1. http://www.youtube.com/watch?v=hXysuAt_U9s

2. Excretion removal of metabolic waste Protein and nucleic acid metabolism  nitrogen containing compounds does not include feces

3. Excretion is an example of homeostasis Prevent build up of toxic wastes within our body Contribute to water balance in our body

4. Organs Responsible for Excretion

5. Composition of Urine solution of metabolic waste Water (mostly) urea and uric acid salts organic compounds

6. Compounds within asparagus are metabolized Produce a byproducts that contain sulfur

7. fluid for urine comes from filtered blood extracellular fluid (ECF)

8. Forms of Nitrogenous Waste Urea Ammonia Uric Acid

9. deamination – removal of amine group Occurs in the liver Byproducts are sent to the kidneys for further processing

10. Urea product of two other waste molecules ammonia, NH 3 (very toxic) carbon dioxide, CO 2 ammonia released when liver breaks down proteins 0.005 mg NH 3 is lethal reacts with CO 2 to produce less toxic urea 100 000x less toxic than NH 3 Ammonia

11. Uric Acid product of nucleic acid breakdown specifically of purine bases

12. Role of Kidneys 1. Removal of wastes Urea, uric acid and other materials are filtered through the kidney and excreted 2. Water balance average person loses 2L of liquids a day suggested to consume 2L H 2 O / day

13. Excretion: Ameoba Ameoba remove waste and excess water through a contractile vacuole.

14. Excretion: Fish Fish can excrete ammonia directly through their gills.

15. Excretion: Birds Birds excrete uric acid directly with feces.

16. Excretion: Earthworms capillary network bladder collection tubule nephridiopore nephrostome

17. AKA The Kidney

18. Role of Kidney 1. blood filtration 2. waste excretion 3. acid / base balance 4. blood pressure regulation 5. hormone secretion

19. Kidney Structure renal cortex – outside of kidney; location of Bowman’s capsule renal medulla (lobes) – middle of kidney; location of loop of Henle renal pelvis – location of the ends of collecting ducts

20. Kidney Blood Flow Blood enters the kidney through the renal artery. renal arteries stem from the aorta Carry oxygenated blood Filtered blood exits the kidney through the renal vein. renal veins flow into the inferior vena cava Carry de-oxygenated blood

22. Nephron Functional unit of the kidney Responsible for the formation of urine A million nephrons make up the kidney

23. Blood and the Nephron Blood from renal artery is filtered through nephrons. Nephrons collect liquid to be excreted Filtered blood is returned to renal vein

24. The renal artery is split into afferent arterioles. blood brought to glomerulus; a capillary bed. blood leaves through the efferent arterioles no veins involved Efferent arterioles are the beginning of a network of peritubular capillaries, that wrap around the nephron. Renal artery

25. Glomerulus and Bowman’s Capsule Filtrate A fferent Arteriole E fferent Arteriole

26. From the bowman’s capsule: fluids to become urine flow to narrow proximal tubule urine flows through loop of Henle urine flows through distal tubule Urine from multiple nephrons flow into the collecting duct.

27. Urine Flow Urine leaves the renal pelvis through the ureters and travels to the bladder. Fluid leaves the body through the urethra. When ~200 mL of urine has collected in the bladder, the walls stretch and signals are sent to the brain. At ~600 mL, urine will involuntarily be released. ureters

28. Nephron Structure afferent arteriole efferent arteriole glomerulus Bowman’s capsule proximal tubule Loop of Henle distal tubule collucting duct

29. Urinary System aorta inferior vena cava renal artery renal vein kidney ureter bladder urethra renal cortex renal medulla renal pelvis nephrons ureter

30. Question Athletes now undergo random urine testing for drugs. Describe the pathway of drugs through the urinary system, from the time they enter the glomerulus until they are excreted in the urine.

31. Homework Quiz Question 1

32. Homework Quiz Question 2 You are sick and take an antibiotic. Describe the pathway of the drug through the urinary system, starting from the aorta to the toilet!

33. Passive transport. Substances move spontaneously down their concentration gradients, crossing a membrane with no expenditure of energy by the cell. The rate of diffusion can be greatly increased by transport proteins in the membrane. Active transport. Some transport proteins act as pumps, moving substances across a membrane against their concentration gradients. Energy for this work is usually supplied by ATP. Diffusion. Hydrophobic molecules and (at a slow rate) very small uncharged polar molecules can diffuse through the lipid bilayer. Facilitated diffusion. Many hydrophilic substances diffuse through membranes with the assistance of transport proteins, either channel or carrier proteins. ATP

35. Three Functions of Urine Formation 1. Filtration – movement of fluids from the blood in the glomerulus to the Bowman’s capsule 2. Reabsorption – transfer of fluids from nephron into peritubular capillaries 3. Secretion – transfer of fluids from peritubular capillaries into nephron Filtration. Reabsorption. Secretion. Excretion. Capillary Excretory tubule Filtrate Urine 1 2 3 4 interstitial fluid

36. Filtration Water and solutes flow from the glomerulus into Bowman’s capsule due to high blood pressure flow 65 mmHg vs. normall ~ 25 mmHg Semi-permeable membrane Red blood cells, platelettes and some blood proteins are too large to fit through the filtration slits and pores. Filtration. Reabsorption. Secretion. Excretion. Capillary Excretory tubule Filtrate Urine 1 2 3 4

37. Nutrient Flow SoluteGlomerulus  Bowman’s Capsule? wateryes NaClyes H + ionsyes amino acidsyes glucoseyes plasma proteinsno red blood cells (erythrocytes) no plateletsno

38. Reabsorption reclaims valuable substances from the filtrate and returns them to the body fluids. Water, salt and nutrients saves us from having to continuously replenish our body with fluid. Filtration. Reabsorption. Secretion. Excretion. Capillary Excretory tubule Filtrate Urine 1 2 3 4 Reabsorption 20% of fluid flowing into kidney is filtered into nephrons; however less than 1% of the fluid in the nephron is used to make urine. A LOT OF REABSORPTION!

39. Secretion Other substances are extracted from body fluids and added to the contents of the nephron toxins and excess ions Filtration. Reabsorption. Secretion. Excretion. Capillary Excretory tubule Filtrate Urine 1 2 3 4

40. Reabsorption Secretion Filtration. Reabsorption. Secretion. Excretion. Capillary Excretory tubule Filtrate Urine 1 2 3 4 Diffusion. Hydrophobic molecules and (at a slow rate) very small uncharged polar molecules can diffuse through the lipid bilayer. Facilitated diffusion. Many hydrophilic substances diffuse through membranes with the assistance of transport proteins, either channel or carrier proteins. ATP protein transporters move wastes from blood to interstitial fluid to nephron protein transporters move nutrients into interstitial fluid and blood kidney tissue will only reabsorb a certain level of nutrients – threshold level

41. The Details…

42. 1. Bowman’s Capsule High pressure filter water and dissolved solutes leave glomerulus; enter Bowman’s capsule water Na + H + Cl - glucose amino acids vitamins minerals urea uric acid

43. 2. Proximal Tubule Selective reabsorption of nutrients (need transporters) Secretion of H+ and ammonia pH determined by HCO 3 - reabsorption and H + secretion H + NH 3 HCO 3 -, K + Na +, Cl - H 2 O amino acids glucose vitamins

44. 3. Loop of Henle – Descending Limb Nephron membrane only permeable to H 2 O (osmosis) and impermeable to salt Reabsorption of water As fluids travel down the loop of henle, the fluids within the tube become more concentrated. H2OH2O

45. 4. Loop of Henle – Ascending Limb only permeable to salt (need ionic transporters) and not permeable to water Reabsorption of salt As fluids travel up the loop of henle the fluid is becoming less concentrated NaCl

46. 5. Distal Tubule Selective reabsorption of nutrients (need transporters) Secretion of H+, ammonia and K+ pH determined by HCO 3 - reabsorption and H + secretion H + NH 3 K + HCO 3 - Na +, Cl - H 2 O

47. 6. Collecting Duct Urine formation by concentration of nephron fluid Any urea and urine that is reabsorbed is less than that was filtered into nephron Why is some urea reabsorbed? Contributes to the formation of a hypertonic interstitial fluid causes water to be reabsorbed CONCENTRATING THE URINE NaCl urea water

48. Proximal tubule Filtrate H 2 O Salts (NaCl and others) HCO 3 – H + Urea Glucose; amino acids Some drugs Key Active transport Passive transport CORTEX OUTER MEDULLA INNER MEDULLA Descending limb of loop of Henle Thick segment of ascending limb Thin segment of ascending limb Collecting duct NaCl Distal tubule NaClNutrients Urea H2OH2O NaCl H2OH2O H2OH2O HCO 3  K+K+ H+H+ NH 3 HCO 3  K+K+ H+H+ H2OH2O 1 4 3 2 3 5

49. H2OH2O H2OH2O H2OH2O H2OH2O H2OH2O H2OH2O H2OH2O NaCl 300 100 400 600 900 1200 700 400 200 100 Active transport Passive transport OUTER MEDULLA INNER MEDULLA CORTEX H2OH2O Urea H2OH2O H2OH2O H2OH2O H2OH2O H2OH2O H2OH2O 1200 900 600 400 300 600 400 300 Osmolarity of interstitial fluid (mosm/L) 300 Osmolarity – concentration of solutes in a solution, the higher the Osmolarity, the more concentrated the solution, the better it is able to pull water towards it.

50. http://www.biologymad.com/resources/kidney.swf

51. Diabetes (Type II) Not enough insulin released from pancrease High levels of glucose in the blood Why do you think that individuals with Type II Diabetes (untreated) (a) Excrete a large amount of gluose in the urine? (b) Excrete large amounts of urine?

52. Kidney Stones crystallization of some urine solutes a 2 – 3 mm stone can obstruct flow to the ureter Treatment: increased water consumption surgery

53. Homework/Classwork 7.3 – Pg. 345 #1-4,6 7.4 – Pg. 348 #1-3 7.5 – Pg. 352 #2-8 Homework Quiz next class!