ChemPath: Hyperuricaemia and Gout Flashcards

1
Q

What are purines?

A

Ubiquitous Biomolecules

Adenosine, Guanosine and Inosine

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2
Q

What are the 3 important biological roles purines?

A

Genetic code A & G

Second messengers for hormone action in the form of cAMP and cGMP

Energy transfer/stores as ATP and GTP

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3
Q

What is the prevalence of gout?

A

3% of males have gout sometime in life. Lower prevalence in females.

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4
Q

Describe purine catabolism.

A

Purine is broken down into hypo-xanthine.

Hypo-xanthine is sequentially oxidised to xanthine by XANTHINE OXIDASE. Then oxidised to urate.

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5
Q

What is the difference between human and cow purine metabolism?

A

Cows (and other animals) have enzyme Uricase which converts urate to allantoin which is highly soluble and freely excreted in the urine.

Homosapiens have an inactive mutation of uricase.

Urate is relatively insoluble.

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6
Q

Urate is relatively _______ . It circulates in blood streams at a concentration close to its ______ of _______ . It is constantly on the brink of ________ out and forming ______ ______ _________ which are the aetiology of gout.

A

Urate is relatively insoluble. It circulates in blood streams at a concentration close to it limit of solubility. It is constantly on the brink of precipitating out and form uric acid crystals which are the aetiology of gout.

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7
Q

What are the normal plasma concentrations of monosodium urate?

A

Men 0.12 - 0.42 mmol/l

Women 0.12 - 0.36 mmol/l

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8
Q

What does solubility of urate depend on?

A

Temperature and pH.

Solubility at 37oC = 0.40 mmol/l At 30oC = 0.27 mmol/l

Lower pH –> solubility decreases

Cooler temperatures –> solubility decreases

This may be why the first MTP joint is the first to be affected - cooler temperature on the extremities

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9
Q

Describe renal urate handling.

A

Tubular urate handling leads to high concentration of urate.

Uric acid is reabsorbed and re-excreted at the PCT → 90% gets reabsorbed

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10
Q

What is the FEUA?

A

Fractional Excretion of Uric Acid is about 10%.

90% is reabsorbed which keeps the uric acid levels in circulation high and close to its limit of solubility,

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11
Q

What are the two main ways of purine synthesis?

A

De novo synthesis - this is metabolically hard work, insufficient in terms of energy use. only dominant in bone marrow. only done in high demand.

Salvage pathway - highly energy efficient. Recycles purines. Vast majority of purine synthesis via salvage pathway. done predominantely this way in all tissues

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12
Q

Which tissue does the de novo purine pathway dominate?

A

Bone marrow

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13
Q

What is the rate-limiting step in de novo purine synthesis? What are the positive and negative feedback mechanisms of this rate-limiting step?

A

The reaction catalysed by PAT enzyme is the rate-limiting step.

The outputs of the enzyme PAT are AMP and GMP which exert a negative feedback on PAT.

If PRPP levels increase this provides positive feedback on PAT.

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14
Q

What is the main enzyme in the purine salvage pathway?

A

HGPRT

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15
Q

What does HGPRT do?

A

It scoops up partially catabolised purines (hypoxanthine and guanine) and brings them back to the metabolic pathways of IMP and GMP.

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16
Q

What is Lesch-Nyhan syndrome?

A

Complete HGPRT deficiency. It is an X-linked disease. No HGPRT means you cannot do the salvage pathway of purine metabolism.

17
Q

What are the characteristics of Lesch-Nyhan syndrome?

A
  • Normal at birth
  • Developmental delay apparent at 6-12 months
  • Hyperuricaemia (e.g. gout in children)
  • Choreiform movements (1 year)
  • Spasticity, mental retardation
  • Self mutilation (85%) aged 1-16
18
Q

Describe the pathology of Lesch-Nyhan syndrome.

A

HGPRT is not synthesized

  1. No HPRT -> no conversion of guanine back to GMP or Hypoxanthine back to IMP
    o (NO SALVAGING PATHWAY POSSIBLE!!)
  2. Less IMP and GMP = Lack of inhibitory -ve feedback on PAT
  3. = de novo synthesis into overdrive
  4. Cells start to uncontrollably make IMP and this abundance of IMP results in abundance of urate
19
Q

How may causes of hyperuricaemia be divided?

A
  1. Increased urate production (e.g. Lesch Nyhan Syndrome)
  2. Decreased urate excretion (e.g. CKD, Thiazide Diuretics, Aspirin, Down’s)

Each of these can be divided into primary and secondary causes. Secondary increased urate causes are due to conditions where there is so much cell division/turnover that you overload the body’s ability to excrete urate.

20
Q

What are some causes of decreased urate excretion?

A

CKD, Thiazide Diuretics, Aspirin, Down’s

21
Q

In purine metabolism:

  1. The salvage pathway predominates over de-novo synthesis in most tissues
  2. Xanthine oxidase oxidises xanthine to uric acid
  3. HPRT is deficient in Lesch-Nyhan disease
  4. PAT (PRPP Amino Transferase) is the rate limiting enzyme
  5. PAT is under –ve feedback control from AMP and GMP
  6. All of the above
A
  1. All of the above
22
Q

What crystals are found in Gout?

A

Monosodium urate crystals

23
Q

What are other names of acute and chronic gout?

A

Acute = Podagra

Chronic = Tophaceous

24
Q

What is the prevalence of gout in males and females?

A

Males 0.5 - 3%

Females 0.1 - 0.6%

Most common in post pubertal males and post menopausal females

25
Q

Describe the pathology of gout.

A

When the limit of solubility drops below the prevailing concentration, precipitation occurs forming needle-shaped crystals which are powerful inflammatory stimuli for neutrophils and macrophages. These set up an intense immune reaction in the synovial of the joint.

Mostly arising from decreased urate excretion or increased urate production

26
Q

In chronic gout (tophaceous) you get cumulative deposition of uric acid in ______ ______. These can be _________ (next to joints such as in the fingers). Classically tophi deposits are found in the ___ ______. It looks like hard cheese.

A

In chronic gout (tophaceous) you get cumulative deposition of uric acid in soft tissue. These can be periarticular (next to joints such as in the fingers). Classically tophi deposits are found in the ear lobe. It looks like hard cheese.

27
Q

What are the clinical features of acute gout?

A
  • Rapid build up of pain
  • Exquisite
  • Affect joint red, hot and swollen
  • 1st MTP joint first site in 50%
  • This joint is involved in 90% overall
28
Q

What should you NOT do in management of acute gout?

A

Do not try to lower plasma urate levels in acute gout attacks. Paradoxically, acutely changing plasma urate levels can lead to further precipitation of crystals.

29
Q

What is the management of acute gout?

A

Main aim is to reduce inflammation.

- NSAIDS (diclofenac)

- Colchicine - inhibits polymerisation of tubulin. This inhibits microtubule assembly. Microtubules are needed for mitosis and motility of neutrophils. Decreased microtubule assembly means fewer neutrophils moving int the joint and reacting with crystals to set off and inflammatory reaction.

- Glucocorticoids - can massively decrease inflammation and may be injected into the joint or given systemically as prednisolone tables.

30
Q

Once an acute attack is over, hyperuricaemia may be managed. How is hyperuricaemia managed?

A

Management of chronic gout:

  1. Hydrate
  2. Allopurionol
    o Inhibits xanthine oxidase – decreased production
    o NEVER give it to someone with azathioprine (toxic leading to build up of purine metabolite)
  3. Probenecid
    o Increases urate excretion
31
Q

What are the side effects of allopurinol?

A
32
Q

In the treatment of Gout: 1. Allopurinol should be used acutely 2. NSAIDs are the first line treatment in acute attacks 3. Colchicine lowers urate levels 4. Allopurinol lowers urate levels by inhibiting HPRT 5. Allopurinol lowers urate levels by inhibiting xanthine oxidase

A
  1. NSAIDs are the first line treatment in acute attacks 5. Allopurinol lowers urate levels by inhibiting xanthine oxidase
33
Q

How is gout diagnosed?

A

Tap effusion of joint

View effusion under polarised light

Use a red filter

34
Q

What do you expect to see under polarised light microscopy with monosodium urate monohydrate crystals?

A

Urate crystals are negatively birefringent needle-shaped crystals. Negatively birefringent waves show up as blue perpendicular to the compensator filter axis and yellow parallel to the filter axis.

35
Q

What do you expect to see under polarised light microscopy with pyrophosphate crystals?

A

Pyrophosphate crystals are positively birefringent. They are blue parallel to the axis of the compensator filter and yellow perpendicular to the filter axis.

36
Q

In what sort of patients does pseudogout occur in?

A

Patients with osteoarthritis. It is self limiting 1 - 3 weeks.

37
Q

What sort of crystals are found in pseudogout?

A

Pyrophosphate

38
Q

What joints are affected in pseudogout?

A

Joints all around the body. Typically it affects the knee.