The gen of apolipoprotein E, as the main component of apoproteins in the chylomicron, codes a protein of 299 amino acids and has been used extensively as a genetic marker of risk in the development of Alzheimer's dementia type, and alterations in the way organism metabolizes fat.1,2 Its fundamental role in the transport of lipoproteins and in the homeostatic maintenance of the lipids in organs as liver and brain3 makes that his genotype be very important as a pathologic indicator.

The most common APOE alleles are E2, E3, and E4, which are differentiated by cysteine/arginine interchanges at codons 112 (TGC) and 158 (CGC) of its peptide.4 There are numerous studies focused in the analysis of these gene variants and showing as each one affects the right function and expression of the gen and the physiologic impact that they are able to stimulate.5-7

In Caucasian Europeans, the allele E2 is associated with diabetes and hypercholesterolemia1, but with a lesser risk of dementia,8 contrary on data registered for the allele E4 which has been identified as a strong risk factor in several diseases including dyslipemia, atherosclerosis, coronary artery disease, and dementia type Alzheimer.9 The isoform E3 with a frequency of 70-80% is associated to a normal function of the gene APOE in these populations.10

It is worldwide considered that the distribution of the allelic frequencies APOE follows the same tendency E3>E4>E2. However, different studies reassure the idea that the distribution of these polymorphisms differs from one population to another, being distinctive of each ethnic group, region and country.11 The afrodescendant population characterizes for a considerable rise in the frequency of the allele E4 (while for the rest of the general population there are reports of frequencies less than 15%, the black people community presents a prevalence up to 25%),12 in other way, the South American native's area is characterized by the absence of the allele E2.13 The high frequency (>70%) of the allele E3 in the different populations studied might be influenced by biochemical factors, eating habits and the ethnic origin.14

Colombian studies with mestizo population from Bogotá, Antioquia and Barranquilla have shown that there are no significant differences in APOE allele frequencies for this population, possibly due to the genic flux between the Colombian center and north-east,15 and possibly related too with Indo-European ancestry of this population.16 When native population were considered, the APOE frequencies were different to the presented in mestizo population.17,18 These studies clearly indicate that the APOE heterogeneity is not exclusive of Indo-European population, but it's also present in South American indigenous, whose absence of allele E2 is remarkable. Additionally, factors as population ancestry, immigration and admixture can explain this APOE heterogeneity in the different analyzed populations.

The afrodescendant population show patterns of ancestry differentiated from the other ethnic groups, that's why it is of interest for APOE heterogeneity study. There are not known studies in Colombia where the afrodescendant population are involved in an exclusive manner. The municipality of Buenaventura was founded in 1540, it is located in Department of Valle del Cauca, south western Colombia, it has a population of 415 640 inhabitants, with a component of 88.5% of afrodescendant,19 which makes this population a reference point in the evaluation of APOE heterogeneity.

The high frequency of alleles E2 and E4 in individuals with afrodescendant origin which under these allelic variants have demonstrated susceptibility to metabolic alterations of fat, coronary artery disease and neuropsychiatric diseases, remarks the importance and necessity of establishing the frequency of these alleles. In this study, we aimed establish the APOE genotype and allele frequency, in a population mostly afrodescendant, as it is in the population of Buenaventura, located in south western Colombia. Our results were compared with allele frequencies for this gene reported for the other (amerindian, afrodescendent and mestizo) Colombian populations.

We analyzed 348 individuals belonging to the urban zone of Buenaventura city. The genotypic frequencies found in the population were: E3/E3, 51.1%; E3/E4, 27.3%; E2/E3, 12%; E4/E4, 6%; E2/E4, 3.4%, and E2/E2, 0%; the allelic frequencies were: E3, 70.8%; E4, 21.4%, and E2, 7.7%. The whole population was found in equilibrium of Hardy-Weinberg, with χ2=5.2, and P=.074 (Table 1).

Comparing the allelic frequencies between the Buenaventura population and the different populations in Colombia (Table 2), meaningful differences were found for allele E4 in the Waunana, Tule, Yuco, Bogotá, Quindío, Middle-eastern, Valle del Cauca, Barranquilla, and Medellín (P≤.0345). Meaningful differences were also found for the allele E2 in the populations of Quindío, Valle del Cauca, Barranquilla, and Medellin (P≤.0232).

There are certain factors converging when you study Buenaventura in the south western Colombian region, the geographic localization, population history, ethnicity and genetic composition of the population which influences in the distribution of APOE frequencies. Same as other countries in Latin America, Colombia is a country that presents a great variety of population and ethnicity, clearly visible in 3 groups: Afrodescendant, with a big component of African ancestry; the South American indigenous (amerindios) descendants of the ancient and original population of these territories; and the mestizo communities, which are the product of a mixture between amerindios, Europeans and Africans. Nevertheless, there are variations in relation with the ethnic component which predominates in each region or population in the country,30 that can be expressed in the differences along the distribution of alleles and genotypes of APOE, and thus, in the genetic susceptibility of each one of this populations for developing neurodegenerative and metabolic disorders. In this study, a significant frequency increase was found for allele E4 in the Waunana, Tule, Yuco, Bogotá, Quindío, Middle-eastern, Valle del Cauca, Barranquilla, and Medellín populations, and for the allele E2 in the populations of Quindío, Valle del Cauca, Barranquilla, and Medellin (Table 2). The above can be the reflection of the difference in the ancestral composition of the population of Buenaventura compared to the populations already mentioned, remembering the high Afrodescendant component of this population (88.5%), in comparison to the other populations whose Afrodescent component does not exceed 40%.19

The African population and their descendants are characterized mainly by the high frequency in the allele E4 in comparison with the other racial groups, and the considerable increasing about the allele E2.7,28,31,32 Considering that the Amerindian population and Afrodescendant population are characterized for present a higher frequency of the alleles E4 and E2, Jaramillo-Correa17 propose that this equivalency may originate in a bottle neck or the isolation produced by its location between the jungle and the intervened low jungle zone, as also some kind of selection in favor of these alleles as consequence of their basic dependency to hunt and fishing. In Isla de Cascajal, where Buenaventura population originally initiated, in colony time suffered a series of tragic events that could have acted as bottle neck in population (yellow fever, smallpox, fires and earthquakes).33 The sum of this events, with the founding effect generated, could have changed the allelic frequencies for this gene, coming to what we know actually. The same was reported for the HbS, which frequency decreased in Buenaventura's population in a lower number of generations than it was expected only for the selection action.34

The reports about the distribution of APOE variants shows the high frequencies of E4 in Nigeria, Sub-Saharan Africa, South Africa and the Inuit in Greenland.8 As a result of the African origin of the Colombian black communities brought to America as slaves during the conquest period and colony period (15th and 16th Centuries), it explain the high frequency of E4 observed in Buenaventura population that shows accurately a genetic similarity with the population of Benin in Africa.35

The populations of Providencia Nuquí, San Basilio de Palenque, and Bahía Solano show very similar allelic frequencies as Buenaventura and the reported in west region and central Africa, like Berma (Benin), Fang (Gabon), Bombare (Mali), Nigeria, Peul (Senegal), while Chocó and Cauca are more similar to the frequencies of Malinke (Guinea) and the east coast of Africa, like Merina (Madagascar), Wentworth (South Africa), Tanzania, and Uganda,36 proving the heterogeneity of places where the people treated as slaves were brought from Africa.35 Although there are similarities in the APOE frequencies, it is not possible declare the origin place of these populations in Africa, because the events of mixture initiated once the slaves were brought from Africa.36,37

The local selection, the population structure, and the genetic drift are factors that can bias the results obtained. Other factors as the isolation by distance and the historical mix can also have influenced significantly the distribution of APOE polymorphisms in the Afrodescendant population of Buenaventura.

The realization of studies including different phenotypical variables, such as cholesterol level and triglycerides, food types, physical activities, body mass index, etc., will allow to inquire about the role of the natural selection can make on different APOE variables in the population. Our results show the utility of the APOE locus as an anthropogenic marker of susceptibility to neurodegenerative diseases as Alzheimer, and/or recurrent pathologies by alteration of the lipid metabolism with especial emphasis in the afrodescendant population.

Buenaventura's population shows evidence on how APOE locus is a marker that presents contemporary biological answer to the genetic diversity in the population, this reflects in a major representativeness of alleles E4 and E2 in Afrodescendant populations. Despite of corroboration that the universal marker of APOE is the E3, predominating in global populations, the importance of this study highlights an incidence for Buenaventura population, with a 21.4% of the variant E4 and the 7% of the E2, that allows to validate the hypothesis about microevolutive processes in this populations of African origin could considerably alter its frequencies. Finally, it is expected that these results make able to the clinical to get a more real valuation of patients with risk of ailments as Alzheimer and metabolism of cholesterol diseases associated with alleles APOE in Colombian population.

None declared.