1. Endocrine vs Exocrine –Overview of hormone function: Regulation of growth & development Homeostatic control Control of reproductive system –Three Characteristics are: Host Gland Hormones Target Cells

2. –Nature of Hormones Derived from steroid compounds Derived from amino acids Lipid-based hormones

3. Control of Hormone Secretion –Hormonal – Ex. Hypothalamus secretes hormones that affect the pituitary gland –Humoral – blood levels, bile and ion concentrations stimulate hormone release –Neural – Adrenal Medulla

5. Steroid Hormones -Lipid soluble -Diffuse through cell membranes; receptors located within cell -Chemical structure is derived from or is similar to cholesterol  Secreted by adrenal cortex, ovaries, testes

7. Nonsteroid Hormones -Hormones travel in the blood to their specific target organs. - Receptors are specific to hormones such that only the correct hormone will "fit" in the correct receptor. Each cell has 2,000 to 10,000 specific receptors

9. Alteration in Number of Receptors Down-regulation—Decrease in number of cell receptors; less hormone can bind to the cell and higher concentrations of the hormone remain in the blood plasma Up-regulation—Increase in number of cell receptors; more hormone can bind to the cell and lower concentrations of the hormone remain in the blood plasma

10. Key Points about Hormones Hormones are classified into steroidal types (lipid soluble and formed from cholesterol) or nonsteroidal types (nonlipid soluble and formed from amino acids, peptides, or proteins). Hormones are secreted in the blood and travel to sites where they exert an effect on only those target cells that have receptors specific to that hormone. Steroid hormones pass through cell membranes and bind to receptors within the cell. They synthesize protein via a process called direct gene activation.

11. THE PITUITARY GLAND

12. Hormones of the Pituitary Gland Posterior lobe Anterior lobe

14. Hormones of the Thyroid Gland Triiodothyronine (T3) and Thyroxine (T4) Increase protein and enzyme synthesis Promote rapid cellular uptake of glucose Increase FFA availability for oxidation The parathyroid gland produces parathyroid hormone (PTH), which regulates plasma calcium concentration and plasma phosphate by targeting the bones, intestines, and kidneys.

15. Hormones of the Adrenal Medulla Catecholamines—epinephrine and norepinephrine Stimulated by sympathetic nervous system to prepare you for immediate action Increase rate and force of heart contraction, blood pressure, and respiration Increase metabolic rate, glycogenolysis, and release of glucose and FFA into blood

16. Hormones of the Adrenal Cortex Mineralocorticoids  Maintain electrolyte balance in extracellular fluids  Include aldosterone Glucocorticoids  Maintain consistent plasma glucose levels between meals  Include cortisol Gonadocorticoids  Released in addition to those released by reproductive organs but in lesser amounts

17. Hormones of the Pancreas Insulin—secreted when plasma glucose levels are elevated (hyperglycemia) Glucagon—secreted when plasma glucose concentrations are below normal (hypoglycemia); Increases blood glucose levels

18. Reproductive Hormones Androgens Estrogens Testosterone

20. Opioids Endorphins –Exercise High or Runner’s High

21. Last Key Points about Hormones, Metabolism and Energy Glucagon, epinephrine, norepinephrine, and cortisol help promote glycogenolysis and gluconeogenesis, thus increasing plasma glucose levels when needed. Insulin facilitates glucose transport to the muscle fibers. Cortisol accelerates lipolysis, releasing FFAs into the blood so they can be taken up by the cells and used for energy production.