Drugs acting on the kidney

Question 1

List the types of drugs which act on the kidney

Answer 1

Diuretics
Vasopressin receptor agonist
Vasopressin receptor antagonists 
Inhibitor of sodium-glucose co-transporter 2
Uricosuric drugs
Renal failure drugs
pH altering drugs

Question 2

What are uricosuric drugs?

Answer 2

Drugs which increase excretion of uric acid

Question 3

What do diuretics do?

Answer 3

Increase urine flow by inhibiting reabsorption of electrolytes at various points within the nephron (water follows salt)

Question 4

Why are diuretics useful?

Answer 4

The help correct conditions where the interstitial fluid volume is too high (e.g oedema)

Question 5

What is oedema?

Answer 5

An imbalance in the rate of formation and the rate of absorption of interstitial fluid causing tissue swelling

Question 6

What is the equation for formation of interstitial fluid?

Answer 6

(Capillary hydrostatic pressure - hydrostatic pressure of interstitial fluid) - (capillary oncotic pressure - interstitial oncotic pressure)

Question 7

Which disease states induce oedema and by affecting which starling forces?

Answer 7

Nephrotic syndrome
Congestive heart failure
Hepatic cirrhosis + ascites

Increased capillary hydrostatic pressure
Decreased capillary oncotic pressure

Question 8

What is nephrotic syndrome?

Answer 8

Disorder of nephrotic filtration allowing proteins such as albumin to appear in the filtrate (albuminuria and proteinuria)

Question 9

Describe how nephrotic syndrome causes oedema

Answer 9

Decreased capillary oncotic pressure –>
Increased formation of interstitial fluid (oedema)–>
Decreased blood volume and cardiac output –>
Activation of RAAS –>
Sodium and water retention –>
Increased capillary hydrostatic pressure and decreased capillary oncotic pressure (oedema)

Question 10

What is congestive heart failure?

Answer 10

Heart failure caused by decreased cardiac output

Question 11

How does congestive heart failure cause oedema?

Answer 11

Reduced cardiac output –>
Reduced renal perfusion –>
Activation of RAAS –>
Increased blood volume –>
Increased capillary and venous hydrostatic pressure & reduced capillary oncotic pressure –>
Increased interstitial fluid volume (pulmonary and peripheral oedema)

Question 12

How does hepatic cirrhosis cause oedema?

Answer 12

Increased hepatic portal veinous pressure (inc hydrostatic) &
Decreased production of albumin & protein (dec oncotic) ->
Loss of fluid into peritoneal cavity (i.e ascites) –>
Decreased circulating volume activates RAAS

Question 13

When does risk of circulatory collapse and thrombosis occur with diuretic use?

Answer 13

Overuse of diuretics

Question 14

Describe the major sites and methods of sodium absorption within the nephron

Answer 14

Proximal tubule - sodium hydrogen exchanger & sodium channels
Loop of Henle - thick ascending limb has triple cotransporter
Distal tubule - sodium hydrogen exchanger & sodium chlorine cotransporter
Collecting duct - sodium potassium exchanger

Question 15

Describe how sodium absorption is blocked by each class of diuretics

Answer 15

Loop - blocks triple co-transporter within loop of Henle
Thiazide - block sodium chloride co-transporter
Carbonic anhydrase inhibitors - blocks sodium hydrogen exchanger
Potassium sparing diuretics - blocks sodium potassium exchanger

Nb - remember where these transporters are found within the nephron

Question 16

How does small inhibition of transport mechanisms affect sodium reabsorption?

Answer 16

Marked increased in excretion (sodium usually reabsorbed)

Question 17

Which membrane of tubular cells do diuretics act upon? Why is the relevant?

Answer 17

Apical membrane

Drugs must enter the tubular filtrate

Question 18

How do diuretics enter the filtrate?

Answer 18

Glomerular filtration (not bound to plasma protein)
Secretion in the proximal tubule (organic anion and cation transporters)

Question 19

Which type of drugs do organic anion and cation transporters secrete respectively?

Answer 19

Anion - acidic

Cation - basic

Question 20

Explain how organic anion transporters work

Answer 20

Organic anions enter cells via diffusion or OATs when exhanged for an alpha-ketoglutarate –>

Alpha-ketoglutarate transported into the cell against its concentration gradient via sodium dicarboxylate cotransporter –>

At apical membrane anion enters the lumen via multidrug resistant protein 2 OR OAT4 (exchanged for alpha-ketoglutarate)

Question 21

Explain how organic cation transporters work

Answer 21

Organic cation enter cells via diffusion or OCT driven by negative intracellular charge concentration gradient –>

At apical membrane cation enters lume via multidrug resistant protein 1 OR cation hydrogen antiporters (OCTN)

Question 22

How do loop diuretics work? What effect does this have?

Answer 22

They block the triple cotransporter (sodium, potassium and two chloride ions) by binding to the chloride site at the thick limb of the ascending loop of Henle

Decreases tonicity of medulla meaning that fluid thus preventing hypotonic distal tubule filtrate formation –>
Inc sodium, potassium, calcium and magnesium excretion

Question 23

Name two loop diuretics

Answer 23

Furosemide

Bumetanide

Question 24

Loop diuretics act rapidly. T/F

Answer 24

True

Question 25

What indirect effect do loop diuretics have?

Answer 25

Venodilator (beneficial to pulmonary oedema caused by heart failure)

Question 26

Do loop diuretics bind to plasma proteins? How do they enter the nephron?

Answer 26

Yes! Organic anion transporter

Question 27

List the clinical indications for loop diuretics

Answer 27

Reduce salt and water overload
Increase urine volume in acute kidney failure
Treat hypertension (resistance to other drugs - renal insufficiency)
Reduce acute hypercalcaemia

Question 28

Which conditions are associated with salt and water overload (oedema)?

Answer 28

Acute pulmonary oedema
Chronic heart failure
Chronic kidney failure
Nephrotic syndrome
Hepatic cirrhosis with ascites

Question 29

What are the side effects of loop diuretics?

Answer 29

Hypokalemia 
Increased toxicity of digoxin & class III antirhythmatics 
Hypocalcaemia and hypomagnesium 
Hypovolaemia and hypotension (elderly)
Metabolic acidiosis (inc. H+ secretion)
Hyperuricaemia

Question 30

How can hypokalaemia cause by loop diuretics be corrected?

Answer 30

Concomitant use of potassium sparing diuretic

Potassium supplement

Question 31

How do thiazide diuretics work?

Answer 31

Block of the sodium chloride cotransporter in the distal tubule by binding to cholride site –>

Decreases tonicity of medullary fluid, increase sodium and potassium excretion and increase calcium reabsorption

Question 32

Name two thiazide diuretics

Answer 32

Bendoflumethiazide (bendrofluazide)

Hydrochlorothiazide

Question 33

Which diuretic is more effective loop or thiazide?

Answer 33

Loop causes greater excretion of sodium (& hence water)

Question 34

What indirect effect do thiazide diuretics have? Why is this relevant?

Answer 34

Vasodilator. Useful in the management of hypertension

Question 35

How do thiazide diuretics enter the nephron?

Answer 35

Organic anion transporter

Question 36

What are the clinical indications for thiazide use?

Answer 36

Mild heart failure
Hypertension 
Resistant oedema (with loop)
Nephrolithiasis (dec excretion of calcium)
Nephrogenic diabetes insipidus

Question 37

What causes nephrogenic diabetes insipidus?

Answer 37

Reduced responsiveness to vasopressin by collecting ducts

Question 38

What are the side effects of thiazide diuretics?

Answer 38

Hypokalaemia
Metabolic acidosis
Hypovolaemia and hypotension (elderly)
Hypomagnesium
Decreased male sexual function
Impaired glucose tolerance 
Hyperuricaemia (gout)

Question 39

What type of hormone is aldosterone and what does it do?

Answer 39

Steroid
Increases synthesis of sodium potassium channels
Increases synthesis of protein which produces epithelial sodium channels (ENaC)

Question 40

What type of hormone is vasopressin and what does it do?

Answer 40

Peptide

Increases aquaporins in the cell membrane

Question 41

What type of receptors do aldosterone and vasopressin act on respectively?

Answer 41

Aldosterone - cytoplasmic

Vasopressin - g-protein coupled

Question 42

What do potassium channels (ROMK) do?

Answer 42

Secrete potassium into the collecting tubule (recycling of potassium helps with sodium absorption)

Question 43

How do loop and thiazide diuretics cause potassium loss?

Answer 43

Increased sodium caused by diuretics caused increased reabsorption of sodium –>
Lumen becomes more negative and depolarises apical & basolateral membrane –>
Potassium follows charge gradient and secretion is increased (same for hydrogen)–>
Increased urinary flow rate washes away potassium (& hydrogen) –>
Hypokalaemia & metabolic acidosis

Question 44

Name four potassium sparing diuretics and explain how they work respectively

Answer 44

Amiloride
Triamterene
Block apical sodium channel thus decrease sodium reabsorption

Spironolactone
Eplerenone
Compete with aldosterone for binding to intracellular receptors –>
decrease gene expression for protein which activates sodium channels & decreases number of sodium potassium bumps in basolateral membrane

Question 45

What are the effects of spironolactone and similar drugs modulated by?

Answer 45

Aldosterone levels

Question 46

Is amiloride well or poorly absorbed from the GI tract?

Answer 46

Poorly absorbed

Question 47

How do amiloride and similar drugs enter the collecting tubules?

Answer 47

Organic cation transport system

Question 48

What are the clinical indications of potassium sparing diuretics and aldosterone antagonists respectively?

Answer 48

In conjunction with other diuretics (given alone will cause hyperkalemia)

Increase affect of diuretics by blocking RAAS system
Primary hyperaldosteronism (conn’s)
Secondary hyperaldosteronism (cirrhosis & ascites)
Resistant hypertension
Heart failure

Question 49

Name an aldosterone antagonist

Answer 49

Spironolactone

Question 50

Name two osmotic diuretics

Answer 50

Mannitol

Sorbitol

Question 51

How are osmotic diuretics administered? Why?

Answer 51

IV. They cannot cross the plasma membrane as they are polyhydric alcohols

Question 52

Osmotic diuretics are filtered and reabsorbed in equal measure. T/F

Answer 52

False - they are filtered but not reabsorbed

Question 53

How do osmotic diuretics affect the tubular filtrate? What effect does this have?

Answer 53

They make the filtrate hyperosmotic thereby attracting water into the filtrate

Question 54

Where within the nephron do osmotic diuretics have their effect? Why?

Answer 54

Proximal tubule

This is normally where most iso-osmotic water reabsorption occurs (because it’s freely permeable)

Question 55

What secondary effect do osmotic diuretics have? Why?

Answer 55

Decrease in sodium reabsorption

Increased fluid in filtrate dilutes sodium and deceases the electrochemical gradient for reabsorption

Question 56

When are osmotic diuretics indicated?

Answer 56

Prevention of acute hypovolaemic renal failure (maintain urine flow)
Raised intracranial pressure
Raised intraocular pressure

Question 57

How do osmotic diuretics decrease intracranial/ocular pressure?

Answer 57

Increased plasma osmolarity causes water to move from these compartments into the blood

Question 58

When does osmotic diuresis occur outside of pharmacological induction?

Answer 58

Hyperglycaemia

Use of iodine-based radio-contrast dyes in imaging

Question 59

How does osmotic diuresis occur in diabetes?

Answer 59

Glucose levels are so high that the active transport mechanisms reach transport maximum and hence cannot reabsorb all glucose. Hypertonic filtrate attracts water and urine volume is massively increased

Question 60

How do iodine-based radio-contrast dyes cause osmotic diuresis?

Answer 60

Dye filtered but not absorbed. Hypertonic fluid attracts water and urine volume is increased

Question 61

What is the risk of iodine-based radio-contrast dyes in relation to osmotic diuresis?

Answer 61

Reduction of intravascular volume (as water moves into tubule) may cause hypotension in patients with CVS conditions

Question 62

Name a carbonic anhydrase inhibitor

Answer 62

Acetazolemide

Question 63

What is the problem with carbonic anhydrase inhibitors as diuretics?

Answer 63

Weak diuretics which lose their effectiveness over time

Question 64

What do carbonic anhydrase inhibitors do?

Answer 64

Inhibit carbonic anhydrase resulting in

• Increased excretion of bicarbonate
• Increased excretion of sodium
• Increased excretion of potassium
• Increased excretion of water

Eventually causing alkaline urine and metabolic acidosis

Question 65

What are carbonic anhydrase inhibitors used for?

Answer 65

Glaucoma
Post eye surgery
Infantile epilepsy (occasionally)
Altidude sickness prophylaxis

Question 66

Why are carbonic anhydrase inhibitors useful in eye pathology?

Answer 66

Reduce intra-ocular pressure by suppressing production of aqueous humour by reducing it’s bicarbonate dependent sodium induced formation

Question 67

Why are carbonic anhydrase inhibitors useful in altitude sickess?

Answer 67

Altitude sickness has been linked to CSF disturbance

CSF production by the choroid plexus is dependent on carbonic anhydrase

Question 68

Why can alkaline urine be useful? How can it be induced?

Answer 68

Relief of dysuria
Prevention of crystallization of weak, poorly soluble acids (i.e stone formation)
Excretion of weak acids (e.g aspirin overdose)

Carbonic anhydrase inhibitors
Citrate calls

Question 69

Degree of ionisation of weak acid increases with pH. T/F

Answer 69

True

Question 70

Where is aldosterone secreted from?

Answer 70

Adrenal cortex (zona glomerulosa)

Question 71

Where is vasopressin secreted from?

Answer 71

Posterior pituitary gland

Question 72

Which two factors induce aldosterone secretion?

Answer 72

Increased potassium concentration

Activation of RAAS (angiotensin II)

Question 73

What does aldosterone do? How?

Answer 73

Increases sodium (& salt) reabsorption
Decreases potassium reabsorption 

Binds to cytoplasmic steroid receptor –>

• increased synthesis of sodium potassium ATPase &
• increased synthesis of mediator protein activating ENac &
• prevents internalisation of ENaC

Question 74

What does vasopressin do? How?

Answer 74

Increased water reabsorption

Binds to vasopressin 2 g-protein coupled receptors on basolateral membrane –>

• increase in intracellular cyclic AMP –>
  
  • increase in number of aquaporins on apical membrane

Question 75

How does diabetes insipidus present?

Answer 75

Polydipsia
Polyuria
Urine copious and dilute

Question 76

What is diabetes insipidus?

Answer 76

Disturbance of vasopressin either neurogenic or nephrogenic in origin

Question 77

Explain neurogenic and nephrogenic diabetes insipidus respectively

Answer 77

Neurogenic - lack of ADH production

Nephrogenic - lack of ADH sensitivity

Question 78

How is neurogenic diabetes insipidus treated?

Answer 78

Desmopressin (i.e vasopressin analogue)

Question 79

Desmopressin’s effect on vasopressin receptors can induce hypetension. T/F

Answer 79

False - desmopressin is V2 specific and it is V1 receptors which are involved in hypertension

Question 80

How do nicotine and alcohol effect ADH activity?

Answer 80

Alcohol decreases activity
Nicotine increases activity

Nb - ecstasy also decreases activity hence the dehydration risk

Question 81

Desmopressin can be used for enuresis in children over 10. T/F

Answer 81

True - NOT recommended for use in those over 65

Question 82

What causes nephrogenic diabetes insipidus? How common is it?

Answer 82

Mutations (usually X-linked) in V2 receptor

Uncommon

Question 83

How is nephrogenic diabetes insipidus treated?

Answer 83

No pharmacological treatment available

Question 84

What external factors can induce nephrogenic diabetes?

Answer 84

Lithium (bipolar disorder)
Democlocycline (antibiotic / block to vasopressin in excessive secretion)
“-vaptans”

Question 85

Which sex is affected by nephrogenic diabetes insipidus?

Answer 85

Male

Question 86

What are vaptans?

Answer 86

Competative antagonists of vasopressin receptors (V1a,b & 2)

Question 87

What is the difference between an aquaretic and a diuretic?

Answer 87

Aquaretic - water loss without sodium loss

Diuretic - sodium loss causing water loss

Question 88

What effect on plasma osmolarity do aquaretics have?

Answer 88

Increase

Question 89

How do vaptans work?

Answer 89

Binds to vasopressin receptors causing G protein coupling to activate adenylate cyclase –>
Cyclic AMP activates protein kinase A –>
Causes vesicles containing aquaporin 2 channels to insert into apical membrane –>
Increased water reabsorption

Question 90

What do the different vasopressin receptors do?

Answer 90

V1A - arteriolar smooth muscle (vasoconstriction)

V2 - kidney tubules (water balance)

Question 91

What is the effect of vasopressin 2 receptor antagonism?

Answer 91

Excretion of water without sodium loss (aquaresis) –>

Increased sodium plasma concentration

Question 92

Name two vaptans and state which receptors they act on

Answer 92

Conivaptan - V1A & 2

Tolvaptan - V2 specific

Question 93

When are vaptans useful?

Answer 93

Possibly heart failure - hypervolaemic hyponatraemia

Syndrome of inappropriate ADH secretion to increase sodium (tolvaptan)

Question 94

Where and how is glucose reabsorbed in the nephron?

Answer 94

Proximal tubule

Sodium glucose co-transporter 1 & 2

Question 95

When does glucose appear in the urinary filtrate?

Answer 95

Transport maximum of renal tubule reached

Question 96

Where are SGLT 1 & 2 found respectively? How is this relevant to clinical practive?

Answer 96

SGLT 1 - intestine (enterocytes) and kidney (more distal than SGLT 2)

SGLT 2 - proximal tubule (kidney)

SGLT 2 selective drugs will only affect renal absorption of glucose

Question 97

SGLT 1 is responsible for most of renal glucose reabsorption. T/F

Answer 97

False - SGLT 2

Question 98

Is reabsorption of glucose by active transport or facilitated diffusion?

Answer 98

Secondary active transport - apical/tubular membrane

Facilitated diffusion - basolateral membrane

Question 99

Describe the secondary active transport of glucose

Answer 99

Glucose reabsorbed against concentration gradient coupled to electrochemical gradient of sodium

Question 100

State the stoichiometry of the SGLT transporters

Answer 100

SGLT 1 - two sodium to one glucose

SGLT 2 - one sodium to one glucose

Question 101

State the respective affinities and capacities of the SGLT transporters

Answer 101

SGLT 1 - high affinity low capacity
SGLT 2 - low affinity high capacity

Remember - glucose is highest in proximal tubule

Question 102

What does SGLT2 inhibition result in? What condition might this be confused for?

Answer 102

Glucosuria

Familial renal glucosuria (benign)

Question 103

Name three SGLT2 inhibitors

Answer 103

Canagliflozin
Dapagliflozin
Empaggliflozin

Question 104

Are SGLT2 inhibitors insulin dependent or independent?

Answer 104

Independent

Question 105

What are the effects of SGLT2 inhibitors?

Answer 105

Excretion of glucose (glucosuria)
Lowered HbA1c
Weight loss (calorific and mild osmotic diuresis)

Question 106

What is the commonest side effect of SGLT2 inhibitors? Why?

Answer 106

Fungal infections (thrush)
Increased colonisation of genital bacteria due to increased glucose

Question 107

What are prostaglandins?

Answer 107

Molecules derived from arachidoinic acid (membrane fatty acid) by COX enzymes

Question 108

What type of molecules are prostaglandins?

Answer 108

Prostanoids

Question 109

COX2 is expressed during inflammation and tissue trauma. T/F

Answer 109

True

Question 110

Name the two main kidney prostaglandins and where they are produced within the kidney

Answer 110

Prostaglandin E2 - medulla

Prostaglandin I2/prostacyclin - glomeruli (macula densa)

Question 111

What do the renal prostaglandins do?

Answer 111

Naturetic (promote sodium loss)

Vasodilators (local effect on kidney)

Question 112

What are the synthesised in response to?

Answer 112

Angiotensin II
Mechanical trauma
Ischemia
ADH
Bradykinin

Question 113

What effects do the renal prostaglandins have on the renal blood flow and glomerular filtrate rate?

Answer 113

Normally - minimal

Vasoconstriction +/- decreased blood flow - vasodilation

Question 114

How do prostaglandins affect glomerular filtration rate?

Answer 114

Vasodilation of afferent arteriole

Vasoconstriction of efferent arteriole (activate RAAS)

Question 115

What type of drugs may precipitate acute renal failure? When? How?

Answer 115

NSAIDS in conjunction with

• cirrhosis
• heart failure
• nephrotic syndrome

Inhibit COX which is essential for prostaglandin formation ->
Decreased GFR

Question 116

What drugs make up the “triple whammy” effect on the liver which causes acute renal failure in individuals with pathology? Why?

Answer 116

ACE/ARBS (RAAS blocking)
Diuretics (dec volume)
NSAIDs (inhibit COX)

All decrease GFR in some way

Question 117

What is metabolised to produce uric acid?

Answer 117

Purines

Question 118

What condition does high uric acid predispose to?

Answer 118

Gout

Question 119

Name two uricosuric agents

Answer 119

Probenecid

Sulfinpyrazole

Question 120

How might uricosuric agents be useful in the treatment of gout?

Answer 120

Block reabsorption of urate in the proximal tubule

Question 121

What is a better drug, in managing gout, than uricsuric acids? Why?

Answer 121

Allopurinol

Inhibits urate production