Transcript Slide 1
Growth Hormone (somatotrophin) Hormones • GH is the most abundant anterior pituitary hormone which is synthesized and secreted by somatotrophs. “Somatotrophs are cells in the anterior pituitary These cells constitute 40-50% of anterior pituitary cells. They respond by releasing GH in response to GHRH (somatocrinin) or are inhibited by GHIH (somatostatin), both received from the hypothalamus” Hormones Daily GH secretion varies throughout life; - secretion is high in children - it reaches maximal levels at puberty and then decreases in an age-related manner in adulthood. GH release is PULSATILE; GH is secreted in discrete but irregular pulses. Between these pulses, circulating GH falls to levels that are undetectable with most current assays . The amplitude of secretory pulses is maximal at night, and the most consistent period of GH secretion is after the onset of deep sleep. Hormones Regulation of secretion ̶ Sleep Hypothalamus Emotional Factors GHRH + Exercise, fasting SST ̶ ̶ Anterior Pituitary ̶ GH (DA, 5-HT & NE) Drugs GH liver IGF-1 Neurotransmitters Target tissues Liver, muscle, bone, adipose and other tissues (dopamine agonists) GH Release Hormones • Insulin-like growth factor 1 (IGF-1) (somatomedin C) is one of the mediators of GH action. It plays an important role in childhood growth and continues to have anabolic effects in adults. • IGF-1 is produced primarily by the liver as an endocrine hormone as well as other target tissues. Its production is stimulated by GH. • Almost every cell in the human body is affected by IGF-1, especially cells in muscle, cartilage, bone, liver, kidney, nerves, skin and lungs. IGF-1 regulates cell growth and development, especially in nerve cells as well as cellular DNA synthesis. Hormones Physiologic Effects of Growth Hormone it has two distinct types of effects: • Direct effects: are the result of growth hormone binding to its receptor on target cells. For example on Fat cells (adipocytes). • Indirect effects: are mediated primarily by IGF-1. A majority of the growth promoting effects of growth hormone is actually due to IGF-I acting on its target cells. Hormones Pharmacological actions of GH Hormones 1- Effects on Growth • GH stimulates the liver and other tissues to secrete IGF-I. • IGF-I stimulates differentiation and proliferation of chondrocytes (cartilage cells), resulting in bone growth. • IGF-I also appears to be the key player in muscle growth. It stimulates both the differentiation and proliferation of myoblasts. Hormones 2- Metabolic Effects of GH • Protein metabolism: GH stimulates protein anabolism in many tissues, increases amino acid uptake, increases protein synthesis and decreases oxidation of proteins. • Fat metabolism: GH enhances the utilization of fat by stimulating lipolysis and mobilization of FFA from adipose tissues. Hormones • Carbohydrate metabolism: GH is one of the hormones that serves to maintain blood glucose within a normal range. GH has anti-insulin activity utilization of glucose by peripheral tissues GH also gluconeogenesis hepatic glucose output Both hyperglycemia insulin secretion (hyperinsulinemia). Hormones Clinical Disorders I) GH Deficiency Causes: ↓GHRH -Pituitary hypoplasia (↓GH ) ↓IGF-1 (generation/actions) - Receptor defects Children Dwarfism “Short stature with normal body proportion Adults Hypopituitarism “↓ GH + other pituitary hormones (ACTH, TSH, FSH, LH, PRL) ” Treatment: Synthetic GH (Somatrophin) Synthetic GHRH (Sermorelin) Hormones GH Deficiency Hormones II) GH overproduction Mainly benign pituitary tumor (↑GH) Other rare causes: ↑GHRH (hypothalamus) Children Gigantism “increased longitudinal growth” Hormones Adults (after epiphyseal closure) Acromegaly • enlargement of hands and feets (acral parts) paresthesias and joint pain • coarsening of facial features, protrusion of lower jaw (prognathism) • soft tissue overgrowth, cardiomegaly • Gynecomastia and galactorrhea (hyperprolactinemia) Hormones Mortality rate is high in untreated acromegaly patients mainly due to tissues overgrowth causing: cardiomegaly, upper airway obstruction and GIT malignancies. Treatment of excess GH disorders: - Synthetic Somatostatin (Octreotide) DA agonists (Bromocriptine) Surgical removal / Radiotherapy of the tumor GH Antagonists (Pegvisomant) Hormones Diagnosis of GH disorders Lab Studies Serum GH GH Deficiency GH Excess Insufficient Random GH measurement False results Serum IGF-1 ↓ ↑ * Magnetic resonance imaging (MRI) is useful to confirm pituitary adenoma Hormones GH Deficiency Following a GH Excess OGTT Provocative test Oral glucose tolerance test (provoke GH release e.g. insulin-induced hypoglycemia - agents as: arginine, L-dopa) In response to a 75g glucose challenge: • Serum GH level < 10 ng/ml GH deficiency • Serum GH level < 5 ng/ml Severe GH deficiency ↓ - Normal subjects: suppress GH level <1 ng/ml - Patients with excess GH either: fail to suppress or further increase GH level. Hormones Assessment LARON SYNDROME. What is carpal tunnel syndrome ? Mention the relation between acromegaly &this syndrome. Hormones