CHAPTER 46 LECTURE SLIDES
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CHAPTER 46 LECTURE SLIDES To run the animations you must be in Slideshow View. Use the buttons on the animation to play, pause, and turn audio/text on or off. Please note: once you have used any of the animation functions (such as Play or Pause), you must first click in the white background before you advance the next slide. Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. The Endocrine System Chapter 46 Types of Chemical Messengers • Hormone – Regulatory chemical that is secreted into extracellular fluid and carried by the blood – Can act at a distance from source • Endocrine system – Organs and tissues that produce hormones • Only targets with receptor can respond 3 Types of Chemical Messengers • Paracrine regulators do not travel in blood – Allow cells of organ to regulate each other • Pheromones are chemicals released into the environment to communicate among individuals of a single species – Not involved in normal metabolic regulation within an animal 4 Types of Chemical Messengers • Some neurotransmitters are distributed by the blood and act as a hormone – Norepinephrine coordinates the activity of heart, liver, and blood vessels during stress • Neurons can also secrete a class of hormones called neurohormones that are carried by blood – Antidiuretic hormone is secreted by neurons of the brain 5 6 Endocrine System • The endocrine system includes all the organs that secrete hormones – Endocrine – product secreted into extracellular fluid and carried in blood – Exocrine – secrete product into a duct • 2 basic hormone characteristics 1. Must be sufficiently complex to convey regulatory information to their target cells 2. Must be adequately stable to resist destruction before reaching their target cells 7 8 3 Classes of Hormones 1. Peptides and proteins – Glycoproteins 2. Amino acid derivatives – Catecholamines – Thyroid hormones – Melatonin 3. Steroids – Sex steroids – Corticosteroids 9 Classes of Hormones • Hormones may be categorized as: • Lipophilic (nonpolar) – fat-soluble – – – – Steroid hormones and thyroid hormones Travel on transport proteins in blood Bind to intracellular receptors Tend to act over brief time period • Hydrophilic (polar) – water-soluble – – – – All other hormones Freely soluble in blood Bind to extracellular receptors Tend to have much longer active period 10 11 Paracrine Regulators • Paracrine regulation occurs in most organs • Growth factors – Proteins that promote growth and cell division in specific organs • Epidermal growth factor – Activates mitosis in skin • Nerve growth factor – Stimulates growth and survival of neurons • Insulin-like growth factor – Stimulates cell division in developing bone • Cytokines – Specialize in control of cell division and differentiation in immune system 12 Paracrine Regulators • Paracrine regulation of blood vessels • Nitric oxide (NO) – Function as neurotransmitter – Produced by endothelium of blood vessels • Dilates arteries to control blood pressure • Endothelin stimulates vasoconstriction • Bradykinin promotes vasodilation • Paracrine regulation supplements autonomic nervous system 13 Paracrine Regulators • Prostaglandins – Diverse group of fatty acids that are produced in almost every organ – Regulate a variety of functions • Smooth muscle contraction, lung function, labor, and inflammation – Synthesis is inhibited by nonsteroidal antiinflammatory drugs (NSAIDs) such as aspirin and ibuprofen 14 Lipophilic Hormones • Lipophilic hormones include the steroid hormones and the thyroid hormones • Also retinoids, or vitamin A • Can enter cells through plasma membrane 15 Lipophilic Hormones • Circulate in the blood bound to transport proteins • Dissociate from carrier at target cells • Pass through the cell membrane • Bind to an intracellular receptor, either in the cytoplasm or the nucleus • Hormone-receptor complex binds to hormone response elements in DNA • Regulate gene expression 16 17 Hydrophilic Hormones • Peptide, protein, glycoprotein, and catecholamine hormones • Too large or polar to cross cell membrane • Bind to receptors on plasma membrane • Initiate signal transduction pathways • Activation of protein kinases – Activate or deactivate intracellular proteins by phosphorylation • Production of second messengers 18 19 Hydrophilic Hormones • Receptor kinases – For some peptide hormones (like insulin) the receptor itself is a kinase • Can directly phosphorylate intracellular proteins that alter cellular activity – For other peptide hormones (like growth hormone) the receptor itself is not a kinase • Rather, it activates intracellular kinases 20 Hydrophilic Hormones • Second-messenger systems – Many hydrophilic hormones work through second messenger systems – Two have been described • One involving cyclic adenosine monophosphate (cAMP) • One that generates 2 lipid messengers: inositol triphosphate (IP3) and diacyl glycerol (DAG) 21 Hydrophilic Hormones • Second-messenger systems – Receptors are linked to a second-messengergenerating enzyme via membrane proteins called G proteins • G protein–coupled receptors (GPCR) – When the G protein activates the enzyme, the second-messenger molecules increase • Cellular response depends on the type of G protein activated – Some activate while others inhibit their secondmessenger-generating system – Single hormone can have distinct actions in 2 different cells 22 The Pituitary Gland • Also known as the hypophysis • Hangs by a stalk from the hypothalamus • Consists of two parts – Anterior pituitary (adenohypophysis) • Appears glandular – Posterior pituitary (neurohypophysis) • Appears fibrous – Different embryonic origins – Different hormones 23 The Posterior Pituitary • Appears fibrous because it contains axons that originate in cell bodies within the hypothalamus and that extend along the stalk of the pituitary as a tract of fibers – Develops from outgrowth of the brain • Stores and releases two hormones – Both are actually produced by neuron cell bodies in the hypothalamus – Neuroendocrine reflex 24 The Posterior Pituitary • Antidiuretic hormone (ADH) – Peptide hormone that stimulates water reabsorption by the kidney, and thus inhibits diuresis (urine production) • Oxytocin – Like ADH, composed of 9 amino acids – In mammals, it stimulates the milk ejection reflex and uterine contractions during labor, and it regulates reproductive behavior 25 26 The Anterior Pituitary • Develops from a pouch of epithelial tissue of the embryo’s mouth – Not part of the nervous system • Produces at least 7 essential hormones • Tropic hormones or tropins – Act on other endocrine glands • Can be categorized into three families – Peptide hormones, protein hormones, and glycoprotein hormones 27 The Anterior Pituitary • Peptide hormones – Cleaved from a single precursor protein • Fewer than 40 amino acids in size – Adrenocorticotropic hormone (ACTH) – Melanocyte-stimulating hormone (MSH) • Protein hormones – A single chain of about 200 amino acids – Growth hormone (GH) – Prolactin (PRL) 28 The Anterior Pituitary • Glycoprotein hormones – Dimers, containing alpha (α) and beta (β) subunits, each around 100 amino acids – Thyroid-stimulating hormone (TSH) – Luteinizing hormone (LH) – Follicle-stimulating hormone (FSH) – FSH and LH • Function in both men and women • Referred to as gonadotropins 29 The Anterior Pituitary • Anterior pituitary is controlled by hormones from hypothalamus • Neurons secrete releasing hormones and inhibiting hormones, which diffuse into blood capillaries at the hypothalamus’ base • Each hormone delivered by the hypothalamohypophyseal portal system regulates a specific anterior pituitary hormone – Portal system has 2 capillary beds (not 1) 30 31 The Anterior Pituitary • The hypothalamus and the anterior pituitary are partially controlled by the very hormones whose secretion they stimulate • Negative feedback or feedback inhibition – Acts to maintain relatively constant levels of the target cell hormone • Positive feedback not as common – Causes deviations from homeostasis – Control of ovulation 32 Goiters are caused by a lack of iodine in the diet 33 The Anterior Pituitary • Pituitary gland was referred to as the “master gland” – Hypophysectomy caused a number of deficits • Effects may be direct or indirect – Direct: activation of nonendocrine targets • Growth hormone, prolactin, and MSH – Indirect: activation of other endocrine glands • Tropic hormones ACTH, TSH, LH, and FSH 34 Anterior Pituitary Disorders • Growth Hormone – Stimulates protein synthesis and growth of muscles and connective tissues – Stimulates production of insulin-like growth factors that stimulate cell division in epiphyseal growth plates – elongation of bone • Gigantism vs pituitary dwarfism – Also functions in adults to regulate protein, lipid, and carbohydrate metabolism • Acromegaly 35 Other anterior pituitary hormones • Prolactin – Acts on glands that are not endocrine glands – Actions appear diverse • Milk production in mammals, “crop milk” and brood patch in birds, electrolyte balance in kidneys • • • • TSH stimulates thyroid ACTH stimulates only adrenal cortex FSH and LH act only on the gonads MSH regulates melanophores or melanocytes that contain melanin 36 The Thyroid Gland • In humans, the thyroid gland is shaped like a bow tie, and lies just below the Adam’s apple in the front of the neck • Secretes – Thyroid hormones • Thyroxine • Triiodothyronine – Calcitonin 37 The Thyroid Gland • Thyroid hormones bind to nuclear receptors • Regulates enzymes controlling carbohydrate and lipid metabolism – Hypothyroidism vs hyperthyroidism in adults • Often functions synergistically with other hormones • Trigger metamorphosis in tadpoles 38 39 The Thyroid Gland • Calcitonin – Peptide hormone – Stimulates the uptake of calcium (Ca2+) into bones – lowering blood Ca2+ levels – Appears less important in the day-to-day regulation of Ca2+ levels in adult humans 40 The Parathyroid Glands • • • • 4 small glands attached to the thyroid Produce parathyroid hormone (PTH) Raises blood Ca2+ levels Stimulates osteoclasts to dissolve calcium phosphate crystals in the bone matrix and release Ca2+ into blood • Stimulates the kidneys to reabsorb Ca2+ from the urine • Vitamin D activated by a PTH controlled enzyme – Stimulates the intestinal absorption of Ca2+ 41 42 The Adrenal Glands • Medulla (inner portion) – Stimulated by the sympathetic division of the autonomic nervous system – Secretes the catecholamines epinephrine and norepinephrine • Cortex (outer portion) – Stimulated by anterior pituitary hormone ACTH – Corticosteroids • Glucocorticoids (like cortisol) act on various cells to maintain glucose homeostasis • Aldosterone (mineralocorticoid) helps regulate mineral balance 43 44 The Pancreas • Exocrine and endocrine gland • Connected to the duodenum of the small intestine by the pancreatic duct • Islets of Langerhans are scattered clusters of cells throughout the pancreas • These govern blood glucose levels through two hormones with antagonistic functions 45 The Pancreas • Insulin – Secreted by beta (β) cells of the islets – Stimulates cellular uptake of blood glucose and its storage as glycogen in the liver and muscle cells, or as fat in fat cells • Glucagon – Secreted by alpha (α) cells of the islets – Promotes the hydrolysis of glycogen in the liver and fat in adipose tissue 46 47 Diabetes Mellitus • Diabetics cannot take up glucose from blood • Type I (insulin-dependent diabetes) – Individuals lack insulin-secreting β cells – Treated by daily injections of insulin • Type II (noninsulin-dependent diabetes) – Most patients have this form – Very low number of insulin receptors – Treated by diet and exercise 48 Please note that due to differing operating systems, some animations will not appear until the presentation is viewed in Presentation Mode (Slide Show view). You may see blank slides in the “Normal” or “Slide Sorter” views. All animations will appear after viewing in Presentation Mode and playing each animation. Most animations will require the latest version of the Flash Player, which is available at http://get.adobe.com/flashplayer. 49 The Gonads • Ovaries and testes in vertebrates • Produce sex steroids that regulate reproductive development • Estrogen and progesterone – “Female” hormones • Androgens – “Male” hormones – Testosterone and its derivatives 50 The Pineal Gland • Located in the roof of the third ventricle of the brain • Secretes hormone melatonin • Functions of melatonin – Reduces dispersal of melanin granules – Synchronizes various body processes to a circadian rhythm • Secretion of melatonin activated in the dark 51 Other Hormones • Some hormones are secreted by organs that are not exclusively endocrine glands • Atrial natriuretic hormone is secreted by the right atrium of the heart – Promotes salt and water excretion • Erythropoietin is secreted by the kidney – Stimulates the bone marrow to produce red blood cells 52 Insect Hormones • Insects undergo two types of transformations during postembryonic development • Molting – Shedding of old exoskeleton and secretion of a new larger one • Metamorphosis – Radical transformation from the larval to the adult form 53 Insect Hormones • Hormonal secretions influence both molting and metamorphosis • Brain hormone stimulates prothoracic gland to produce ecdysone, or molting hormone – High levels cause molting • Corpora allata produces juvenile hormone – Low levels result in metamorphosis 54 55
