MRPL53, a New Candidate Gene for Orofacial Clefting, Identified Using an eQTL Approach.

A valuable approach to understand how individual and population genetic differences can predispose to disease is to assess the impact of genetic variants on cellular functions (e.g., gene expression) of cell and tissue types related to pathological states. To understand the genetic basis of nonsyndromic cleft lip with or without cleft palate (NSCL/P) susceptibility, a complex and highly prevalent congenital malformation, we searched for genetic variants with a regulatory role in a disease-related tissue, the lip muscle (orbicularis oris muscle [OOM]), of affected individuals. From 46 OOM samples, which are frequently discarded during routine corrective surgeries on patients with orofacial clefts, we derived mesenchymal stem cells and correlated the individual genetic variants with gene expression from these cultured cells. Through this strategy, we detected significant cis-eQTLs (i.e., DNA variants affecting gene expression) and selected a few candidates to conduct an association study in a large Brazilian cohort (624 patients and 668 controls). This resulted in the discovery of a novel susceptibility locus for NSCL/P, rs1063588, the best eQTL for the MRPL53 gene, where evidence for association was mostly driven by the Native American ancestry component of our Brazilian sample. MRPL53 (2p13.1) encodes a 39S protein subunit of mitochondrial ribosomes and interacts with MYC, a transcription factor required for normal facial morphogenesis. Our study illustrates not only the importance of sampling admixed populations but also the relevance of measuring the functional effects of genetic variants over gene expression to dissect the complexity of disease phenotypes.

Study of IRF6 and 8q24 region in non-syndromic oral clefts in the Brazilian population.

OBJECTIVES: We investigated the association between non-syndromic oral cleft and variants in IRF6 (rs2235371 and rs642961) and 8q24 region (rs987525) according to the ancestry contribution of the Brazilian population. SUBJECTS AND METHODS: Subjects with oral cleft (CL, CLP, or CP) and their parents were selected from different geographic regions of Brazil. Polymorphisms were genotyped using a TaqMan assay and genomic ancestry was estimated using a panel of 48 INDEL polymorphisms. RESULTS: A total of 259 probands were analyzed. A TDT detected overtransmission of the rs2235371 G allele (P = 0.0008) in the total sample. A significant association of this allele was also observed in CLP (P = 0.0343) and CLP + CL (P = 0.0027). IRF6 haplotype analysis showed that the G/A haplotype increased the risk for cleft in children (single dose: P = 0.0038, double dose: P = 0.0022) and in mothers (single dose: P = 0.0016). The rs987525 (8q24) also exhibited an association between the A allele and the CLP + CL group (P = 0.0462). These results were confirmed in the probands with European ancestry. CONCLUSIONS: The 8q24 region plays a role in CL/P and the IRF6 G/A haplotype (rs2235371/rs642961) increases the risk for oral cleft in the Brazilian population.

Variation in the FcgammaR3B gene among distinct Brazilian populations.

The FCGR3B gene codes for the FcgammaR3b receptor, which occurs in three polymorphic forms representing the human neutrophil antigens (HNA)-1a, HNA-1b, and HNA-1c. The alleles that code for these antigens are FCGR3B*1, FCGR3B*2, and FCGR3B*3, respectively. New variants of these alleles have been recently described. In order to study the frequency of these alleles and the occurrence of variant forms, we sequenced part of the FCGR3B gene in 149 individuals belonging to four distinct Brazilian populations, i.e., 60 Amerindians, 30 Whites of European descent, 30 Afro-Brazilians, and 30 Japanese. The FCGR3B*1 allele showed high frequency among Amerindians (0.850), with the value detected representing the highest frequency described thus far for this allele in population studies. Its frequency was 0.660 in the Japanese population studied, a value equal to that observed in Afro-Brazilians (0.600) and higher than that observed in Whites (0.480). The FCGR3B*3 allele was only found among Afro-Brazilians, where it occurred at a frequency of 0.080, which was lower than the frequency observed among Afro-North Americans (0.207) and Ugandans (0.166). Two variant haplotypes were detected among Amerindians and Afro-Brazilians, occurring in six individuals (four Amerindians and two Afro-Brazilians). The variant haplotype FCGR3B*1 A227G, which occurred in homozygosis in two Amerindians and in heterozygosis in two Afro-Brazilians, is described for the first time in the present report. In general, these data reveal variability in the frequency of alleles of the FCGR3B gene compared to other populations of the same genetic background in other regions of the world.

Group-specific component (GC) in Curiaú and Pacoval, two African-derived Brazilian populations.

The group-specific component (GC) system is of interest in anthropological genetic studies because the distribution of its subtypes distinguishes among major ethnic groups. The GC system was analyzed in Curiaú and Pacoval, two remnant Quilombo populations (African-derived populations) from the Brazilian Amazon. There was no significant statistical difference in allelic frequencies between the two populations or between them and three other African-derived Brazilian populations (Mimbó, Sítio Velho, and Gaucinha in Northeastern Brazil). These populations share similarities among themselves and with African populations (high frequencies of GC*1F and lower frequencies of GC*1S), which may reflect the influence of a high level of African contribution to their formation, but there is a clear difference between them and Europeans and South American Indians. It is suggested that the GC system is a useful marker for studying relationships between single populations and major ethnic groups, but does not discriminate between populations which share the same parental stock.

Differential contribution of indigenous men and women to the formation of an urban population in the Amazon region as revealed by mtDNA and Y-DNA.

The human populations of the Brazilian Amazon were formed by interethnic crosses between Europeans, Africans, and Amerindians. The relative contribution of men and women of different ethnic groups was not homogeneous, since the social policies of the first three centuries of Brazilian colonization encouraged mating between European men and indigenous women and, later on, African women. In order to test this model based on historical data, we compared the relative contribution of the Y-DNA and mtDNA of Amerindian and non-Amerindian populations to the formation of the urban population of the town of Belém, in the Amazon region, on the basis of a C-->T mutation at locus DYS199 present in 90% of the Amerindian Y-DNA and of five markers that define 99% of the mitochondrial sequences of Amerindians. The contribution of indigenous men to the formation of this population was less than 5%, whereas the contribution of indigenous women was estimated at more than 50% of the mitochondrial sequences of the same population. Thus, the present results demonstrate that the contribution of indigenous women to the formation of the Belém population was 10 times higher than the contribution of indigenous men, a genetic consequence of social behavior and attitudes of the past; our results also help clarify the process of integration of indigenous communities into the urban societies in Brazil and possibly in other countries.

Effect of average heterozygosity on the genetic distance of several Indian tribes from the Amazon region.

The relationship between average heterozgosity and genetic distance estimates was evaluated among 13 Amazonian Indian tribes, using data of 24 genetic systems. The results showed that the genetic distances were negatively correlated with the average heterozygosity for each pair of tribes. The relationship between genetic and geographic distances was also examined, but no significant correlation was observed between these measures. The negative correlation between genetic distance and average heterozygosity may be attributed to the bottleneck effect or inbreeding due to the small effective size of several tribes, reducing the heterozgosity and increasing the genetic distance between them.