1. Chapter 2: The Endocrine System

3. 2.1 Systems of chemical mediation and communication

4. 2.2 A comparison of endocrine and exocrine cells (Part 1)

5. 2.2 A comparison of endocrine and exocrine cells (Part 2)

6. Human Anatomy and Physiology, 7e by Elaine Marieb & Katja Hoehn Copyright © 2007 Pearson Education, Inc., publishing as Benjamin Cummings. Figure 3.12: Exocytosis, p. 78. Extracellular fluid Cytoplasm Molecules to be secreted Vesicle SNARE Plasma membrane SNARE Secretory vesicle (a) (b)

7. Human Anatomy and Physiology, 7e by Elaine Marieb & Katja Hoehn Copyright © 2007 Pearson Education, Inc., publishing as Benjamin Cummings. Figure 3.13: Clathrin-mediated endocytosis, p. 79. Recycling of membrane and receptors (if present) to plasma membrane Cytoplasm Extracellular fluid Extracellular fluid Plasma membrane Detachment of clathrin- coated vesicle Clathrin- coated vesicle Uncoating Uncoated vesicle Uncoated vesicle fusing with endosome To lysosome for digestion and release of contents Transcytosis Endosome Exocytosis of vesicle contents Clathrin- coated pit Plasma membrane Ingested substance Clathrin protein (c) Receptor-mediated endocytosis Extracellular fluid Cytoplasm Bacterium or other particle Pseudopod Clathrin protein (b) Phagocytosis Clathrin protein Membrane receptor (a) Clathrin-mediated endocytosis 1 3 2

9. 2.3 The major endocrine glands and tissues in humans

12. Human Anatomy and Physiology, 7e by Elaine Marieb & Katja Hoehn Copyright © 2007 Pearson Education, Inc., publishing as Benjamin Cummings. Figure 16.3: PIP second-messenger mechanism of amino acid-based hormones, p. 608. PIP 2 IP 3 Receptor GTP Catecholamines TRH ADH GnRH Oxytocin Triggers responses of target cell GDP Extracellular fluid Cytoplasm Inactive protein kinase C Active protein kinase C Phospholipase C GqGq Ca 2+ Ca 2+ -calmodulin Hormone Endoplasmic reticulum DAG GTP 1 2 3 4 5 5 6

13. 2.4 The hypothalamus

14. 2.5 The pituitary gland

15. 2.6 Hypothalamic communication with the anterior and posterior pituitary

19. 2.7 The thyroid gland (Part 1)

20. 2.7 The thyroid gland (Part 2)

21. Figure 23.20

22. 2.8 The pancreas (Part 1)

24. Six primary hormones produced by the pancreas: 1.Insulin - causes cells in the liver, muscle and fat to uptake gluclose from the blood to store as glycogen in muscle and liver. 2. Glucagon – released when blood glucose levels are too low, causing the liver to convert stores of glycogen into glucose. The glucose is released into the bloodstream 3.Somatostatin - suppresses the release of various gastrointestinal hormones. 4.Ghrelin – hunger stimulating hormone 5.Pancreatic polypeptide – regulates secretion of the endocrine and exocrine chemicals of the pancreas. In humans, secretion is increased after a protein meal, fasting, exercise. 6.Amylin - functions as a synergistic partner to insulin, but seems to be more intimately involved in determination of the glycemic index than insulin in readings related to A1C.

26. 2.8 The pancreas (Part 2) Alpha cells will produce glucagon. Beta cells will produce insulin and amylin. Delta cells will produce somatostatin PP cells will produce pancreatic polypeptide. Epsilon cells will produce ghrelin.

28. 2.9 The adrenal glands (Part 1)

29. 2.9 The adrenal glands (Part 2)

30. 2.10 The pineal gland (Part 1)

31. 2.10 The pineal gland (Part 2)

34. This is the point where we have concluded Chapter 2 materials relevant to lecture exam #1. The remainder of the materials that follows will be part of lecture exam #2.

35. Figure 27.1

36. Figure 27.3a

37. 2.11 The testes

38. Figure 27.11

39. Figure 27.12a

40. Figure 27.12b

41. Figure 27.14a

42. 2.12 The ovaries (Part 1)

43. 2.12 The ovaries (Part 2)

44. 2.13 Protein and peptide hormone receptors

46. 2.14 A tyrosine kinase receptor

47. Human Anatomy and Physiology, 7e by Elaine Marieb & Katja Hoehn Copyright © 2007 Pearson Education, Inc., publishing as Benjamin Cummings. Active site Amino acids Enzyme (E) Enzyme-substrate complex (E-S) Internal rearrangements leading to catalysis Dipeptide product (P) Free enzyme (E) Substrates (S) Peptide bond H2OH2O +

48. 2.15 A G protein

49. 2.16 Signal amplification by second messengers

50. 2.20 Known amino acid sequences of releasing hormones (Part 1)

51. 2.20 Known amino acid sequences of releasing hormones (Part 2)

52. 2.21 Primary structures of species-specific forms of GnRH

55. 2.23 Primary structure of the nonapeptides secreted by the posterior pituitary

56. 2.25 Milk letdown is mediated by oxytocin (Part 1)

57. Figure 27.17

58. 2.25 Milk letdown is mediated by oxytocin (Part 2)

59. 2.26 Thyroid hormone synthesis

61. 2.28 Steroid chemical structure and nomenclature

62. 2.29 Steroid hormone receptors are generally located in the cytosol or nucleus of a cell

63. 2.30 Biochemical pathways in steroid formation (Part 1)

64. 2.30 Biochemical pathways in steroid formation (Part 2)

65. 2.31 Androgens (Part 1)

66. 2.31 Androgens (Part 2)

67. 2.32 Estrogens (Part 1)

68. 2.32 Estrogens (Part 2)

69. 2.33 Epinephrine, norepinephrine, and dopamine are catecholamines

70. 2.35 Models of negative and positive feedback

71. 2.36 Negative feedback

72. Box 2.1(A) Life cycle of the silkworm moth

73. Box 2.2 The Discovery of Secretin