ChemPath: Porphyrias

Question 1

What is porphyria?

Answer 1

Disorders caused by deficiencies in enzymes of the haem synthesis pathway

• This leads to the accumulation of toxic haem precursors
• Deficiency of enzymes range for partial to complete

Question 2

What are the two ways in which porphyria can manifest?

Answer 2

• Acute neuro-visceral attacks
• Acute or chronic cutaneous symptoms

Question 3

List some key features of haem.

Answer 3

• Organic heterocyclic compound
• Fe2+ in the centre
• There is a pyrolic (tetrapyrole) ring around the iron

Question 4

What are the 2 major functions of haem?

Answer 4

• Carry oxygen
• Faciliate redox reactions

Question 5

Where is haem found?

Answer 5

Made in all cells

Question 6

Which 2 cell types do porphyrias typically affect?

Answer 6

Erythroid and hepatic

Question 7

Draw the haem synthesis pathway.

Answer 7

Question 8

Which intermediate of the haem biosynthesis pathway is neurotoxic?

Answer 8

Aminolevulinic acid (ALA)

Causes neuro-visceral symptoms

Question 9

What types of porphyrin may be produced in the absence of iron?

Answer 9

• Metal-free protoporphyrins
• Zinc protoporphyrin

Question 10

How can porphyrias be classified?

Answer 10

Principle site of enzyme deficiency:

• Erythroid
• Hepatic

Clinical presentation:

• Acute or non-acute
• Neurovisceral or skin lesions

Question 11

Outline the pathophysiology of skin lesions in porphyria

Answer 11

Photosensitivity - porphyrinogens are oxidised and then activated by UV light into activated porphyrins. Activated porphyrins damage skin cells and trigger inflammatory pathways

NOTE: porphyrinogens do NOT oxidise cells

Question 12

What is a key difference between porphyrinogens and porphyrins?

Answer 12

Porphyrinogens

• Precursor to porphyrins
• Colourless
• Unstable and readily oxidised to corresponding porphyrin

Porphyrins

• Highly coloured

Question 13

Which porphyrins appears in the urine and which appear in faeces?

Answer 13

• Porphyrins near start of the pathway are water soluble – urine (uro-)
• Porphyrins near end less soluble – faeces (copro-)

NOTE: someone with AIP will have dark red/brown urine due to porphyrin accumulation

Question 14

List four types of acute porphyria and the enzymes involved.

Answer 14

1. Plumboporphyria - PBG synthase
2. Acute intermittent porphyria - HMB synthase
3. Hereditary coproporphyria - coproporphyrinogen oxidase
4. Variegate porphyria - protoporphyrinogen oxidase

Question 15

List three types of non-acute porphyria and the enzymes involved.

Answer 15

• Congenital erythropoietic porphyria - uroporphyrinogen III synthase
• Porphyria cutanea tarda - uroporphyinogen decarboxylase
• Erythropoietic protoporphyria - ferrochelatase

Question 16

What is the most common type of porphyria?

Answer 16

Porphyria cutanea tarda

Question 17

What is the most common type of porphyria in children?

Answer 17

Erythropoietic protoporphyria (EPP)

Question 18

What does ALA synthase deficiency cause?

Answer 18

X-linked sideroblastic anaemia

NOT a porphyria!

Question 19

How can a mutation in ALA synthase lead to porphyria?

Answer 19

A gain-of-function mutation will results in increased throughput through the pathway leading to a build-up in protoporphyrin IX as it overwhelms the ability of ferrochetolase to convert it into haem.

Similar clinical picture to EPP

Question 20

What are the main features of PBG synthase deficiency?

Answer 20

• Causes acute porphyria
• Extremely rare
• Leads to accumulation of ALA
• Abdominal pain (most important feature)
• Neurological symptoms (e.g. coma, bulbar palsy, motor neuropathy)

Question 21

Which deficiency causes acute intermittent porphyria? What is its inheritance pattern?

Answer 21

HMB synthase (aka PBG deaminase)
Autosomal dominant

Question 22

Outline the clinical features of acute intermittent porphyria (AIP)

Answer 22

Neurovisceral attacks:

• GI symptoms - abdominal pain, vomiting, constipation
• Neurological - polyneuropathy (paresthesia, weakness), seizures
• GU symptoms - bladder dysfunction, red/brown urine
• Autonomic dysfunction - tachycardia and hypertension
• Psychiatric - hallucinations, anxiety, insomnia

Important: there are NO skin symptoms (because no porphyrinogens are produced)

NOTE: 90% will be asymptomatic

Question 23

What is the mechanism behind the symptoms in AIP?

Answer 23

Rise in PBG and ALA

Question 24

List some precipitating factors for acute intermittent porphyria.

Answer 24

• ALA synthase inducers e.g. steroids, ethanol, anticonvulsants (CYP450 inducers), barbiturates
• Stress (infection, surgery)
• Starvation/reduced caloric intake
• Endocrine factors - sex hormones

Question 25

Describe how acute intermittent porphyria is diagnosed.

Answer 25

Urinary PBG and ALA - raised in both

Question 26

How is acute intermittent porphyria acute attack managed?

Answer 26

• IV haem arginate (switches off haem synthesis through negative feedback)
• IV carbohydrate loading (inhibits ALA synthase) - second line if haem arignate not avaliable

Avoid attacks (adequate nutrition, avoid precipitant drug, prompt treatment of other illnesses)

Question 27

Name two acute porphyrias that have skin manifestations. State the enzymes affected.

Answer 27

• Hereditary coproporphyria - coproporphyrinogen oxidase
• Variegate porphyria - protoporphyrinogen oxidase

NOTE: Generally speaking the acute porphyrias are neurovisceral and the chronic porphyrias are cutaneous

Question 28

What is the negative consequence of accumulation of coproporphyrinogen III and protoporphyrinogen IX?

Answer 28

• They are potent inhibitors of HMB synthase
• Results in the accumulation of PBG and ALA - hence neurovisceral symptoms

Question 29

What are the main clinical features of hereditary coproporphyria?

Answer 29

• Autosomal dominant
• Acute neurovisceral attacks
• Photosensitivity skin lesions (blistering, skin fragility, classically on the backs of the hands that tend to appear hours/days after sun exposure)

Question 30

What are the features of variegate porphyria?

Answer 30

• Autosomal dominant
• Acute attacks with skin lesions

Question 31

How can acute porphyrias be differentiated symtpoms-wise?

Answer 31

• AIP - no skin lesions
• Hereditary coproporphyria and variegate porphyria - skin lesions

Question 32

Which marker is raised in both AIP plus HCP and VP

Answer 32

Urine PBG

Question 33

How can hereditary coproporphyria and variegate porphyria be differentiated from acute intermittent porphyria biochemically?

Answer 33

Urine and stool porphyrins - raised in HCP and VP, but not in AIP

NOTE: DNA analysis offers a definitive diagnosis

Question 34

What is a common feature of non-acute porphyria?

Answer 34

Only present with skin lesions with NO neurovisceral manifestations

Question 35

List the enzymes associated with non-acute porphyria.

Answer 35

• Uroporphyrinogen III synthase - congenital erythropoietic porphyria
• Uroporphyrinogen decarboxylase - porphyria cutanea tarda
• Ferrochelatase - erythropoietic protoporphyria

Question 36

What is the main clinical feature of non-acute porphyria?

Answer 36

• Skin blisters, fragility, pigmentations and erosions
• Occuring hours to days after sun exposure

Question 37

What are the key features of erythropoietic protoporphyria?

Answer 37

NON-BLISTERING and presents with photosensitivity, burning, itching, oedema following sun exposure

Question 38

What is a key investigation for erythropoietic protoporphyria?

Answer 38

Erythrocyte protoporphyrin

NOTE: only RBCs are affected

Question 39

Which enzyme is deficient in porphyria cutanea tarda?

Answer 39

Uroporphyrinogen decarboxylase

Leads to the accumulation of uroporphyrinogen III which is converted into uroporphyrin in the skin by UV

(Enzyme deficiency can be inherited or acquired)

Question 40

What are the clinical features of porphyria cutanea tarda?

Answer 40

Formation of vesicles on sun-exposed areas of skin crusting, superficial scarring and pigmentation

Question 41

How is PCT diagnosed biochemically?

Answer 41

• Raised urine/serum porphyrins
• Ferritin is often increased

Question 42

Which drug can cause acquired porphyria cutanea tarda?

Answer 42

Hexachlorobenzene

Question 43

What haematological condition are erythropoietic protoporphyria and congenital erythropoietic porphyria associated with?

Answer 43

Myelodysplastic syndromes

Question 44

During acute porphyria, what is the most useful sample to send?

Answer 44

Urine (for PBG and ALA levels)

Question 45

What clincial implication of porphyrias is important for doctors?

Answer 45

Have to be careful prescribing drugs as they could preciptate an attack