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- Author: Jesús P Camiña x
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Institut National de la Santé et de la Recherche Médicale, Unité 691, Collège de France, 75231 Paris, France
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Institut National de la Santé et de la Recherche Médicale, Unité 691, Collège de France, 75231 Paris, France
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Institut National de la Santé et de la Recherche Médicale, Unité 691, Collège de France, 75231 Paris, France
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Institut National de la Santé et de la Recherche Médicale, Unité 691, Collège de France, 75231 Paris, France
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Institut National de la Santé et de la Recherche Médicale, Unité 691, Collège de France, 75231 Paris, France
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Institut National de la Santé et de la Recherche Médicale, Unité 691, Collège de France, 75231 Paris, France
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Ghrelin regulates GH secretion and energy homeostasis through the GH secretagogue receptor type-1a (GHS-R1a). This G-protein coupled receptor shows the peculiarity to transduce information provided not just by ghrelin as well as by adenosine through a supposed binding site different from the characterized ghrelin-binding pocket. Indeed, adenosine triggers intracellular calcium rise through a distinct signaling pathway to the one described for ghrelin, although it fails to stimulate GH secretion. Despite multiple active conformations of GHS-R1a, suggested as an explanation for a ligand-dependent activation of the downstream signaling, the concept of adenosine as agonist for GHS-R1a has been re-evaluated. The results revealed that calcium rise of both ghrelin and adenosine appears to be mediated by receptors that did not show the same sensitivity to protein kinase C (PKC) activity in GHS-R1a-transfected HEK 293 cells (HEK-GHS-R1a cells). The binding analyses showed the same number of adenosine-binding sites in both HEK 293 (B max = 2.01 ± 0.15 fmol/cell) and HEK-GHS-R1a cells (B max = 1.90 ± 0.11 fmol/cell). This binding was unaltered by different GHS-R1a antagonists. Western blot analysis showed a similar endogenous expression of endogenous adenosine receptor type-2b and -3 in both cell lines. The K d values for adenosine were 1.78 μM in HEK 293 cells and 6.30 μM in HEK-GHS-R1a cells, pointing to a modification of agonist affinity induced by overexpression of the GHS-R1a. Additionally, adenosine failed to induce the GHS-R1a endocytosis, although it attenuates the ghrelin-induced GHS-R1a endocytosis. In conclusion, adenosine is not an agonist of the GHS-R1a and its action is mediated by the endogenous adenosine receptor type-2b and -3, which is able to partially use the intracellular signaling machinery of HEK-GHS-R1a cells.
Área de Endocrinología Molecular y Celular, CIBER Fisiopatología de la Obesidad y Nutrición, Departamento de Fisiología, Departamento de Ciencias Morfológicas, Departamento de Medicina, Instituto de Investigación Sanitaria de Santiago (IDIS), Hospital Clínico Universitario de Santiago, Servicio Gallego de Salud (SERGAS), Santiago de Compostela, Spain
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Área de Endocrinología Molecular y Celular, CIBER Fisiopatología de la Obesidad y Nutrición, Departamento de Fisiología, Departamento de Ciencias Morfológicas, Departamento de Medicina, Instituto de Investigación Sanitaria de Santiago (IDIS), Hospital Clínico Universitario de Santiago, Servicio Gallego de Salud (SERGAS), Santiago de Compostela, Spain
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Área de Endocrinología Molecular y Celular, CIBER Fisiopatología de la Obesidad y Nutrición, Departamento de Fisiología, Departamento de Ciencias Morfológicas, Departamento de Medicina, Instituto de Investigación Sanitaria de Santiago (IDIS), Hospital Clínico Universitario de Santiago, Servicio Gallego de Salud (SERGAS), Santiago de Compostela, Spain
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Área de Endocrinología Molecular y Celular, CIBER Fisiopatología de la Obesidad y Nutrición, Departamento de Fisiología, Departamento de Ciencias Morfológicas, Departamento de Medicina, Instituto de Investigación Sanitaria de Santiago (IDIS), Hospital Clínico Universitario de Santiago, Servicio Gallego de Salud (SERGAS), Santiago de Compostela, Spain
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Área de Endocrinología Molecular y Celular, CIBER Fisiopatología de la Obesidad y Nutrición, Departamento de Fisiología, Departamento de Ciencias Morfológicas, Departamento de Medicina, Instituto de Investigación Sanitaria de Santiago (IDIS), Hospital Clínico Universitario de Santiago, Servicio Gallego de Salud (SERGAS), Santiago de Compostela, Spain
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Área de Endocrinología Molecular y Celular, CIBER Fisiopatología de la Obesidad y Nutrición, Departamento de Fisiología, Departamento de Ciencias Morfológicas, Departamento de Medicina, Instituto de Investigación Sanitaria de Santiago (IDIS), Hospital Clínico Universitario de Santiago, Servicio Gallego de Salud (SERGAS), Santiago de Compostela, Spain
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Área de Endocrinología Molecular y Celular, CIBER Fisiopatología de la Obesidad y Nutrición, Departamento de Fisiología, Departamento de Ciencias Morfológicas, Departamento de Medicina, Instituto de Investigación Sanitaria de Santiago (IDIS), Hospital Clínico Universitario de Santiago, Servicio Gallego de Salud (SERGAS), Santiago de Compostela, Spain
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Área de Endocrinología Molecular y Celular, CIBER Fisiopatología de la Obesidad y Nutrición, Departamento de Fisiología, Departamento de Ciencias Morfológicas, Departamento de Medicina, Instituto de Investigación Sanitaria de Santiago (IDIS), Hospital Clínico Universitario de Santiago, Servicio Gallego de Salud (SERGAS), Santiago de Compostela, Spain
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Área de Endocrinología Molecular y Celular, CIBER Fisiopatología de la Obesidad y Nutrición, Departamento de Fisiología, Departamento de Ciencias Morfológicas, Departamento de Medicina, Instituto de Investigación Sanitaria de Santiago (IDIS), Hospital Clínico Universitario de Santiago, Servicio Gallego de Salud (SERGAS), Santiago de Compostela, Spain
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Área de Endocrinología Molecular y Celular, CIBER Fisiopatología de la Obesidad y Nutrición, Departamento de Fisiología, Departamento de Ciencias Morfológicas, Departamento de Medicina, Instituto de Investigación Sanitaria de Santiago (IDIS), Hospital Clínico Universitario de Santiago, Servicio Gallego de Salud (SERGAS), Santiago de Compostela, Spain
Área de Endocrinología Molecular y Celular, CIBER Fisiopatología de la Obesidad y Nutrición, Departamento de Fisiología, Departamento de Ciencias Morfológicas, Departamento de Medicina, Instituto de Investigación Sanitaria de Santiago (IDIS), Hospital Clínico Universitario de Santiago, Servicio Gallego de Salud (SERGAS), Santiago de Compostela, Spain
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Área de Endocrinología Molecular y Celular, CIBER Fisiopatología de la Obesidad y Nutrición, Departamento de Fisiología, Departamento de Ciencias Morfológicas, Departamento de Medicina, Instituto de Investigación Sanitaria de Santiago (IDIS), Hospital Clínico Universitario de Santiago, Servicio Gallego de Salud (SERGAS), Santiago de Compostela, Spain
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This study aimed to investigate the role of preproghrelin-derived peptides in adipogenesis. Immunocytochemical analysis of 3T3-L1 adipocyte cells showed stronger preproghrelin expression compared with that observed in 3T3-L1 preadipocyte cells. Insulin promoted this expression throughout adipogenesis identifying mTORC1 as a critical downstream substrate for this profile. The role of preproghrelin-derived peptides on the differentiation process was supported by preproghrelin knockdown experiments, which revealed its contribution to adipogenesis. Neutralization of endogenous O-acyl ghrelin (acylated ghrelin), unacylated ghrelin, and obestatin by specific antibodies supported their adipogenic potential. Furthermore, a parallel increase in the expression of ghrelin-associated enzymatic machinery, prohormone convertase 1/3 (PC1/3) and membrane-bound O-acyltransferase 4 (MBOAT4), was dependent on the expression of preproghrelin in the course of insulin-induced adipogenesis. The coexpression of preproghrelin system and their receptors, GHSR1a and GPR39, during adipogenesis supports an autocrine/paracrine role for these peptides. Preproghrelin, PC1/3, and MBOAT4 exhibited dissimilar expression depending on the white fat depot, revealing their regulation in a positive energy balance situation in mice. The results underscore a key role for preproghrelin-derived peptides on adipogenesis through an autocrine/paracrine mechanism.