Signatures of natural selection and non-selective process in the 5´cis regulatory region of CCR5 gene of Amerindians from Brazilian Amazonian region

Native american populations show lower genetic diversity and higher interpopulational genetic differences than populations from other continents. Within South America groups from the non-andean geographic region shows extremely high genetic differentiation. The strong signature of balancing selection observed for 5\' cis-regulatory region of the CCR5 gene at the worldwide scale represents an opposite pattern of genetic variation to that expected by demographic process which acted in Amerindians. To evaluate the impact of complex demographic history on the 5\' cis-regulatory region of CCR5 we resequenced 927 bp of this locus in 62 individuals from different native groups located in the Brazilian Amazonian region. No new haplotype was detected and the two most common haplogroups observed were from different phylogenetic clusters, according with the pattern observed for other human populations. The level of heterozigosity of the total sample, measured by nucleotide diversity (&#960;) was the highest yet described for human populations (&#960;=0,0027) while values based on polymorphic sites (&#952;s) were similar among Amerindians and non-Africans populations. Consequently we observed a positive and significant Tajima\'s D value (D=2,82, p <0,01). This value was higher than all D values observed for the other human populations. Observed summary statistics (&#960; and D) were significantly higher than same statistics estimated from 2000 simulated samples assuming a recently proposed demographic model of human evolution. We also found significant deviations in Ewens-Watterson homozygosity test toward an excess of heterozygosity for Amerindian sample. Another striking feature of CCR5 cis-regulatory region was the low Fst value among populations. The Fst among Asians and Amerindians was an outlier among 1000 Fst values estimated by 783 microssatelites of samples from similar geographic regions and with the same sample sizes as those of the CCR5 5\' cis-regulatory data. These features corroborates the strong signature of balancing selection described for CCR5 5\'cis regulatory region. We also contributed to discussion about functional aspects of CCR5 cis-regulatory region demonstrating a significant association between intermediate frequency SNPs and exonic splicing enhancers (ESEs) regions (p<0,01). Finally, we believe that improved models of demographic human evolution must be tested to refute the hypothesis that the strong signature of balancing selection observed in Amerindians was not caused by a selection pressure which occurred in an ancestral population. (AU)