Your search keyword '"Bustos, Bernabe I."' showing total 5 results

1. Copy number variants in lipid metabolism genes are associated with gallstones disease in men

Author

Perez-Palma, Eduardo, Bustos, Bernabe, I, Lal, Dennis, Buch, Stephan, Azocar, Lorena, Toliat, Mohammad Reza, Lieb, Wolfgang, Franke, Andre, Hinz, Sebastian, Burmeister, Greta, von Shoenfels, Witigo, Schafmayer, Clemens, Ahnert, Peter, Voelzke, Henry, Voelker, Uwe, Homuth, Georg, Lerch, Markus M., Puschel, Klaus, Gutierrez, Rodrigo A., Hampe, Jochen, Nuernberg, Peter, Miquel, Juan Francisco, De Ferrari, Giancarlo, V, Perez-Palma, Eduardo, Bustos, Bernabe, I, Lal, Dennis, Buch, Stephan, Azocar, Lorena, Toliat, Mohammad Reza, Lieb, Wolfgang, Franke, Andre, Hinz, Sebastian, Burmeister, Greta, von Shoenfels, Witigo, Schafmayer, Clemens, Ahnert, Peter, Voelzke, Henry, Voelker, Uwe, Homuth, Georg, Lerch, Markus M., Puschel, Klaus, Gutierrez, Rodrigo A., Hampe, Jochen, Nuernberg, Peter, Miquel, Juan Francisco, and De Ferrari, Giancarlo, V

Abstract

Gallstones Disease (GSD) is one of the most common digestive diseases requiring hospitalization and surgical procedures in the world. GSD has a high prevalence in populations with European or Amerindian ancestry (10-20%) and the influence of genetic factors is broadly acknowledged. However, known genetic variants do not entirely explain the disease heritability suggesting that additional genetic variants remain to be identified. Here, we examined the association of copy number variants (CNVs) with GSD in a sample of 4778 individuals (1929 GSD cases and 2849 controls) including two European cohorts from Germany (n = 3702) and one admixed Latin American cohort from Chile (n = 1076). We detected 2936 large and rare CNVs events (size > 100 kb, frequency < 1%). Case-control burden analysis and generalized linear regression models revealed significant association of CNVs with GSD in men, with the strongest effect observed with CNVs overlapping lipid metabolism genes (p-value = 6.54 x 10(-4); OR = 2.76; CI 95% = 1.53-4.89). Our results indicate a clear link between CNVs and GSD in men and provides additional evidence that the genetic components of risk for GSD are complex, can be sex specific and include CNVs affecting genes involved in lipid metabolism.

Published

2020

2. Variants in ABCG8 and TRAF3 genes confer risk for gallstone disease in admixed Latinos with Mapuche Native American ancestry

Author

Bustos, Bernabe I., Perez-Palma, Eduardo, Buch, Stephan, Azocar, Lorena, Riveras, Eleodoro, Ugarte, Giorgia D., Toliat, Mohammad, Nuernberg, Peter, Lieb, Wolfgang, Franke, Andre, Hinz, Sebastian, Burmeister, Greta, von Schoenfels, Witigo, Schafmayer, Clemens, Voelzke, Henry, Voelker, Uwe, Homuth, Georg, Lerch, Markus M., Luis Santos, Jose, Puschel, Klaus, Bambs, Claudia, Carlos Roa, Juan, Gutierrez, Rodrigo A., Hampe, Jochen, De Ferrari, Giancarlo V., Francisco Miquel, Juan, Bustos, Bernabe I., Perez-Palma, Eduardo, Buch, Stephan, Azocar, Lorena, Riveras, Eleodoro, Ugarte, Giorgia D., Toliat, Mohammad, Nuernberg, Peter, Lieb, Wolfgang, Franke, Andre, Hinz, Sebastian, Burmeister, Greta, von Schoenfels, Witigo, Schafmayer, Clemens, Voelzke, Henry, Voelker, Uwe, Homuth, Georg, Lerch, Markus M., Luis Santos, Jose, Puschel, Klaus, Bambs, Claudia, Carlos Roa, Juan, Gutierrez, Rodrigo A., Hampe, Jochen, De Ferrari, Giancarlo V., and Francisco Miquel, Juan

Abstract

Latin Americans and Chilean Amerindians have the highest prevalence of gallstone disease (GSD) and gallbladder cancer (GBC) in the world. A handful of loci have been associated with GSD in populations of predominantly European ancestry, however, they only explain a small portion of the genetic component of the disease. Here, we performed a genome-wide association study (GWAS) for GSD in 1,095 admixed Chilean Latinos with Mapuche Native American ancestry. Disease status was assessed by cholecystectomy or abdominal ultrasonography. Top-10 candidate variants surpassing the suggestive cutoff of P < 1 x 10(-5) in the discovery cohort were genotyped in an independent replication sample composed of 1,643 individuals. Variants with positive replication were further examined in two European GSD populations and a Chilean GBC cohort. We consistently replicated the association of ABCG8 gene with GSD (rs11887534, P = 3.24 x 10(-8), OR = 1.74) and identified TRAF3 (rs12882491, P = 1.11 x 10(-7), OR = 1.40) as a novel candidate gene for the disease in admixed Chilean Latinos. ABCG8 and TRAF3 variants also conferred risk to GBC. Gene expression analyses indicated that TRAF3 was significantly decreased in gallbladder (P = 0.015) and duodenal mucosa (P = 0.001) of GSD individuals compared to healthy controls, where according to GTEx data in the small intestine, the presence of the risk allele contributes to the observed effect. We conclude that ABCG8 and TRAF3 genes are associated with GSD and GBC in admixed Latinos and that decreased TRAF3 levels could enhance gallbladder inflammation as is observed in GSD and GSD-associated GBC.

Published

2019

3. Whole Genome Sequence, Variant Discovery and Annotation in Mapuche-Huilliche Native South Americans

Author

Vidal, Elena A., Moyano, Tomas C., Bustos, Bernabe, I, Perez-Palma, Eduardo, Moraga, Carol, Riveras, Eleodoro, Montecinos, Alejandro, Azocar, Lorena, Soto, Daniela C., Vidal, Mabel, Di Genoval, Alex, Puschel, Klaus, Nurnberg, Peter, Buch, Stephan, Hampe, Jochen, Allende, Miguel L., Cambiazo, Veronica, Gonzalez, Mauricio, Hodar, Christian, Montecino, Martin, Munoz-Espinoza, Claudia, Orellana, Ariel, Reyes-Jara, Angelica, Travisanyl, Dante, Vizoso, Paula, Moraga, Mauricio, Eyheramendy, Susana, Maass, Alejandro, De Ferrari, Giancarlo, V, Mique, Juan Francisco, Gutierrez, Rodrigo A., Vidal, Elena A., Moyano, Tomas C., Bustos, Bernabe, I, Perez-Palma, Eduardo, Moraga, Carol, Riveras, Eleodoro, Montecinos, Alejandro, Azocar, Lorena, Soto, Daniela C., Vidal, Mabel, Di Genoval, Alex, Puschel, Klaus, Nurnberg, Peter, Buch, Stephan, Hampe, Jochen, Allende, Miguel L., Cambiazo, Veronica, Gonzalez, Mauricio, Hodar, Christian, Montecino, Martin, Munoz-Espinoza, Claudia, Orellana, Ariel, Reyes-Jara, Angelica, Travisanyl, Dante, Vizoso, Paula, Moraga, Mauricio, Eyheramendy, Susana, Maass, Alejandro, De Ferrari, Giancarlo, V, Mique, Juan Francisco, and Gutierrez, Rodrigo A.

Abstract

Whole human genome sequencing initiatives help us understand population history and the basis of genetic diseases. Current data mostly focuses on Old World populations, and the information of the genomic structure of Native Americans, especially those from the Southern Cone is scant. Here we present annotation and variant discovery from high-quality complete genome sequences of a cohort of 11 Mapuche-Huilliche individuals (HUI) from Southern Chile. We found approximately 3.1 x 10(6) single nucleotide variants (SNVs) per individual and identified 403,383 (6.9%) of novel SNVs events. Analyses of large-scale genomic events detected 680 copy number variants (CNVs) and 4,514 structural variants (SVs), including 398 and 1,910 novel events, respectively. Global ancestry composition of HUI genomes revealed that the cohort represents a sample from a marginally admixed population from the Southern Cone, whose main genetic component derives from Native American ancestors. Additionally, we found that HUI genomes contain variants in genes associated with 5 of the 6 leading causes of noncommunicable diseases in Chile, which may have an impact on the risk of prevalent diseases in Chilean and Amerindian populations. Our data represents a useful resource that can contribute to population-based studies and for the design of early diagnostics or prevention tools for Native and admixed Latin American populations.

Published

2019

4. Author Correction: The IPDGC/GP2 Hackathon - an open science event for training in data science, genomics, and collaboration using Parkinson's disease data.

Author

Leonard HL, Murtadha R, Martinez-Carrasco A, Jama A, Müller-Nedebock AC, Gil-Martinez AL, Illarionova A, Moore A, Bustos BI, Jadhav B, Huxford B, Storm C, Towns C, Vitale D, Chetty D, Yu E, Grenn FP, Salazar G, Rateau G, Iwaki H, Elsayed I, Foote IF, Jansen van Rensburg Z, Kim JJ, Yuan J, Lake J, Brolin K, Senkevich K, Wu L, Tan MMX, Periñán MT, Makarious MB, Ta M, Pillay NS, Betancor OL, Reyes-Pérez PR, Alvarez Jerez P, Saini P, Al-Ouran R, Sivakumar R, Real R, Reynolds RH, Hu R, Abrahams S, Rao SC, Antar T, Leal TP, Iankova V, Scotton WJ, Song Y, Singleton A, Nalls MA, Dey S, Bandres-Ciga S, Blauwendraat C, and Noyce AJ

Published

2023

5. The IPDGC/GP2 Hackathon - an open science event for training in data science, genomics, and collaboration using Parkinson's disease data.

Author

Leonard HL, Murtadha R, Martinez-Carrasco A, Jama A, Müller-Nedebock AC, Gil-Martinez AL, Illarionova A, Moore A, Bustos BI, Jadhav B, Huxford B, Storm C, Towns C, Vitale D, Chetty D, Yu E, Grenn FP, Salazar G, Rateau G, Iwaki H, Elsayed I, Foote IF, Jansen van Rensburg Z, Kim JJ, Yuan J, Lake J, Brolin K, Senkevich K, Wu L, Tan MMX, Periñán MT, Makarious MB, Ta M, Pillay NS, Betancor OL, Reyes-Pérez PR, Alvarez Jerez P, Saini P, Al-Ouran R, Sivakumar R, Real R, Reynolds RH, Hu R, Abrahams S, Rao SC, Antar T, Leal TP, Iankova V, Scotton WJ, Song Y, Singleton A, Nalls MA, Dey S, Bandres-Ciga S, Blauwendraat C, and Noyce AJ

Abstract

Open science and collaboration are necessary to facilitate the advancement of Parkinson's disease (PD) research. Hackathons are collaborative events that bring together people with different skill sets and backgrounds to generate resources and creative solutions to problems. These events can be used as training and networking opportunities, thus we coordinated a virtual 3-day hackathon event, during which 49 early-career scientists from 12 countries built tools and pipelines with a focus on PD. Resources were created with the goal of helping scientists accelerate their own research by having access to the necessary code and tools. Each team was allocated one of nine different projects, each with a different goal. These included developing post-genome-wide association studies (GWAS) analysis pipelines, downstream analysis of genetic variation pipelines, and various visualization tools. Hackathons are a valuable approach to inspire creative thinking, supplement training in data science, and foster collaborative scientific relationships, which are foundational practices for early-career researchers. The resources generated can be used to accelerate research on the genetics of PD., (© 2023. The Author(s).)

Published

2023