1 / 58

The Endocrine System

The Endocrine System. Chapter 46. Types of Chemical Messengers. A hormone is a chemical that is secreted into extracellular fluid and carried by the blood -Can therefore act at a distance from source -Only targets with receptor can respond Paracrine regulators do not travel in blood

chongc
Télécharger la présentation

The Endocrine System

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The Endocrine System Chapter 46

  2. Types of Chemical Messengers A hormone is a chemical that is secreted into extracellular fluid and carried by the blood -Can therefore act at a distance from source -Only targets with receptor can respond 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

  3. Types of Chemical Messengers Some neurotransmitters are distributed by the blood and act as neurohormones -Norepinephrine coordinates the activity of heart, liver and blood vessels during stress Hormone production and release is often regulated directly or indirectly by the nervous system

  4. Endocrine System The endocrine system includes all the organs and tissues that produce hormones -Includes endocrine glands,which are specialized to secrete hormones -Also organs, like the liver, that secrete hormones in addition to other functions Exocrine glands secrete their products, such as saliva or milk, into a duct for transport to the outside

  5. Classes of Hormones Molecules that function as hormones must exhibit two basic 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 Three chemical classes meet these requirements

  6. Classes of Hormones 1. Peptides and proteins -Glycoproteins 2. Amino acid derivatives -Catecholamines -Thyroid hormones -Melatonin 3. Steroids -Sex steroids -Corticosteroids

  7. Classes of Hormones Hormones may be categorized as: -Lipophilic (nonpolar) = fat-soluble -Steroid hormones and thyroid hormones -Bind to intracellular receptors -Hydrophilic (polar) = water-soluble -All other hormones -Bind to extracellular receptors

  8. Paracrine Regulators Paracrine regulation occurs in most organs -Growth factors are proteins that promote growth and cell division in specific organs -Epidermal growth factor = Skin -Nerve growth factor = Neurons -Insulin-like growth factor = Bone -Cytokines = Immune system

  9. Paracrine Regulators The endothelium of blood vessels is a rich source of paracrine regulators -Nitric oxide (NO) which promotes vasodilation -Endothelin which stimulates vasoconstriction -Bradykinin which promotes vasodilation

  10. Paracrine Regulators Prostaglandins -A diverse group of fatty acids that are produced in almost every organ -Regulate a variety of functions including: -Smooth muscle contraction, lung function, labor, and inflammation -Synthesis is inhibited by nonsteroidal anti-inflammatory drugs (NSAIDs) such as aspirin and ibuprofen

  11. Lipophilic Hormones Lipophilic hormones include the steroid hormones (derived from cholesterol) and the thyroid hormones (tyrosine + iodine) -As well as the retinoids, or vitamin A

  12. Lipophilic Hormones These hormones circulate in the blood bound to transport proteins -Dissociate from carrier at target cells -Pass through the cell membrane and 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

  13. Hydrophilic Hormones Hydrophilic hormones include the peptide, protein and catecholamine hormones -Too large or polar to cross cell membrane Hormones bind to extracellular receptors -Initiate signal transduction pathways 1. Activation of protein kinases 2. Production of second messengers

  14. 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

  15. 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)

  16. Hydrophilic Hormones Second-messenger systems -Receptors are linked to a second-messenger-generating enzyme via membrane proteins called G proteins -Are thus called G-protein-coupled receptors (GPCP) -When the G protein activates the enzyme, the second-messenger molecules increase

  17. The Pituitary Gland The pituitary gland is also known asthe hypophysis -It hangs by a stalk from the hypothalamus The pituitary gland consists of two parts: -Anterior pituitary (adenohypophysis) -Appears glandular -Posterior pituitary (neurohypophysis) -Appears fibrous

  18. The Posterior Pituitary Theposterior pituitarydevelops from growth of the brain -Itremainsdirectly connected to the hypothalamus by a tract of axons It stores and releases two hormones, that are actually produced by neuron cell bodies in the hypothalamus -Neuroendocrine reflex

  19. The Posterior Pituitary Antidiuretic hormone (ADH) -A peptide hormone that stimulates water reabsorption by the kidney, and thus inhibits diuresis (urine production) Oxytocin -Like ADH, it is composed of 9 amino acids -In mammals, it stimulates the milk ejection reflex and uterine contractions during labor, and it regulates reproductive behavior

  20. The Anterior Pituitary The anterior pituitary develops from a pouch of epithelial tissue of the embryo’s mouth It produces at least seven essential hormones -Collectively called tropic hormones or tropins -Can be categorized into three families -Peptide hormones, protein hormones and glycoprotein hormones

  21. The Anterior Pituitary Peptide hormones -Fewer than 40 amino acids in size -Adrenocorticotropic hormone (ACTH) -Melanocyte-stimulating hormone (MSH) Protein hormones -A single chain of about 200 amino acid -Growth hormone (GH) -Prolactin (PRL)

  22. The Anterior Pituitary Glycoprotein hormones -Dimers, containing alpha (a) and beta (b) subunits, each around 100 amino acids -Thyroid-stimulating hormone (TSH) -Luteinizing hormone (LH) -Follicle-stimulating hormone (FSH)

  23. The Anterior Pituitary The activity of the anterior pituitary is controlled by hormones of the hypothalamus -Neurons secrete releasing hormones and inhibiting hormones, which diffuse into blood capillaries at the hypothalamus’ base -Each hormone delivered by the hypothalamohypophysial portal system regulates a specific anterior pituitary hormone

  24. The Anterior Pituitary The hypothalamus and the anterior pituitary are partially controlled by the very hormones whose secretion they stimulate -This is termed negative feedback or feedback inhibition Positive feedback is uncommon because it causes deviations from homeostasis -One example is the control of ovulation

  25. The Anterior Pituitary The anterior pituitary is sometimes referred to as the “master gland” -Its effects may be direct or indirect -Direct: activation of nonendocrine targets -Indirect: activation of other endocrine glands Hypophysectomy is the surgical removal of the pituitary

  26. Anterior Pituitary Disorders Growth hormone stimulates growth of muscles and connective tissue -It also promotes the production of insulin-like growth factors -Stimulate cell division in the epiphyseal growth plates, and thus bone elongation Gigantism is caused by an excessive secretion of growth hormone in a child

  27. Anterior Pituitary Disorders

  28. Anterior Pituitary Disorders In contrast, pituitary dwarfism is caused by a deficiency in GH secretion during childhood GH can no longer cause an increase in height in adults because human skeletal plates transform from cartilage into bone at puberty -Excessive GH secretion in an adult results in acromegaly

  29. 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 -It secretes: -Thyroid hormones -Thyroxine -Triiodothyronine -Calcitonin

  30. The Thyroid Gland Thyroidhormones bind to nuclear receptors -Regulate carbohydrate & lipid metabolism -Adults with hypothyroidism have low production of thyroxine -Reduced metabolism and overweight -Adults with hyperthyroidism have high production of thyroxine -High metabolism and weight loss -Trigger metamorphosis in amphibians

  31. The Thyroid Gland Calcitonin -A peptide hormone -Stimulates the uptake of calcium (Ca2+) into bones -Thus, lowering its levels in the blood

  32. The Parathyroid Glands The parathyroid glands are four small glands attached to the thyroid -Produce parathyroid hormone (PTH) in response to falling levels of Ca2+ in blood -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

  33. The Parathyroid Glands PTH also indirectly leads to the absorption of Ca2+ from food in the intestines by its activation of vitamin D -Vitamin D is produced in the skin from a cholesterol derivative in response to UV light -It diffuses into blood in an inactive form -Activated by an enzyme that is stimulated by PTH

  34. The Adrenal Glands The adrenal glands are located just above each kidney -Medulla = Inner portion -Stimulated by the sympathetic division of the autonomous nervous system -Cortex = Outer portion -Stimulated by the anterior pituitary, through the hormone ACTH

  35. The Adrenal Glands The medulla secretes the catecholamines epinephrine and norepinephrine -These trigger “alarm” responses helping the body prepare for extreme efforts -Lead to an increase in: heart rate, blood pressure, blood glucose level, and blood flow to heart and muscle

  36. The Adrenal Glands The cortex secretes steroid hormones called corticosteroids -Glucocorticoids (such as cortisol) maintain glucose homeostasis and modulate some aspects of the immune response -Mineralocorticoids (such as aldosterone) regulate mineral balance by stimulating the kidneys to reabsorb Na+ and excrete K+

  37. The Pancreas The pancreas is located adjacent to stomach -Connected to the duodenum of the small intestine by the pancreatic duct The islets of Langerhans are scattered clusters of cells throughout the pancreas -These govern blood glucose levels through two hormones with antagonistic functions

  38. The Pancreas Insulin -Secreted by beta (b) 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 (a) cells of the islets -Promotes the hydrolysis of glycogen in the liver and fat in adipose tissue

More Related