Ichthyosis: case report in a Colombian man with genetic alterations in ABCA12 and HRNR genes.

BACKGROUND: Ichthyosis is a heterogeneous group of diseases caused by genetic disorders related to skin formation. They are characterized by generalized dry skin, scaling, hyperkeratosis and frequently associated with erythroderma. Among its different types, harlequin ichthyosis (HI) stands out due to its severity. HI is caused by mutations in the ABCA12 gene, which encodes essential proteins in epidermal lipid transport, and it helps maintain the homeostasis of the stratum corneum of the epidermis. However, due to the wide spectrum of genetic alterations that can cause ichthyosis, holistic medical care, and genetic studies are required to improve the diagnosis and outcomes of these diseases. CASE PRESENTATION: Here, we presented the case of a 19 years old male patient who was a premature infant and exhibited clinical features consistent with HI, including bright yellow hyperkeratotic plates with erythematous fissures that covered his entire body like a collodion baby. Currently, he exhibited erythroderma, photosensitivity, ectropion, auricular pavilion alterations, and musculoskeletal disorders, such as equinovarus feet, fingers, hands, and hypoplastic feet with contractures in flexion and marked difficulty in fine motor skills. In addition, he presented dyschromatopsia, Achilles reflex hyporeflexia, slight speech, dental alteration and deficient cognitive performance. After the genetic sequencing, variants were found in ABCA12 and HRNR which are related to several skin diseases, including ichthyosis. CONCLUSIONS: Although in clinical practice, ichthyosis is a common entity, a severe type of ichthyosis is presented, highlighting the importance of appropriate genetic diagnosis, given the broad spectrum of genetic alterations with similar phenotypic and clinical characteristics. These pathologies must be known to guarantee initial support measures to prevent complications and offer multidisciplinary management to those patients.

Diffusion Mechanism Modeling of Metformin in Human Organic Cationic Amino Acid Transporter one and Functional Impact of S189L, R206C, and G401S Mutation.

Metformin used as a first-line drug to treat Type 2 Diabetes Mellitus is transported via organic cation channels to soft tissues. Mutations in the SLC22A1 gene, such as Gly401Ser, Ser189Leu, and Arg206Cys, may affect the drug's therapeutic effect on these patients. This study aims at proposing a potential structural model for drug interactions with the hOCT1 transporter, as well as the impact of these mutations at both topological and electronic structure levels on the channel's surface, from a chemical point of view with, in addition to exploring the frequency distribution. To chemically understand metformin diffusion, we used an open model from the protein model database, with ID PM0080367, viewed through UCSF Chimera. The effect of the mutations was assessed using computational hybrid Quantum Mechanics/Molecular Mechanics, based on the Austin Model 1 semi-empirical method using Spartan 18' software. The results demonstrate coupling energy for metformin with amino acids F, W, H and Y, because of the interaction between the metformin dication and the electron cloud of π orbitals. The mutations analyzed showed changes in the chemical polarity and topology of the structure. The proposed diffusion model is a possible approach to the interaction mechanism between metformin and its transporter, as well as the impacts of variants, suggesting structural changes in the action of the drug. Metformin efficacy considerably varies from one patient to another; this may be largely attributed to the presence of mutations on the SLC22A1 gene. This study aims at proposing a potential structural model for metformin-hOCT1 (SLC22A1) transporter interaction, as well as the identification of the effect of mutations G401S (rs34130495), S189L (rs34104736), and R206C (616C > T) of the SLC22A1 gene at the topological and electronic structure levels on the channel surfaces, from a chemical viewpoint. Our results demonstrated that the coupling energies for metformin with aromatic amino acids F, W, H and Y, because of the interaction between the metformin dication and the electron cloud of π orbitals. Changes in the chemical environment's polarity and the structure's topology were reported in the mutations assessed. The diffusion model proposed is a potential approach for the mechanism of interaction of metformin with its transporter and the effects of variants on the efficacy of the drug in the treatment of type 2 diabetes. The assessment of the frequency of these mutations in a sample of Colombian type 2 diabetes patients suggests that different SLC22A1 gene variants might be involved in reduced OCT1 activity in the Colombian population since none of these mutations were detected.

Palenque de San Basilio in Colombia: genetic data support an oral history of a paternal ancestry in Congo.

The Palenque, a black community in rural Colombia, have an oral history of fugitive African slaves founding a free village near Cartagena in the seventeenth century. Recently, linguists have identified some 200 words in regular use that originate in a Kikongo language, with Yombe, mainly spoken in the Congo region, being the most likely source. The non-recombining portion of the Y chromosome (NRY) and mitochondrial DNA were analysed to establish whether there was greater similarity between present-day members of the Palenque and Yombe than between the Palenque and 42 other African groups (for all individuals,n= 2799) from which forced slaves might have been taken. NRY data are consistent with the linguistic evidence that Yombe is the most likely group from which the original male settlers of Palenque came. Mitochondrial DNA data suggested substantial maternal sub-Saharan African ancestry and a strong founder effect but did not associate Palenque with any particular African group. In addition, based on cultural data including inhabitants' claims of linguistic differences, it has been hypothesized that the two districts of the village (Abajo and Arriba) have different origins, with Arriba founded by men originating in Congo and Abajo by those born in Colombia. Although significant genetic structuring distinguished the two from each other, no supporting evidence for this hypothesis was found.

Unexpected inverse correlation between Native American ancestry and Asian American variants of HPV16 in admixed Colombian cervical cancer cases.

BACKGROUND: European (E) variants of HPV 16 are evenly distributed among world regions, meanwhile Non-European variants such as European-Asian (EAs), Asian American (AA) and African (Af) are mostly confined to Eastern Asia, The Americas and African regions respectively. Several studies have shown that genetic variation of HPV 16 is associated with the risk of cervical cancer, which also seems to be dependent on the population. This relationship between ethnicity and variants have led to the suggestion that there is co-evolution of variants with humankind. Our aim was to evaluate the relationship between the individual ancestry proportion and infection with HPV 16 variants in cervical cancer. METHODS: We examined the association between ancestry and HPV 16 variants in samples of 82 cervical cancer cases from different regions of Colombia. Individual ancestry proportions (European, African and Native American) were estimated by genotyping 106 ancestry informative markers. Variants were identified by PCR amplification of the E6 gene, followed by reverse line blot hybridization (RLB) with variants specific probes. RESULTS: Overall European (E) and Asian American (AA) variants frequency was 66.5% and 33.5% respectively. Similar distribution was observed in cases with higher proportions of European or African ancestry. A higher Native American ancestry was significantly associated with higher frequency of E variants (median ancestry>23.6%, Age and place of birth adjusted OR: 3.55, 95% CI: 1.26-10.03, p=0.01). Even further, an inverse geographic correlation between Native American ancestry and frequency of infections with AA variants was observed (ρ=-0.825, p=0.008). Regions with higher proportion of Native American ancestry had a lower frequency of AA variants of HPV 16. CONCLUSIONS: This study suggests replacement of AA variants by E variants of human papillomavirus 16 in cervical cancer cases with high Native American ancestry.

Reconstructing Native American population history.

The peopling of the Americas has been the subject of extensive genetic, archaeological and linguistic research; however, central questions remain unresolved. One contentious issue is whether the settlement occurred by means of a single migration or multiple streams of migration from Siberia. The pattern of dispersals within the Americas is also poorly understood. To address these questions at a higher resolution than was previously possible, we assembled data from 52 Native American and 17 Siberian groups genotyped at 364,470 single nucleotide polymorphisms. Here we show that Native Americans descend from at least three streams of Asian gene flow. Most descend entirely from a single ancestral population that we call 'First American'. However, speakers of Eskimo-Aleut languages from the Arctic inherit almost half their ancestry from a second stream of Asian gene flow, and the Na-Dene-speaking Chipewyan from Canada inherit roughly one-tenth of their ancestry from a third stream. We show that the initial peopling followed a southward expansion facilitated by the coast, with sequential population splits and little gene flow after divergence, especially in South America. A major exception is in Chibchan speakers on both sides of the Panama isthmus, who have ancestry from both North and South America.

Amerind ancestry, socioeconomic status and the genetics of type 2 diabetes in a Colombian population.

The "thrifty genotype" hypothesis proposes that the high prevalence of type 2 diabetes (T2D) in Native Americans and admixed Latin Americans has a genetic basis and reflects an evolutionary adaptation to a past low calorie/high exercise lifestyle. However, identification of the gene variants underpinning this hypothesis remains elusive. Here we assessed the role of Native American ancestry, socioeconomic status (SES) and 21 candidate gene loci in susceptibility to T2D in a sample of 876 T2D cases and 399 controls from Antioquia (Colombia). Although mean Native American ancestry is significantly higher in T2D cases than in controls (32% v 29%), this difference is confounded by the correlation of ancestry with SES, which is a stronger predictor of disease status. Nominally significant association (P<0.05) was observed for markers in: TCF7L2, RBMS1, CDKAL1, ZNF239, KCNQ1 and TCF1 and a significant bias (P<0.05) towards OR>1 was observed for markers selected from previous T2D genome-wide association studies, consistent with a role for Old World variants in susceptibility to T2D in Latin Americans. No association was found to the only known Native American-specific gene variant previously associated with T2D in a Mexican sample (rs9282541 in ABCA1). An admixture mapping scan with 1,536 ancestry informative markers (AIMs) did not identify genome regions with significant deviation of ancestry in Antioquia. Exclusion analysis indicates that this scan rules out ~95% of the genome as harboring loci with ancestry risk ratios >1.22 (at P < 0.05).

Genetic make up and structure of Colombian populations by means of uniparental and biparental DNA markers.

Colombia is a country with great geographic heterogeneity and marked regional differences in pre-Columbian native population density and in the extent of past African and European immigration. As a result, Colombia has one of the most diverse populations in Latin America. Here we evaluated ancestry in over 1,700 individuals from 24 Colombian populations using biparental (autosomal and X-Chromosome), maternal (mtDNA), and paternal (Y-chromosome) markers. Autosomal ancestry varies markedly both within and between regions, confirming the great genetic diversity of the Colombian population. The X-chromosome, mtDNA, and Y-chromosome data indicate that there is a pattern across regions indicative of admixture involving predominantly Native American women and European and African men.

[Association between polymorphism in uncoupling proteins and type 2 diabetes in a northwestern Colombian population]. / Asociación de variantes en genes de las proteínas desacoplantes con diabetes mellitus tipo 2 en una población del nordeste colombiano.

INTRODUCTION: The uncoupling proteins belong to the family of anion transporting proteins which uncouple the ATP production from the mitochondrial respiration, cause proton leakage through the inner mitochondrial membrane, and release energy as heat. Although uncoupling protein function has not been well established, specific polymorphisms in these proteins have been associated with type 2 diabetes mellitus, obesity and insulin resistance. OBJECTIVE: The association was assessed between the polymorphisms in uncoupling protein genes 1, 2 and 3 genes and type 2 diabetes mellitus. MATERIALS AND METHODS: In a northwestern Colombian population, 545 diabetes cases and 449 controls were investigated for presence of 14 polymorphisms in uncoupling protein genes (3826A/G, ID 45, 2723T/A, 1957G/A, 866G/A, and 55C/T) by PCR and PCR-RFLP. Single associations were evaluated by chi-square test, and bayesian logistic regression analysis was done including as covariates the individual admixture estimates obtained by 54 informative markers for European, African and Amerind ancestry. RESULTS: Association between type 2 diabetes mellitus and the polymorphisms 3826A (OR=0.78; 95% CI = 0.63-0.97; p = 0.02) and 55 C (OR = 1.41; 95% CI = 1.04-1.92; p = 0.03) and the haplotype D45, 866G, 1957G, 2723T, and 55C (OR = 1.26; 95% CI = 1.02-1.56; p = 0.03) were found. These associations remained after adjustment using individual genetic admixture estimates. CONCLUSION: Some alleles of uncoupling protein genes 1, 2 and 3, and their haplotypes confer risk to type 2 diabetes in a northwestern Colombian population.

African ancestry is associated with risk of asthma and high total serum IgE in a population from the Caribbean Coast of Colombia.

African descended populations exhibit an increased prevalence of asthma and allergies compared to Europeans. One approach to distinguish between environmental and genetic explanations for this difference is to study relationships of asthma risk to individual admixture. We aimed to determine the admixture proportions of a case-control sample from the Caribbean Coast of Colombia currently participating in genetic studies for asthma, and to test for population stratification and association between African ancestry and asthma and total serum IgE levels (tIgE). We genotyped 368 asthmatics and 365 non-asthmatics for 52 autosomal ancestry informative markers, six mtDNA haplogroups and nine haplogroups and five microsatellites in Y chromosome. Autosomal admixture proportions, population stratification, and associations between ancestry and the phenotypes were estimated by ADMIXMAP. The average admixture proportions among asthmatics were 42.8% European, 39.9% African and 17.2% Native American and among non-asthmatics they were 44.2% (P = 0.068), 37.6% (P = 0.007) and 18.1% (P = 0.050), respectively. In the total sample, the paternal contributions were 71% European, 25% African and 4.0% Native American and the maternal lineages were 56.8% Native American, and 20.2% African; 22.9% of the individuals carried other non-Native American mtDNA haplogroups. African ancestry was significantly associated with asthma (OR: 2.97; 95% CI: 1.08-8.08), high tIgE (OR: 1.9; 95% CI: 1.17-3.12) and socioeconomic status (OR = 0.64; 95% CI: 0.47-0.87). Significant population stratification was observed in this sample. Our findings indicate that genetic factors can explain the association between asthma and African ancestry and suggest that this sample is a useful resource for performing admixture mapping for asthma.

Asociación de variantes en genes de las proteínas desacoplantes con diabetes mellitus tipo 2 en una población del nordeste colombiano / Association between polymorphism in uncoupling proteins and type 2 diabetes in a northwestern Colombian population

Introducción. Las proteínas desacoplantes pertenecen a la familia de proteínas transportadoras de aniones que desacoplan la producción de ATP de la respiración mitocondrial, causando pérdida de protones a través de la membrana mitocondrial interna y disipando la energía en forma de calor. Aunque su función no ha sido bien establecida, algunos polimorfismos en estas proteínas se han asociado con diabetes mellitus tipo 2, obesidad y resistencia a la insulina. Objetivo. Evaluar la asociación entre las variantes -3826A/G, ID 45, -2723T/A, -1957G/A, -866G/A, -55C/T de los genes de las proteínas desacoplantes 1, 2 y 3 con diabetes mellitus tipo 2 en una población del nordeste colombiano. Materiales y métodos. Se tipificaron 545 casos y 449 controles para 14 variantes de los genes de las proteínas desacoplantes por medio de PCR y PCR-RFLP. Se hicieron pruebas de asociación simples con ji al cuadrado y se corrigieron en un análisis de regresión logística bayesiana, incluyendo los estimados de mezcla individual obtenidos mediante 54 marcadores informativos de ascendencia europea, africana y amerindia. Resultados. Las variantes -3826A (OR=0,78; IC95% 0,63-0,97; p=0,02), -55C (OR=1,41; IC95% 1,04-1,92; p=0,03) de las proteínas desacoplantes 1 y 3, respectivamente, y el haplotipo D45, -866G, -1957G, -2723T, -55C (OR=1,26; IC95% 1,02-1,56; p=0,03) se asociaron con diabetes tipo 2. Estas asociaciones se conservaron después de ajustar por la mezcla genética individual. Conclusión. Algunas variantes de las proteínas desacoplantes 1, 2 y 3, y sus haplotipos, confieren riesgo para diabetes mellitus tipo 2 en una población del nordeste colombiano.

Introduction. The uncoupling proteins belong to the family of anion transporting proteins which uncouple the ATP production from the mitochondrial respiration, cause proton leakage through the inner mitochondrial membrane, and release energy as heat. Although uncoupling protein function has not been well established, specific polymorphisms in these proteins have been associated with type 2 diabetes mellitus, obesity and insulin resistance. Objective. The association was assessed between the polymorphisms in uncoupling protein genes 1, 2 and 3 genes and type 2 diabetes mellitus. Materials and methods. In a northwestern Colombian population, 545 diabetes cases and 449 controls were investigated for presence of 14 polymorphisms in uncoupling protein genes (3826A/G, ID 45, 2723T/A, 1957G/A, 866G/A, and 55C/T) by PCR and PCR-RFLP. Single associations were evaluated by chi-square test, and bayesian logistic regression analysis was done including as covariates the individual admixture estimates obtained by 54 informative markers for European, African and Amerind ancestry. Results. Association between type 2 diabetes mellitus and the polymorphisms 3826A (OR=0.78; 95%CI=0.63-0.97; p=0.02) and 55C (OR=1.41; 95%CI=1.04-1.92; p=0.03) and the haplotype D45, 866G, 1957G, 2723T, and 55C (OR=1.26; 95%CI=1.02-1.56; p=0.03) were found. These associations remained after adjustment using individual genetic admixture estimates. Conclusion. Some alleles of uncoupling protein genes 1, 2 and 3, and their haplotypes confer risk to type 2 diabetes in a northwestern Colombian population.

A genomewide admixture map for Latino populations.

Admixture mapping is an economical and powerful approach for localizing disease genes in populations of recently mixed ancestry and has proven successful in African Americans. The method holds equal promise for Latinos, who typically inherit a mix of European, Native American, and African ancestry. However, admixture mapping in Latinos has not been practical because of the lack of a map of ancestry-informative markers validated in Native American and other populations. To address this, we screened multiple databases, containing millions of markers, to identify 4,186 markers that were putatively informative for determining the ancestry of chromosomal segments in Latino populations. We experimentally validated each of these markers in at least 232 new Latino, European, Native American, and African samples, and we selected a subset of 1,649 markers to form an admixture map. An advantage of our strategy is that we focused our map on markers distinguishing Native American from other ancestries and restricted it to markers with very similar frequencies in Europeans and Africans, which decreased the number of markers needed and minimized the possibility of false disease associations. We evaluated the effectiveness of our map for localizing disease genes in four Latino populations from both North and South America.

Convergent linkage evidence from two Latin-American population isolates supports the presence of a susceptibility locus for bipolar disorder in 5q31-34.

We performed a whole genome microsatellite marker scan in six multiplex families with bipolar (BP) mood disorder ascertained in Antioquia, a historically isolated population from North West Colombia. These families were characterized clinically using the approach employed in independent ongoing studies of BP in the closely related population of the Central Valley of Costa Rica. The most consistent linkage results from parametric and non-parametric analyses of the Colombian scan involved markers on 5q31-33, a region implicated by the previous studies of BP in Costa Rica. Because of these concordant results, a follow-up study with additional markers was undertaken in an expanded set of Colombian and Costa Rican families; this provided a genome-wide significant evidence of linkage of BPI to a candidate region of approximately 10 cM in 5q31-33 (maximum non-parametric linkage score=4.395, P<0.00004). Interestingly, this region has been implicated in several previous genetic studies of schizophrenia and psychosis, including disease association with variants of the enthoprotin and gamma-aminobutyric acid receptor genes.

Transmission distortion of BDNF variants to bipolar disorder type I patients from a South American population isolate.

Recent reports have implicated polymorphisms in the brain derived neurotrophic factor (BDNF) gene region in the etiology of several psychiatric phenotypes, including bipolar disorder. Significant disease association has been reported for the G allele at SNP rs6265, which encodes for Valine at position 66 of BDNF (Val66Met), an apparently functional variant of this key BDNF. Here we examined a sample of 224 bipolar type I patients and available parents (comprising a total of 212 nuclear families) ascertained in a South American population isolate (Antioquia, Colombia). We tested for transmission distortion to bipolar patients of alleles at the rs6265 polymorphism and at a microsatellite marker 1.3 kb away from this SNP. Significant excess transmission of the rs6265 G allele to cases was observed (chi(2) = 10.77, d.f. = 1, P = 0.001). Two-locus haplotype analysis showed a significant global transmission distortion (chi(2) = 16.059, d.f. = 7, P = 0.025) with an excess transmission of a haplotype comprising the rs6265 G allele and microsatellite allele 227. These results are consistent with previous studies pointing to a role for BDNF in susceptibility to mood disorders.

A revertant of the major founder Native American haplogroup C common in populations from northern South America.

We examined the mtDNA RFLP diversity of 17 Native American populations from Colombia. Five of the populations studied were found to have variable frequencies of a mtDNA type lacking the characteristic changes of haplogroups A-D. Sequencing of mtDNA HVS-I and II showed that this "null" RFLP type carries all the substitutions characteristic of Native American founder lineage C. A back mutation has therefore recreated the +13,259 HincII/-13,262 AluI restriction sites that tipify RFLP haplogroup C. This revertant C lineage is further characterized by three changes in HVS-II sequence: C/T transitions at positions 115 and 152, and the deletion of an A residue at position 116. This lineage is observed at high frequency mostly in populations from Greenberg's Equatorial-Tucano linguistic family. Genetic structure analyses are consistent with the reversion mutation occurring at an early stage during the tribalization process.

Análisis de ligamento genético de la diabetes mellitus tipo 1, a marcadores de los cromosomas 2 y 11 en familias antioqueñas / Genetic linkage analysis of type 1 diabetes mellitus to markers on chromosomes 2 and 11 in families from Antioquia, Colombia

La Diabetes Mellitus (DM) comprende un grupo heterogéneo de desordenes hiperglucémicos clasificados en subgrupos de acuerdo a su fisiopatología y etiología, entre los cuales se destacan la Diabetes Mellitus tipo1 (DM1) y la diabetes mellitus tipo 2 (DM2). La DM1 es de aparición temprana y una absoluta escasez de insulina hace que los pacientes sean insulino dependientes desde el inicio de los síntomas y la (DM2) que se manifiesta en la edad adulta y no todos los pacientes que la sufren son insulino dependientes

Diabetes mellitus (DM) comprises e heterogeneous group of hypoglycemic disorders, that are grouped according to their physiopathology and etiology; the most notorious ones are type 1 DM (DM1) and type 2 DM (DM2); DM1 is characterized by early onset and absolute lack of insulin; therefore, patients suffering from it depend on insulin since the beginning of their symptoms; in contrast, DM2 manifests during adult life and not all patients depend on insulin