Aspectos críticos do abuso de horm¶nios protéicos no exercício e no esporte: atualizaþÒo / [Critical aspects of peptide hormone abuse in exercise and sports: an update].

The hormonal abuse in physical exercise practioners is very common. Many pleople believe these substances can promote skeletal muscle hyperthrophy and improve physical fitness without health damaging effects. However, this is another myth that science unmasked. This article updates information regarding abuse of insulin, growth hormone, thyroid hormones, and erythropoitin. The peptide hormone abuse can cause motor paralysis, skeletal muscle damage and loss, diabetes mellitus, hypothyroidism, arterial hypertension, sweating, headaches, vomiting and enhances the risk for atherosclerosis, thrombosis, osteoporosis, and cancer.

Novel mechanisms of growth hormone regulation: growth hormone-releasing peptides and ghrelin

Growth hormone secretion is classically modulated by two hypothalamic hormones, growth hormone-releasing hormone and somatostatin. A third pathway was proposed in the last decade, which involves the growth hormone secretagogues. Ghrelin is a novel acylated peptide which is produced mainly by the stomach. It is also synthesized in the hypothalamus and is present in several other tissues. This endogenous growth hormone secretagogue was discovered by reverse pharmacology when a group of synthetic growth hormone-releasing compounds was initially produced, leading to the isolation of an orphan receptor and, finally, to its endogenous ligand. Ghrelin binds to an active receptor to increase growth hormone release and food intake. It is still not known how hypothalamic and circulating ghrelin is involved in the control of growth hormone release. Endogenous ghrelin might act to amplify the basic pattern of growth hormone secretion, optimizing somatotroph responsiveness to growth hormone-releasing hormone. It may activate multiple interdependent intracellular pathways at the somatotroph, involving protein kinase C, protein kinase A and extracellular calcium systems. However, since ghrelin has a greater ability to release growth hormone in vivo, its main site of action is the hypothalamus. In the current review we summarize the available data on the: a) discovery of this peptide, b) mechanisms of action of growth hormone secretagogues and ghrelin and possible physiological role on growth hormone modulation, and c) regulation of growth hormone release in man after intravenous administration of these peptides.

La ghrelina y su importancia con el eje gastrohipotalámico / Ghrelin and the gastro-hypothalamic axis

La obesidad se considera una de las enfermedades más importantes en la medida que acarrea gran morbilidad y mortalidad. El conocimiento de los mecanismos que intervienen en la saciedad, el peso corporal y el gasto de energía ha permitido el descubrimiento de hormonas relacionadas con el eje gastrohipotalámico, encargado de regular la saciedad y otros procesos que participan en la obesidad. La ghrelina, una hormona de secreción predominantemente gástrica, dio luz para comprender estos mecanismos, pues se trata de una hormona que regula la saciedad y el peso corporal por medio de mecanismos centrales mediados por el neuropéptido Y y la proteína relacionada con el agutí. En este artículo se revisan los aspectos fundamentales de esta hormona y de sus efectos en diversos órganos y sistemas.

Obesity is currently considered one of the most important diseases worldwide due to its high morbidity and mortality rates. The mechanisms involved in the control of satiation, body weight and energy expenditure has led to the discovery of new hormones that participate in the gastrichypothalamic axis in charge of regulating satiation and other obesity-related processes. Ghrelin a novel hormone secreted mainly by gastric tissue, has shed some light on this mechanism. It is a hormone that regulates satiation and body weight by centrally mediated mechanisms, involving neuropeptide Y and Agouti associated proteins. The present review focuses on some important physiological aspects of this hormone.

From growth hormone-releasing peptides to ghrelin: discovery of new modulators of GH secretion

A secreção de hormônio de crescimento (HC) é modulada pelo hormônio liberador de HC e pela somatostatina. Na ultima década foi descoberto um terceiro mecanismo de controle, envolvendo os secretagogos de HC. A ghrelina é um peptídeo acilado, descoberto recentemente, que é produzido no estômago, porém também é sintetizado no hipotálamo. Este peptídeo é capaz de liberar HC, além de aumentar a ingestão alimentar. A ghrelina endógena parece amplificar o padrão básico de secreção de HC, ampliando a resposta do somatotrófo ao hormônio liberador de HC. Este peptídeo estimula múltiplas vias intracelulares interdependentes no somatotrófo, envolvendo a proteína quinase C, proteína quinase A e sistemas moduladores de cálcio extracelular. Entretanto, como a liberação de HC induzida pela ghrelina in vivo é mais acentuada que in vitro, seu local de atuação predominante é no hipotálamo. Nesse artigo apresentamos uma revisão sobre a descoberta da ghrelina, os dados existentes sobre os mecanismos de ação e possível papel fisiológico dos secretagogos de HC e da ghrelina na secreção de HC e, finalmente, os efeitos da administração endovenosa destes peptídeos sobre a secreção de HC no homem.

Pathogenesis and pharmacologic treatment of obesity: the role of energy regulatory mechanism.

Obesity has become a worldwide public health problem affecting millions of people. This is a chronic, stigmatized, and costly disease, rarely curable and is increasing in prevalence to a point today where we define obesity as an epidemic disease that not only in developed but also on developing countries. The pathogenesis of obesity is largely unknown, especially about energy regulatory mechanism that involved wide area of neuroendocrinology that is very interesting but very complex and makes internists "refuse" to learn. Obesity occurs through a longstanding imbalance between energy intake and energy expenditure, influenced by a complex biologic system that regulates appetite and adiposity. Obesity influences the pathogenesis of hypertension, type 2 diabetes, dyslipidemia, kidney, heart, and cerebrovascular disease. It is very wise for every internist to learn the pathogenesis and treatment of this worldwide diseases. Until now, the available treatments, including drugs, are palliative and are effective only while the treatment is being actively used; and besides so many side effects reported.

Obesity, breast cancer and the role of adipocytokines.

Obesity is a worldwide problem which impacts the risk and prognosis of some of the more common forms of cancer, including breast cancer in post-menopausal women. As the basis for understanding the potential mechanisms of obesity and cancer relationship has advanced, a number of new hypotheses have emerged. The adipocytokines are a complex group of biologically active polypeptides. Leptin is a growth hormone, secreted by adipose tissue, whose levels are normally elevated in obese individuals and may have a promoting effect on carcinogenesis and metastasis of breast cancer, possibly in an autocrine manner. Leptin interferes with the insulin signaling pathway and in type 2 diabetes plasma leptin levels are found to be correlated with the degree of insulin resistance, a relationship independent of body mass. This relationship might provide a mechanistic explanation for promotion potential.