Endocrine System IV: Growth Hormone, Insulin, and Glucagon Lecture Notes PDF

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UnparalleledDouglasFir

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University of Guelph

G. Bedecarrats

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endocrine system growth hormone insulin physiology

Summary

These lecture notes cover endocrine system IV, focusing on growth hormone, insulin, and glucagon. The document details their roles, regulation, and effects on the body. It includes information on their synthesis and secretion processes.

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ENDOCRINE SYSTEM IV: IMPORTANCE OF GROWTH HORMONE, INSULIN AND GLUCAGON ANSC 3080 G. Bedecarrats Learning Objectives  Describe the roles of growth hormone (GH)  Understand the regulation of GH secretion  Describe the roles of insulin and glucagon  Understand the regulat...

ENDOCRINE SYSTEM IV: IMPORTANCE OF GROWTH HORMONE, INSULIN AND GLUCAGON ANSC 3080 G. Bedecarrats Learning Objectives  Describe the roles of growth hormone (GH)  Understand the regulation of GH secretion  Describe the roles of insulin and glucagon  Understand the regulation of insulin and glucagon secretion GROWTH HORMONE  Growth hormone (somatotropin; GH) originates from cells of the anterior pituitary  Promotes tissue and body growth in young animals, especially longitudinal growth until skeleton is complete  In adult, GH mainly controls metabolism  During fetal life, GH does not stimulate growth; this role is played by Insulin Like Growth Factors (IGF1 and 2)  Protein sequence differs a lot between species (poor cross reactivity)  GH secretion is regulated by hypothalamic neurohormones: GHRH stimulates GH GHIH (somatostatin) inhibits GH  GH stimulates IGF1 production by the liver. In turn, IGF1 stimulates cartilage and bone growth and milk production  GH regulates lipid and protein metabolism  GH receptor is a member of the interleukin (cytokine) family Regulation of GH Secretion  Very precise dual regulation by hypothalamic GHRH and GHIH  Hypothalamus receives information from external stimuli and nutrients in the blood: Follows a circadian pattern,  during sleep High amino acid and low glucose content in plasma both  GH secretion (high protein diet, long fasting) Exercising and stress also  GH secretion Sex steroids  GH secretion = burst of growth at puberty IGF1 responsible for negative feed back on GH secretion Direct Effects of Growth Hormone  GH affects most cells of the body  GH has a short half life (around 20 min)  GH is an anabolic hormone: like insulin GH promotes synthesis of protein  GH is also a catabolic hormone: conversely to insulin GH stimulates lipolysis and reduces lipogenesis in adipose tissue (important during fasting and at night).  Lipolysis  fatty acid production. In addition, GH decreases glucose utilization in most tissues. As a result GH increases glucose concentration in blood. Indirect roles of GH via IGFs  GH stimulates synthesis of IGF1 and its binding proteins in the liver. Small amounts also locally produced in muscle and adipose tissue.  IGF1 is a polypeptide chain with a sequence similar in human, porcine and bovine. Bound to carrier proteins its half life is much longer than GH.  It acts via its own tyrosine kinase receptors.  IGF1 stimulates chondrocytes (cartilage cells) proliferation to increase bone growth  IGF1 stimulates satellite cells in muscle (muscle fibre growth)  IGF1 stimulates amino acid uptake and protein synthesis GH and Lactation  No major role in mammary gland development  Effects of GH on milk production are mainly mediated via metabolism, and partitioning nutrients to the mammary gland for milk synthesis  Insulin normally directs nutrient towards lipogenesis in adipose tissue. GH has the opposite effect.  Bovine GH (bST) can boost milk production by 10 and 40% in early and late lactation, respectively.  Major concern for humans: infant can absorb GH and IGF in the gut, IGF1 has similar sequence in bovine and human GH Pathologies Overproduction of GH: Rare in animals  Before puberty (before skeleton formed): gigantism (increased longitudinal growth)  After puberty (no more longitudinal growth): acromegaly, increased bone width and density, diabetes  In old dogs and cats: can be due to pituitary tumor Lack of GH production: Dwarfism  Mostly genetic defects of GH or GH receptor genes, can be treated by injection of recombinant GH and IGF1  In dogs, dwarfs keep their puppy coat for a long time. Lack of IGF1 action on hair follicle differentiation. INSULIN and GLUCAGON  Pancreas is an endocrine and exocrine gland  Endocrine pancreas = islets of Langerhans (scattered through the pancreas)  In islets:  cells (70%) secrete insulin,  cells (20%) secrete glucagon  Insulin and glucagon have opposite effects on glucose metabolism Synthesis and Secretion Insulin:  Produced as a preprohormone, converted to proinsulin  Before secretion, converted to active insulin by removing a connecting (C)-peptide  After secretion, circulates free (half life of 5-8 min), and is degraded in target cells or in liver Glucagon:  29 AA peptide produced as a preprohormone rapidly converted to active glucagon.  After secretion, circulates free (half life of 5 min), and is metabolized in the liver and kidney FYI Pre-Proinsulin SH SH COOH SH SH Signal Sequence SH SH HN 2 Proinsulin S S COOH COOH S S S S HN 2 Connecting Peptide S S Insulin HN COOH 2 S S S S HN COOH 2 Actions of Insulin  Insulin is the major anabolic hormone of the body  Through its tyrosine kinase receptor, insulin leads to the upregulation of membrane glucose transporters  CELLULAR UPTAKE OF GLUCOSE in muscles and adipose tissue  Insulin stimulates incorporation of glucose in energy storage molecules: glycogen in liver and muscle, and triglycerides in adipose tissue  Insulin also promotes the uptake of amino acids  The overall effects will lead to a decrease in blood glucose and amino acid levels. Actions of Glucagon  Glucagon has opposite effect to insulin  Through its G-protein coupled receptor glucagon activates enzyme responsible for glycogenolysis  release of glucose from glycogen by the liver  Glucagon also stimulates gluconeogenesis in the liver (synthesis of glucose)  Glucagon stimulates release of fatty acids from triglycerides in adipose tissue. Regulation of Insulin and Glucagon Secretion  The major mechanism of regulation of insulin and glucagon is the blood glucose concentration  To a lesser extent amino acid concentration  Role of the autonomic nervous system: During meals, parasympathetic activates insulin secretion Sympathetic inhibits insulin secretion and stimulates glucagon release = “stress hyperglycemia” Insulin and Diabetes Mellitus  Diabetes = hyperglycemia. When blood levels exceed kidney reabsorption capacity  glycosuria  increase osmolarity of urine  increase in urine volume (diabetes), sweet (mellitus)  In insulin-dependent diabetes, the insulin secretion is impaired = Type I  In insulin-independent diabetes, insulin secretion normal but tissues are insensitive = Type II  In animals, only observed in cats and dogs. Mainly due to inflammation of pancreas  In humans:  Type I = mainly autoimmune disorder destroying -cells  Type II = insulin receptor or signal transduction defect

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