Structure and function of the renal tubule

Question 1

What happens in the renal tubule?

Answer 1

→ Filtered fluid is converted to urine

Question 2

What is the composition of glomerular filtrate?

Answer 2

→Same composition as plasma except that there are no cells and very little protein

Question 3

When does urine formation begin?

Answer 3

→ large amounts of fluid that is free of protein is filtered from the glomerular capillaries into the Bowman’s Capsule.

Question 4

What is the glomerular filtrate?

Answer 4

→ An ultrafiltrate of plasma

Question 5

What is reabsorption?

Answer 5

→moving from the tubular lumen into the peritubular capillary
→ returning wanted substances into the blood

Question 6

What is secretion?

Answer 6

→ moving from the peritubular capillary plasma into the tubular lumen

Question 7

What is excretion?

Answer 7

→ how unwanted substances are cleared into the urine

Question 8

What is the pathway substances have to take to be reabsorbed?

Answer 8

→cross the luminal membrane
→ diffuse through the cytosol
→ across the basolateral membrane
→ into the blood

Question 9

What is active transport?

Answer 9

→ Moving a molecule against its concentration gradient

→ requires energy

Question 10

What is passive transfer?

Answer 10

→ Passive movement down the concentration gradient

Question 11

What is co-transport?

Answer 11

→ Movement of one substance down its concentration gradient

→ allows the transport of another substance against its concentration gradient

Question 12

What is a symport transporter?

Answer 12

→ transported species move in the same direction

Question 13

What is an antiport transporter?

Answer 13

→ transported species move in opposite directions

Question 14

What is the sodium-glucose transporter called in the kidney?

Answer 14

→ SGLT-2

Question 15

What is the effect of SGLT-2 inhibitors?

Answer 15

→ don’t allow glucose to be carried across with sodium into the peritubular capillaries

Question 16

What are the techniques used to investigate tubular functions in humans?

Answer 16

→ Clearance studies

Question 17

What are the techniques used to investigate tubular functions in animals?

Answer 17

→ Micropuncture & isolated perfuse tubule

→ Electrophysiological analysis

Question 18

How is micropuncturing done?

Answer 18

→ isolate the nephron

→ sample tubular fluid in different parts of the nephron

Question 19

How is the electrical potential measured?

Answer 19

→ Micropipettes are inserted into the cell

→PD is measured across the whole cell epithelium

Question 20

What is patch clamping for?

Answer 20

→The current flow through an individual ion channel is measured

Question 21

How is patch clamping done?

Answer 21

→ A blunt tip pipette is pressed against the cell membrane

Question 22

What cells is the nephron made from?

Answer 22

→ a single layer of epithelial cells resting on a basement membrane

Question 23

What are the 7 parts of the nephron?

Answer 23

→ PCT 
→Thin Descending limb 
→ Thin ascending limb 
→ Thick ascending limb 
→ DCT 
→ Collecting duct 
→ Medullary collecting duct

Question 24

What are the two types of nephron?

Answer 24

→ Cortical nephron

→Juxta-medullary nephron

Question 25

What do juxta medullary loops do?

Answer 25

→ they have a long loop of Henle | → They are better at concentrating urine

Question 26

What percentage of each type of nephron do humans have?

Answer 26

→ 85% cortical | → 15% juxta medullary

Question 27

What are the efferent arterioles in the juxtamedullary nephrons divided into?

Answer 27

→ Specialized capillaries (vasa recta) | → they extend downward into the medulla and lie side by side with loops of Henle

Question 28

Where is the PCT?

Answer 28

→ Adjacent to the Bowmans capsule

Question 29

What are the adaptations of the PCT for transport?

Answer 29

→ Mitochondria for active transport → Brush border on the luminal side which gives a large surface area for rapid exchange →Enzymatic proteins and carriers → the PCT has a high permeability

Question 30

How much is filtered at the PCT?

Answer 30

→ 65-70% of the filtered load

Question 31

What is Fanconi's syndrome?

Answer 31

→ Proximal tubule reabsorptive mechanisms are defective so glucose, amino acids, Na+, K+ are all found in the urine

Question 32

What are the 3 functional segments of the loop of Henle?

Answer 32

→ Thin descending → Thin ascending → Thick ascending

Question 33

What is the structure of the thin ascending & descending loops?

Answer 33

→ Thin epithelial cells → No brush border → few mitochondria → low metabolic activity

Question 34

What is the structure of the thick ascending loop?

Answer 34

``` → Thick epithelial cells → Extensive intracellular folding → Few microvilli →Many mitochondria → High metabolic activity ```

Question 35

What is the function of the loop of henle?

Answer 35

→ role in diluting and concentrating urine | → adjusts the rate of water secretion/absorption

Question 36

What are the permeabilities of the loop of henle?

Answer 36

→ Only the descending limb is permeable to water | → the other two are impermeable to water

Question 37

What do the loop diuretics do?

Answer 37

→ act causing 20% of filtered Na+ to be excreted

Question 38

Describe how the countercurrent multiplier works

Answer 38

→on the ascending limb side there are a lot of Na+/K+ pumps → They pump Na+ out all the time → Salt accumulates in the interstitial space around the loop of Henle → It pulls water out of the descending limb via osmosis →water cannot be reabsorbed by the ascending limb → as fluid flows down the osmolality increases → all the fluid is more concentrated →as the fluid moves out it is hypo-osmotic

Question 39

What maintains the medullary osmotic gradient?

Answer 39

→the vasa recta forms in a countercurrent to the loop of henle →water can diffuse into the blood → Salts can diffuse into the loop of henle

Question 40

What is the first part of the DCT and what is it linked to?

Answer 40

→ Macula densa | → Juxtaglomerular complex

Question 41

What does the macula densa do?

Answer 41

→ provides feedback control of the GFR

Question 42

What are the functions of the DCT?

Answer 42

→ Solute reabsorption without H2O absorption → high Na+/K+ ATPase activity in the basolateral membrane → dilution of tubular fluid → Role in acid base balance via the secretion of NH3

Question 43

How can you make the DCT permeable to water?

Answer 43

→ using ADH

Question 44

What are the collecting ducts formed from?

Answer 44

→ joining collecting tubules

Question 45

What are the 2 types of cells in the collecting ducts?

Answer 45

→ intercalated cells | → principal cells

Question 46

What kind of epithelium is in the collecting duct?

Answer 46

→ cuboidal epithelia

Question 47

What is the collecting duct permeable to?

Answer 47

→ urea | → made permeable to H2O by ADH

Question 48

What do intercalated cells do?

Answer 48

→ Involved in acidification of urine and acid-base balance

Question 49

What do principal cells do?

Answer 49

→ Play a role in Na balance and ECF volume regulation

Question 50

Where is ADH made and stored?

Answer 50

→ In the hypothalamus | → In the pituitary gland

Question 51

How does ADH concentrate urine?

Answer 51

→ triggering the kidney tubules to reabsorb water back into bloodstream

Question 52

What is the most important effect of ADH?

Answer 52

→ conserve body water by reducing the loss of water in the urine

Question 53

What is the most important variable in regulating ADH secretion?

Answer 53

→ Plasma osmolality

Question 54

What are changes in osmolality sensed by?

Answer 54

→ osmoreceptors

Question 55

What happens when an osmoreceptor detects changes in osmolality?

Answer 55

→triggers ADH secretion from the posterior pituitary → taken to the kidneys → make the collecting duct permeable to water

Question 56

How does ADH/ vasopressin cause the collecting duct to be more permeable to water?

Answer 56

1) ADH binds to its V2 receptors on the peritubular capillary wall 2) it leads to the insertion of aquaporins into the luminal membrane near the collecting duct 3) water is removed from the urine 4) it stimulates the synthesis of new aquaporins

Question 57

What is urea?

Answer 57

→ Waste products formed in the liver during metabolic breakdown of proteins

Question 58

How does urea enter the glomerular filtrate?

Answer 58

→ It filters freely through the glomerulus and passes down the tubule

Question 59

How is urea reabsorbed from the collecting duct?

Answer 59

→ as water is reabsorbed from the CD → Urea is concentrated so that it moves out → absorbed into the surrrounding capillaries and into the interstitium of the medulla → contributes to the osmotic gradient around the loop of Henle

Question 60

What do increasing urea levels in the kidney indicate and why?

Answer 60

→ pre-renal failure | → reabsorption is enhances

Question 61

How are urea levels in the kidney monitored?

Answer 61

→ Blood urea nitrogen test

Question 62

What happens to the collecting duct during water deprivation?

Answer 62

→ ADH acts → Aquaporins are inserted → small urine volume - less dilute

Question 63

What happens to the collecting duct during water excess?

Answer 63

→ no ADH acts → water remains in the CD → large urine volume - more dilute

Question 64

What kind of fluid enters the collecting duct?

Answer 64

→ Hypo-osmotic fluid

Question 65

What are the 4 factors that allow the medullary osmotic gradient to be maintained?

Answer 65

→ Active transport of Na+ and co-transport of K+ and Cl- out of the thick ascending limb into the medullary interstitium → Active transport of ions from collecting duct into the interstitium → Facilitated diffusion of urea from collecting ducts into the medullary interstitium → Little diffusion of water from ascending limbs of tubules into medullary interstitium

Question 66

What is polycystic kidney disease?

Answer 66

→ genetic disorder characterized by growth of numerous cysts in the kidney

Question 67

What are diseases of the glomerulus called?

Answer 67

→ glomerulonephritis

Question 68

What happens in diseases of the glomerulus?

Answer 68

→ inflammation of glomeruli or some or all of the nephrons | → can be primary or secondary to things like diabetes

Question 69

What are the two diseases of the tubules?

Answer 69

→ Obstruction | →Impairment of transport functions

Question 70

How can hypertension lead to kidney damage?

Answer 70

→ Kidneys regulate ECF and influence BP | → compensatory mechanisms in response to high BP leads to chronic kidney damage

Question 71

How can congestive cardiac failure lead to kidney damage?

Answer 71

→ Fall in cardiac output → renal hypoperfusion → registered as hypovolaemia → compensation results in pulmonary oedema

Question 72

How does diabetic nephropathy lead to kidneys being damaged?

Answer 72

→ Filtering system of the kidneys get destroyed over time

Question 73

What does lithium treatment result in?

Answer 73

→acquired nephrogenic diabetes insipidus | → reduced aquaporin 2 expression