Fernando Cordido scite author profile

Lin28 and Lin28b are related RNA-binding proteins that inhibit the maturation of miRNAs of the let-7 family and participate in the control of cellular stemness and early embryonic development. Considerable interest has arisen recently concerning other physiological roles of the Lin28/let-7 axis, including its potential involvement in the control of puberty, as suggested by genome-wide association studies and functional genomics. We report herein the expression profiles of Lin28 and let-7 members in the rat hypothalamus during postnatal maturation and in selected models of altered puberty. The expression patterns of c-Myc (upstream positive regulator of Lin28), mir-145 (negative regulator of c-Myc), and mir-132 and mir-9 (putative miRNA repressors of Lin28, predicted by bioinformatic algorithms) were also explored. In male and female rats, Lin28, Lin28b, and c-Myc mRNAs displayed very high hypothalamic expression during the neonatal period, markedly decreased during the infantile-to-juvenile transition and reached minimal levels before/around puberty. A similar puberty-related decline was observed for Lin28b in monkey hypothalamus but not in the rat cortex, suggesting species conservation and tissue specificity. Conversely, let-7a, let-7b, mir-132, and mir-145, but not mir-9, showed opposite expression profiles. Perturbation of brain sex differentiation and puberty, by neonatal treatment with estrogen or androgen, altered the expression ratios of Lin28/let-7 at the time of puberty. Changes in the c-Myc/Lin28b/let-7 pathway were also detected in models of delayed puberty linked to early photoperiod manipulation and, to a lesser extent, postnatal underfeeding or chronic subnutrition. Altogether, our data are the first to document dramatic changes in the expression of the Lin28/let-7 axis in the rat hypothalamus during the postnatal maturation and after different manipulations that disturb puberty, thus suggesting the potential involvement of developmental changes in hypothalamic Lin28/let-7 expression in the mechanisms permitting/leading to puberty onset.

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Central Ghrelin Regulates Peripheral Lipid Metabolism in a Growth Hormone-Independent Fashion

Sangiao‐Alvarellos

Vázquez

Varela

et al. 2009

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GH plays a major role in the regulation of lipid metabolism and alterations in GH axis elicit major changes in fat distribution and mobilization. For example, in patients with GH deficiency (GHD) or in mice lacking the GH receptor, the percentage of fat is increased. In addition to the direct actions of GH on lipid metabolism, current evidence indicates that ghrelin, a stomach-derived peptide hormone with potent GH secretagogue action, increases lipogenesis in white adipose tissue (WAT) through a hypothalamic-mediated mechanism. Still, the mechanism by which GH tone modulates ghrelin actions on WAT remains unclear. Here we investigated the effect of central ghrelin administration on lipid metabolism in lipogenic tissues (liver and WAT) in the absence of GH, by using a model for the study of GHD, namely the spontaneous dwarf rat, which shows increased body fat. Our data demonstrate that central chronic ghrelin administration regulates adipose lipid metabolism, mainly in a GH-independent fashion, as a result of increased mRNA, protein expression, and activity levels of fatty acid metabolism enzymes. On the contrary, central ghrelin regulates hepatic lipogenesis de novo in a GH-independent fashion but lipid mobilization in a GH-dependent fashion because carnitine palmitoyltransferase 1 was decreased only in wild-type Lewis rats. These findings suggest the existence of a new central nervous system-based neuroendocrine circuit, regulating metabolic homeostasis of adipose tissue. Understanding the molecular mechanism underlying the interplay between GH and ghrelin and their effects on lipid metabolism will provide new strategies for the design and development of suitable drugs for the treatment of GHD, obesity, and its comorbidities.

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Clinical Manifestations and Diagnosis of Acromegaly

Lugo

Pena

Cordido

2012

International Journal of Endocrinology

102

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Acromegaly and gigantism are due to excess GH production, usually as a result of a pituitary adenoma. The incidence of acromegaly is 5 cases per million per year and the prevalence is 60 cases per million. Clinical manifestations in each patient depend on the levels of GH and IGF-I, age, tumor size, and the delay in diagnosis. Manifestations of acromegaly are varied and include acral and soft tissue overgrowth, joint pain, diabetes mellitus, hypertension, and heart and respiratory failure. Acromegaly is a disabling disease that is associated with increased morbidity and reduced life expectancy. The diagnosis is based primarily on clinical features and confirmed by measuring GH levels after oral glucose loading and the estimation of IGF-I. It has been suggested that the rate of mortality in patients with acromegaly is correlated with the degree of control of GH. Adequately treated, the relative mortality risk can be markedly reduced towards normal.

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Metformin reduces thyrotropin levels in obese, diabetic women with primary hypothyroidism on thyroxine replacement therapy

Isidro

Penín

Nemina

et al. 2007

Endocr

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Context It has been reported that metformin might modify thyroid hormone economy. In two retrospective studies, initiation of treatment with metformin caused suppression of TSH to subnormal levels. Objective To prospectively evaluate if administration of metformin to obese, diabetic patients with primary hypothyroidism on stable thyroxine replacement doses modifies TSH levels. Patients and methods Eight obese, diabetic postmenopausal women with primary hypothyroidism participated in the study. They received 1,700 mg of metformin daily for 3 months. Weight, TSH, free T4, and free T3 levels were measured at baseline, 3 months after metformin initiation and 3 months after its withdrawal. Results After 3 months of on metformin, mean TSH was significantly lower than basal TSH (3.11 +/- 0.50 microUI/ml vs. 1.18 +/- 0.36 microUI/ml; P = 0.01). Mean TSH 3 months after metformin withdrawal was 2.21 +/- 0.37 microUI/ml, significantly higher than TSH after metformin (P = 0.05), but not different from basal TSH. Mean fT4 level increased during metformin administration (basal fT4: 1.23 +/- 0.06 ng/dl, fT4 after metformin: 1.32 +/- 0.04 ng/dl; P = ns), and decreased after its withdrawal (fT4 3 months after metformin withdrawal: 1.15 +/- 0.05 ng/dl; vs. 3 months after metformin, P = 0.04; vs. basal; P = ns). Conclusions In obese, diabetic patients with primary hypothyroidism on thyroxine replacement treatment, short-term metformin administration is associated with a significant fall in TSH.

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Plasma ghrelin levels in patients undergoing haemodialysis and peritoneal dialysis

Pérez‐Fontán

Cordido²,

Rodríguez‐Carmona³

et al. 2004

Nephrology Dialysis Transplantation

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PGhr levels were moderately and similarly increased in patients undergoing HD and PD. Age was a strong determinant of PGhr levels, both in uraemic patients and in healthy controls. Dialysis adequacy, residual renal function and inflammation did not appear to influence ghrelin levels in these patients. The negative correlation between PGhr and nutritional markers suggests that low dietary intake causes increases in ghrelin secretion in dialysis patients.

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Massive growth hormone (GH) discharge in obese subjects after the combined administration of GH-releasing hormone and GHRP-6: evidence for a marked somatotroph secretory capability in obesity.

Cordido¹,

Peñalva²,

Diéguez³

et al. 1993

The Journal of Clinical Endocrinology & Metabolism

108

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GH secretion in response to all provocative stimuli is decreased in patients with obesity. However, the precise mechanism causing this impairment in GH release is unknown. His-DTrp-Ala-Trp-DPhe-Lys-NH2 (GHRP-6) is a synthetic compound that releases GH in a dose-related and specific manner in several species, including man. To gain further insight into disrupted GH secretion in obesity, GHRP-6 and GH-releasing hormone (GHRH) at a dose of 100 micrograms, i.v., were administered either alone or in combination in a group of 19 obese subjects. In a group of obese patients, GHRP-6 induced GH secretion, with a GH peak (mean +/- SEM) of 15.7 +/- 4.4 micrograms/L and an area under the curve (AUC) of 674 +/- 187, which were larger than those after GHRH stimulation (6.8 +/- 1.1 and 412 +/- 71, respectively). Enhancement of the endogenous cholinergic tone was obtained in another group of obese subjects by means of pyridostigmine (120 mg, orally). Pyridostigmine administered 60 min before GHRP-6, increased both the mean GH peak (32.2 +/- 6.9) and the AUC (1413 +/- 537) after GHRP-6 administration. In a separate group of subjects, the combined administration of GHRP-6 and GHRH induced a massive discharge of GH, with individual responses ranging from 14-86 micrograms/L. GHRP-6 plus GHRH induced a mean GH peak of 42.2 +/- 10.9 and an AUC of 1894 +/- 784 (P < 0.05), clearly indicating a potentiating (synergic) action when the two compounds were administered together. These data show that GH responses to GHRP-6 were almost twice those to GHRH in obese patients. The stimulatory effect exerted by pyridostigmine on GHRP-6-induced GH secretion supported the view of increased somatostatinergic tone in obesity. Finally, the massive GH discharge that followed the administration of GHRH plus GHRP-6 was not observed after any stimulus in obesity, clearly indicating that the impaired GH secretion is a functional and potentially reversible state.

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Serum leptin levels in women throughout pregnancy and the postpartum period and in women suffering spontaneous abortion

Lage

García‐Mayor

Tomé

et al. 1999

Clinical Endocrinology

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Serum leptin concentrations rose slightly during pregnancy, fell following delivery and subsequently increased during the first six months postpartum. These variations were unrelated to changes in body composition, and may be responsible for the postpartum weight gain observed in some women. Abnormally low serum leptin levels were observed in women suffering spontaneous abortion in the first trimester of pregnancy.

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Ghrelin and lipid metabolism: key partners in energy balance

Varela¹,

Vázquez²,

Cordido³

et al. 2010

Journal of Molecular Endocrinology

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Ghrelin, the endogenous ligand of the GH secretagogue receptor, has a pleiotropic role in the modulation of energy balance. Recent evidence has demonstrated that besides its orexigenic role, ghrelin regulates central and peripheral lipid metabolism through specific control of hypothalamic AMP-activated protein kinase (AMPK), a critical metabolic gauge regulating both cellular and whole-body energy homeostasis. In this review, we summarize the new milestones of ghrelin's actions on energy balance, with particular focus on its molecular interaction with hypothalamic AMPK and fatty acid metabolism. Understanding this new metabolic pathway can provide new therapeutic targets for the treatment of obesity and the metabolic syndrome.

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