Uric Acid Metabolism

Question 1

What are purines?

Answer 1

They are ubiquitous molecules.

Question 2

What 3 molecules are purines?

Answer 2

Adenosine. Guanosine. Inosine.

Question 3

What are the three biological roles of purine?

Answer 3

They form part of the genetic code (A and G). They act as second messengers for hormone action (e.g. cAMP). They are involved in energy transfer (e.g. ATP).

Question 4

What process underlies gout.

Answer 4

Purine catabolism.

Question 5

What are the steps of purine catabolism?

Answer 5

purines –> hypo-xanthine hypo-xanthine –> xanthene (xanthine oxidase) xanthene –> urate (Xanthine oxidase) Urate –> allantoin (urlease not present in humans)

Question 6

What percentage of men are affected by gout?

Answer 6

3%

Question 7

What is the main pathology of gout?

Answer 7

Build up of urate, which is insoluble.

Question 8

What is the end product of purine metabolism in humans?

Answer 8

Urate.

Question 9

Why is gout so common?

Answer 9

Urate circulates in the blood stream at concentrations close to its limit of solubility.

Question 10

What is the plasma concentration of monosodium urate in men?

Answer 10

0.12-0.42mmol/L

Question 11

What is the plasma concentration of monosodium urate in women?

Answer 11

0.12-0.36mmol/L

Question 12

What effect does temperature have on urate?

Answer 12

More soluble at higher temperatures.

Question 13

What affects the solubility of urate? (2)

Answer 13

Temperature. pH.

Question 14

What effect will an acidic pH have on urate solubility?

Answer 14

Solubility falls with increasing acidity.

Question 15

What is the most commonly affected joint in gout?

Answer 15

First metatarsophalangeal joint of the foot.

Question 16

What organ is responsible for the excretion of urate?

Answer 16

Tubules of the kidneys.

Question 17

What happens to urate as it travels along the kidney tubule?

Answer 17

It is freely filtered at the glomerulus. It is both reabsorbed and secreted as it travels along the proximal convoluted tubule.

Question 18

Approximately what percentage of urate is reabsorbed by the kidney?

Answer 18

90%

Question 19

What do we call the percentage of urate that has been excreted into the collecting duct of the kidney?

Answer 19

Fractional Excretion of Uric Acid (FEUA).

Question 20

What are the two metabolic pathways used to create purines in the body. (2)

Answer 20

De Novo creation. Salvage Pathway.

Question 21

What is the preferred route of purine metabolism in the body?

Answer 21

Salvage pathway.

Question 22

What organ uses the de novo pathway for purine synthesis?

Answer 22

Bone marrow.

Question 23

What is the rate limiting step of purine synthesis?

Answer 23

PAT. This enzyme is under feedback inhibition control from AMP and GMP. (the more AMP and GMP, the less active PAT becomes) This enzyme is also subject to feedforward control from PPRP (the more PPRP, the more active PAT becomes)

Question 24

What enzyme brings partially catabolised purines back up the pathway for synthesis.

Answer 24

HPRT (also called HGPRT)

Question 25

What is the primary pathology in Lesch Nyhan Syndrome?

Answer 25

Complete HGPRT deficiency. Almost completely removes the negative feedback mechanism on PAT. This sends the de novo purine metabolic pathway into overdrive, over-producing purines, which are catabolised and accumulate as urate at the end of the pathway (in the blood). With no activation of the salvage pathway, PPRP also builds up, driving PAT even more.

Question 26

What is the incidence of Leisch Nyhan Syndrome?

Answer 26

1/40,000 live births.

Question 27

What is the inheritance of Leishc Nyhan Syndrome?

Answer 27

X-linked.

Question 28

What are the main clinical features of Leisch Nyhan Syndrome? (6)

Answer 28

Normal at birth. Developmental delay apparent by 6 months old. Hyperuricaemia (very rare in children). Choreiform movements by 1 year (basal ganglia dysfunction). Spasticity, mental retardation. Self-mutilation apparent in 85% by aged 1-16 (lip biting and finger-biting).

Question 29

What are the two main mechanisms of hyperuricaemia.

Answer 29

Increased urate production. Decreased urate excretion.

Question 30

What are the two main mechanisms of hypouricaemia.

Answer 30

Decreased urate production. Increased urate excretion.

Question 31

What are some primary causes of increased urate production? (5)

Answer 31

Lesch Nyham Syndrome. Partial HRPT deficiency. Glycogen Storage Disorders. Fructose Intolerance. PRPP Synthetase over Activity.

Question 32

What are some secondary causes of increased urate production? (6)

Answer 32

Myeloproliferative disorders. Lymphoproliferative disorders. Carcinomatosis. Chronic Haemolytic anaemia. Gaucher’s disease. Severe psoriasis.

Question 33

What is a primary cause of decreased urate excretion?

Answer 33

FJHN.

Question 34

What are some secondary causes of decreased urate excretion? (6)

Answer 34

CKD. Bartter’s Syndrome. Down’s Syndrome. Saturnine Gout (Pb). Diuretics. Aspirin.

Question 35

What are some causes of decrease urate production? (3)

Answer 35

Xanthine oxidase deficiency. Severe hepatic disease. Appopurinol.

Question 36

What are some causes of increased urate excretion? (4)

Answer 36

Idiopathic hypouricaemia. Fanconi Syndrome. Uricosuric drugs. URATI inactivation.

Question 37

What is gout.

Answer 37

Accumulation of monosodium urate crystals in tissues and joints.

Question 38

What is the prevalence of gout. (2)

Answer 38

Men: 0.5-3% Women: 0.1-0.6%

Question 39

What two age groups are most often affected by gout.

Answer 39

Post-pubertal males. Post-menopausal females.

Question 40

What are the main clinical features of gout? (2)

Answer 40

Rapid build up of pain. Affected joint is red, hot and swollen.

Question 41

What word do patients often use to describe the pain caused by gout?

Answer 41

Exquisite.

Question 42

In what percentage of cases is the 1st MTP joint affected in gout?

Answer 42

Involved in over 90% of cases.

Question 43

How often is the 1st MTP joint affected first in gout?

Answer 43

50%

Question 44

What is the diagnostic test for gout?

Answer 44

Polarised light microscopy.

Question 45

What steps are involved in the diagnosis of gout? (3)

Answer 45

Tap effusion of affected joint. View under polarised light using a red filter.

Question 46

What filter must be used when undergoing microscopy for gout?

Answer 46

Red filter in a polarised light microscope.

Question 47

What are you looking for microscopically to diagnose gout?

Answer 47

Negatively birefringent urate crystals.

Question 48

What do urate crystals look like under polarised light microscopy?

Answer 48

Blue and perpendicular. Negatively birefringent.

Question 49

What are the two main steps in managing gout? (2)

Answer 49

Reducing inflammation during an acute attack.

Managing hyperuricaemia.

Question 50

How do you manage an acute attack of gout? (3)

Answer 50

NSAIDs.

Colchicine.

Glucocorticoids.

Question 51

What is the mechanism of action of colchecine.

Answer 51

Inhibits polymerisation of tubulin. Tubulin is involved in cell division.

Given short term, it reduces the motility of neutrophils, so prevents the inflammatory reaction to the urate crystals in the joint.

Question 52

What must never be done during an acute attack of gout.

Answer 52

Never attempt to modify plasma urate concentraion.

Question 53

How do you manage hyperuricaemia (gout) long-term? (4)

Answer 53

Drink plenty of water.

Reverse factors that increase urate (e.g. beer, offle)

Reduce synthesis with allopurinol.

Increase renal excretion with probenecid.

Question 54

What is the main drug-drug interaction that must be considered with allopurinol.

Answer 54

Interacts with azathioprine, increasing bone marrow toxicity.

Azathioprine is a pro-drug, which is metabolised to mercaptopurine and then to thionosinate which intereferes with purine metabolism.

Mercaptopurine is metabolised by xanthine oxidase.

Allopurinol makes the levels of mercaptopurine last linger, increasing the levels of urate in the system.

Question 55

What is pseudogout.

Answer 55

Caused by an accumulation of pyrophospate crystals in the tissues and joints.

Question 56

What other condition is pseudogout associated with.

Answer 56

osteoarthritis.

Question 57

How long does a pseudogout attack last?

Answer 57

1-3 weeks (self-limiting)

Question 58

How do pyrophosphate (pseudogout) crystals differ to urate (gout) cystals under polarised light?

Answer 58

Positively birefringent and blue when parallel to the filter.