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Assays / Cardiovascular
Biomarkers / Apolipoprotein E
Apolipoprotein E Polymorphisms
Apolipoprotein E contains 299 amino acids and an arginine-rich
glycoprotein. It is associated with VLDL, chylomicrons, chylomicron
remnants, intermediate density lipoproteins and with some cholesterol-rich
subclasses of HDL.
The structural gene for apo E is polymorphic, with 3 common alleles
(e2,e3,e4) coding for three isoforms of Apo E protein: E2, E3 and
E4. These differ in their amino acid sequence at positions 112 and
158. Apo E3, the prevalent allele, has cysteine at position 112
and arginine at position 158. In Apo E2 a cysteine residue replaces
arginine at position 158, whilst Apo E4 has arginine is both positions.
Individuals inherit one Apo E allele from each parent and the six
genotypes e2/2,e2/3e3/3,e2/4,e3/4,e4/4, encode 6 phenotypes.
Apo E isoforms differ in charge and can be phenotyped by isoelectric
focusing and immunoblotting. Genotyping is performed using PCR based
methods.
Clinical indications:
Homozygosity at the e2 locus is associated with the development
of type III dyslipidaemia or ‘remnant disease’. More
than 90% of patients with type III hyperlipidaemia express e2/e2.
Approximately 1% of the population are homozygous for e2/e2 but
only 1 in 50 of homozygotes develop type III hyperlipidaemia. Additional
factors are required and may include the development of hypothyroidism,
obesity, insulin resistance or diabetes.
Variation in apo E geno / phenotype is also believed to account
for approximately 8% variation in serum cholesterol concentration
at the population level, carriage of the e2 and e4 alleles being
associated with lower and higher serum cholesterol respectively.
The apo E geno / phenotype is also a marker of responsiveness to
cholesterol-lowering dietary and drug therapies that target either
cholesterol synthesis or absorption. This is largely due to an association
between apo E isoforms and cholesterol synthesis and absorption;
e2 carriers are high cholesterol synthesisers; e4 carriers are high
cholesterol absorbers.
Interpretation:
Apo E bands are visualised by UV transillumination compared to reference
primers. Patients with remnant (Type III) hyperlipidaemia are usually
homozygous for the Apo E2 allele which may be demonstrated by either
phenotyping or genotyping. Different degrees of protein post-translational
modification may give rise to misleading results, particularly in
pathological states such as diabetes mellitus, in which case genotyping
is more reliable. Rare alleles may not be detected by allele specific
genotyping methods. Mutations which do not alter electrophoretic
mobility will not be detected by phenotyping.
Patient preparation:
A non-fasting sample is adequate
Sample preparation and transport:
EDTA plasma is preferred for phenotyping. Genotyping requires EDTA
whole blood. Transport by first class post
Information required:
Age, sex, NHS/Hospital No.
Medication
References:
Utermann G, Hees M, Steinmetz A. Polymorphism of apolipoprotein
E and
occurrence of dysbetalipoproteinaemia in man. Nature. 1977;269:
604-7
Havekes LM, de Knijff P, Beisiegel U, Havinga J, Smit M, Klassen
E. A rapid micro method for Apolipoprotein E phenotyping directly
in serum. J Lipid Res 1987; 28: 455-63
Song Y, Stampfer MJ, Liu S. Meta-analysis: apolipoprotein E genotypes
and risk for coronary heart disease. Ann Intern Med. 2004; 141:
137-47
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