INHERITANCE
OF PORPHYRIA
BASIC PRINCIPLES
Each individual carries two
copies or alleles of
every gene: one on each chromosome.
During the process of sexual
reproduction, reproductive
cells split by meiosis
such that each sperm cell
or ovum contains only one
allele, on one chromosome.
During fertilization, ovum
and spermatozoon fuse, thus
bringing together one allele
from father and one from mother
to provide a full complement.
The
diagram shows how, with two
possible alleles to inherit
from mother and two from father,
a child may inherit four possible
combinations of alleles.
PATTERNS OF INHERITANCE
Autosomal dominant
forms of porphyria
These are:
- Variegate porphyria
- Acute intermittent porphyria
- Hereditary coproporphyria
Inheritance
of a mutation on a single
allele (inherited from either
mother or from father) is
sufficient for the disease
to manifest. Such patients
are heterozygous for
the porphyria. Both sexes
are equally affected, the
disease does not skip generations
and there is frequently a
history of the porphyria in
other family members.
Autosomal recessive
forms of porphyria
These are:
- Congenital erythropoietic
porphyria
- ALA dehydratase deficiency
porphyria
The disease
does not manifest unless both
alleles carry mutations. Thus
both mother and father must
be carriers. The two mutations
may be the same, in which
case the patient is homozygous,
or may be different, in which
case the more correct term
is double heterozygous.
Both sexes are equally affected,
but the disease frequently
skips generations and there
is often no family history.
Porphyria with
complex inheritance
This applies
to erythropoietic protoporphyria
(EPP). Though EPP is basically
an autosomal dominant disorder,
there is evidence that the
disease only presents clinically
when a mutation on one allele
is accompanied by a so-called
"low-expression"
allele on the other chromosome.
This low-expression allele,
though in itself resulting
in disease, does not produce
sufficient amounts of the
normal enzyme to compensate
for the mutant enzyme produced
by the other allele. The consequence
is that EPP often resembles
an autosomal recessive
disorder in its inheritance.
Acquired porphyria
(sometimes with autosomal
dominant inheritance)
Porphyria
cutanea tarda (PCT)is usually
an acquired disorder. We refer
to this as sporadic PCT.
Both alleles are normal and
the disease is therefore not
inherited. The disease
is precipitated by an inhibition
of the enzyme in response
to factors such as alcohol
and iron loading.
Approximately
20% of cases are however inherited.
This is known as familial
PCT, and is transmitted as
an autosomal dominant trait.
There is evidence that even
in familial PCT, clinical
disease usually only manifests
where the enzyme produced
by the normal allele is further
inhibited by exposure to the
same factors which may
precipitate sporadic PCT (
such as alcohol and iron overload
associated with sporadic PCT).
VARIABLE EXPRESSION
Many patients
who inherit a gene for porphyria
will never express the disease
clinically. Our own studies
suggest that approximately
40% of patients who inherit
the typical South African
(R59W) mutation for variegate
porphyria will show neither
skin disease nor acute attacks.
The proportion of asymptomatic
patients with acute intermittent
porphyria is even higher.
HOMOZYGOUS FORMS OF AUTOSOMAL
DOMINANT PORPHYRIAS
Patients with the
autosomal dominant form of porphyria
require only a single mutated allele
for disease to manifest. Very rarely,
an individual is unfortunate enough
to inherit two mutations
(one each from father and mother).
This typically results in a very
severe form of the porphyria. In
South Africa, we have identified
four young VP patients with unusually
severe symptoms who are double
heterozygotes: they have the
common South African R59W mutation
on one allele (inherited from one
parent), and another, uncommon mutation
on the other allele (inherited from
the other parent). These patients
are described in Homozygous
variegate porphyria.
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