene expression in the HD melanotrope subset. On the other hand, microfluorimetric studies revealed that dopamine induced a significant reduction of KCl-stimulated cytosolic free calcium concentration in both LD and HD cells. The present study provides additional evidence for functional heterogeneity of melanotrope cells in the frog pars intermedia. Because dopamine plays a pivotal role in the regulation of alpha-MSH secretion, these data suggest the involvement of cell heterogeneity in the physiological process of background color adaptation in amphibians.

Published
1999
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35. Analysis by mass spectrometry of POMC-derived peptides in amphibian melanotrope subpopulations.

Author

Vázquez-Martínez RM, Malagón MM, van Strien FJ, Jespersen S, van der Greef J, Roubos EW, and Gracia-Navarro F

Subjects
Animals, Male, Mass Spectrometry, Pituitary Gland cytology, Radioimmunoassay, Rana ridibunda, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Pituitary Gland chemistry, Pro-Opiomelanocortin analysis
Abstract

We have previously shown that the melanotrope population of the pituitary intermediate lobe of Rana ridibunda is composed of two subpopulations, of low (LD) and high density (HD), that show distinct ultrastructural features and display different synthetic and secretory rates. To investigate whether LD and HD melanotrope cells also differ in proopiomelanocortin (POMC) processing, we have analyzed the POMC-end products in single cells from both subpopulations by means of matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS). The mass spectra revealed the presence of 8 POMC-derived peptides in HD and LD melanotrope cells, indicating a similar processing of the precursor in both subpopulations. However, the relative abundance of three POMC-end products (i.e. lys-gamma1-MSH, acetyl-alpha-MSH, and CLIP fragment) was higher in the HD subset. Moreover, two peptides with molecular weights of 1030 and 1818 Da, respectively, were detected that could not be assigned to any product deduced from the frog POMC sequence. The relative amount of the 1030 Da peptide was higher in LD melanotrope cells. Taken together, our results suggest that POMC processing is differentially regulated in the two melanotrope cell subsets.

Published
1999
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36. Pituitary adenylate cyclase-activating polypeptides 38 and 27 increase cytosolic free Ca2+ concentration in porcine somatotropes through common and distinct mechanisms.

Author

Martínez-Fuentes AJ, Castaño JP, Malagón MM, Vázquez-Martínez R, and Gracia-Navarro F

Subjects
Animals, Cells, Cultured, Cytosol metabolism, Egtazic Acid pharmacology, Estrenes pharmacology, Female, Fluorescent Antibody Technique, Isoquinolines pharmacology, Neurotransmitter Agents pharmacology, Pituitary Adenylate Cyclase-Activating Polypeptide, Pyrrolidinones pharmacology, Swine metabolism, Thapsigargin pharmacology, Time Factors, Verapamil pharmacology, Calcium metabolism, Neuropeptides pharmacology, Sulfonamides, Swine physiology
Abstract

Ca2+ plays an essential role in pituitary adenylate cyclase-activating polypeptide (PACAP)-stimulated growth hormone (GH) secretion from porcine somatotropes. Here, Indo-1 microfluorimetry was used to investigate the dynamics of free cytosolic Ca2+ concentration ([Ca2+]i) in single porcine somatotropes in response to PACAP38 and PACAP27. We also evaluated the relative contributions of extra- and intracellular Ca2+ sources and of cAMP-dependent protein kinase (PKA) and phospholipase C (PLC). A high proportion of somatotropes responded to PACAP38 (79.4%) and PACAP27 (68.4%) with [Ca2+]i rises that could be followed by a refractory plateau (type 1 response), or by a decrease in [Ca2+]i during which somatotropes were responsive to a subsequent PACAP pulse (type II response). Although Ca2+ profiles in response to both peptides were similar, PACAP38-induced [Ca2+]i rises were higher. Somatotrope response to PACAP38 or PACAP27 was markedly reduced by removing extracellular Ca2+, blocking Ca2+ entry through L-type voltage sensitive Ca2+ channels (VSCC), or inhibiting PKA. Conversely, Ca2+ depletion from intracellular stores or PLC inactivation did not affect the response to PACAP27 but considerably reduced maximal [Ca2+]i induced by PACAP38. We conclude that both peptides stimulate extracellular Ca2+ influx through L-type VSCC by a PKA-dependent mechanism. However, PACAP38 also triggers a PLC-mediated Ca2+ mobilization from intracellular stores, thereby indicating that the two molecular forms of PACAP activate common and distinct second messenger pathways within porcine somatotropes.

Published
1998
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37. Melanotrope cell heterogeneity in the pars intermedia of amphibians.

Author

Gracia-Navarro F, González de Aguilar JL, Vázquez-Martínez RM, Tonon MC, Vaudry H, and Malagón MM

Subjects
Adaptation, Physiological, Amphibians anatomy & histology, Animals, Pituitary Gland, Anterior cytology, Rana ridibunda physiology, Thyrotropin-Releasing Hormone physiology, Amphibians physiology, Pituitary Gland, Anterior metabolism, alpha-MSH metabolism
Published
1998
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