1. Hormones 1

2. A hormone is a chemical released by a cell or a gland in one part of the body that sends out messages that affect cells in other parts of the organism. 2

3. Endocrine hormone molecules are secreted (released) directly into the blood stream. Exocrine hormones (or ectohormones) are secreted directly into a duct, and, from the duct, they flow either into the bloodstream or from cell to cell by diffusion in a process known as paracrine signalling. 3

4. Video (AP1 EPITHELIA EXOCRINE & ENDOCRINE GLANDS) 4

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7. Chemically, hormones are of four types: 1. Hormonal amine. 2. Peptide, protein, or glycoprotein. 3. Steroid. 4. Eicosanoid. 7

8. 1. Hormonal Amines 8

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10. 2. Steroid Hormones 10

11. Four kinds of steroid hormones differ in structure and action; they are the androgens (C19), the estrogens (C18), the progestins (C21), and the corticosteroids (C21). All are synthesized from cholesterol. 11

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13. 3. Peptide, Protein, and Glycoprotein Hormones 13

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15. Mechanism of Hormone Action 15

16. Hormone receptors can be classified into three types on the basis of their locations in the cell and the types of hormone they bind: Nuclear receptors, which bind triiodothyronine (T 3 ) after it enters the cell. 16

17. Cytosolic receptors Cell surface receptors Cytosolic receptors, which bind steroid hormones as they diffuse into the cell. Cell surface receptors, which detect water-soluble hormones that do not enter the cell (peptides, proteins, glycoproteins, catecholamines). 17

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20. Nuclear receptors of thyroid hormones 20

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22. Video Video (Thyroxine _ Mechanism of Action of Thyroid Hormones) 22

23. Steroid Hormone Receptors 23

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25. Video Video (Steroid Hormones _ Mechanism of Action) 25

26. Cell Surface Receptors intracellular second messenger is utilized to implement the hormonal action and involves: 1.G-protein-coupled adenylate cyclase cAMP system. 2.G-protein-coupled Phosphatidylinositol Ca 2+ pathway. 26

27. G-Protein-Coupled Adenylate Cyclase- cAMP System 27

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31. G-Protein-Coupled Phosphatidylinositol-Ca 2+ Pathway 31

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34. Video Video (How Hormones Use G-protein Signaling Pathways_ A Video Review of the Basics) 34

35. Hypothalamus 35

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37. Hypophysiotropic Peptides released by hypothalamus 37

38. Thyrotropin-releasing hormone (TRH) Thyrotropin-releasing hormone is a tripeptide amide. TRH principally stimulates the synthesis and release of thyroid-stimulating hormone (TSH, thyrotropin) in the anterior pituitary, and also stimulates the release of prolactin (PRL). Both effects are mediated by membrane receptors coupled to the G Qα -phospholipase C-β-calcium- protein kinase C second-messenger system. 38

39. 2.Gonadotropin-releasing hormone (GnRH) or luteinizing hormone-releasing hormone (LHRH) 2.Gonadotropin-releasing hormone (GnRH) or luteinizing hormone-releasing hormone (LHRH) Gonadotropin-releasing hormone (GnRH) is a decapeptide which, like TRH, has a pyroglutamic acid residue in its N terminus. GnRH stimulates the release of luteinizing hormone (LH) and follicle-stimulating hormone (FSH), the two gonadotropic hormones produced by the pituitary. 39

40. 3. Corticotropin-releasing hormone (CRH) 3. Corticotropin-releasing hormone (CRH) Corticotropin-releasing hormone is a 41-amino- acid polypeptide. CRH stimulates the release of ACTH and β- endorphin by the anterior pituitary corticotrophs. 40

41. 4. Growth hormone-releasing hormone (GHRH) 4. Growth hormone-releasing hormone (GHRH) Growth hormone-releasing hormone (GHRH) is a 44-amino-acid polypeptide. GHRH stimulates the synthesis and release of GH in anterior pituitary somatotrophs by a cAMP-mediated mechanism. 41

42. 5.Somatostatin 5.Somatostatin Somatostatin (growth hormone release-inhibiting hormone) is a tetradecapeptide with an intrachain disulfide bridge. Somatostatin inhibits the synthesis and release of GH from the somatotropes by neutralizing the effect of GHRH, an effect mediated by G iα inhibition of adenylyl cyclase. Within the hypothalamus, somatostatin inhibits the release of GHRH by the same mechanism and therefore exerts an inhibitory effect at two levels of GH control. 42

43. 6.Prolactin-inhibiting hormone (PIH) 6.Prolactin-inhibiting hormone (PIH) It is known as dopamine. It functions as a neurotransmitter in the CNS and as a precursor of norepinephrine and epinephrine in the adrenal medulla. Dopamine is a potent inhibitor of PRL release by the lactotropes (and mammosomatotropes) of the anterior pituitary, and this effect is mediated by D 2 receptors that are coupled to G iα inhibition of adenylate cyclase. 43

44. Neurohypophyseal Peptides ADH (Vasopressin) 44

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47. Video Video (Antidiuretic Hormone (ADH); Osmoregulation) 47

48. Oxytocin 48

49. The principal action of oxytocin is ejection of milk from the lactating mammary gland ("milk let- down"), and it also participates in parturition. The mechanism of action of oxytocin does not involve cAMP but may involve regulation of increased intracellular Ca 2+. 49

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51. Video Video (How the Body Works _ Milk Let Down) 51