Blandino, AliceScherer, DominiqueRounge, Trine B.Umu, Sinan U.Boekstegers, FelixBarahona Ponce, CarolMarcelain, KatherineGárate-Calderón, ValentinaWaldenberger, MelanieMorales, ErikRojas, ArmandoMuñoz, CésarRetamales, JavierToro, Gonzalo deBarajas, OlgaRivera, María TeresaCortés, AnalíaLoader, DenisseSaavedra, JavieraGutiérrez, LorenaOrtega, AlejandroBertrán, María EnriquetaGabler, FernandoCampos, MónicaAlvarado, JuanFabrizio Moisán 18, Loreto Spencer 18, Bruno Nervi 19, Daniel E Carvajal-HausdorfSpencer, LoretoNervi, BrunoCarvajal-Hausdorf, DanielLosada, HéctorAlmau, MauricioFernández, PlinioGallegos, IvánOlloquequi, JordiFuentes-Guajardo, MacarenaGonzález -Jose, RolandoBortolini, María CátiraGallo, CarlaRuíz Linares, AndrésRothhammer, FranciscoBermejo, Justo Lorenzo2023-12-042023-12-042022Blandino, A.; Scherer, D.; Rounge, T.B.; Umu, S.U.; Boekstegers, F.; Barahona Ponce, C.; Marcelain, K.; Gárate-Calderón, V.; Waldenberger, M.; Morales, E.; et al. Identification of Circulating lncRNAs Associated with Gallbladder Cancer Risk by Tissue-Based Preselection, Cis-eQTL Validation, and Analysis of Association with Genotype-Based Expression. Cancers 2022, 14, 634. https://doi.org/10.3390/cancers14030634https://repositorio.udd.cl/handle/11447/8114Long noncoding RNAs (lncRNAs) play key roles in cell processes and are good candidates for cancer risk prediction. Few studies have investigated the association between individual genotypes and lncRNA expression. Here we integrate three separate datasets with information on lncRNA expression only, both lncRNA expression and genotype, and genotype information only to identify circulating lncRNAs associated with the risk of gallbladder cancer (GBC) using robust linear and logistic regression techniques. In the first dataset, we preselect lncRNAs based on expression changes along the sequence "gallstones → dysplasia → GBC". In the second dataset, we validate associations between genetic variants and serum expression levels of the preselected lncRNAs (cis-lncRNA-eQTLs) and build lncRNA expression prediction models. In the third dataset, we predict serum lncRNA expression based on individual genotypes and assess the association between genotype-based expression and GBC risk. AC084082.3 and LINC00662 showed increasing expression levels (p-value = 0.009), while C22orf34 expression decreased in the sequence from gallstones to GBC (p-value = 0.04). We identified and validated two cis-LINC00662-eQTLs (r2 = 0.26) and three cis-C22orf34-eQTLs (r2 = 0.24). Only LINC00662 showed a genotyped-based serum expression associated with GBC risk (OR = 1.25 per log2 expression unit, 95% CI 1.04-1.52, p-value = 0.02). Our results suggest that preselection of lncRNAs based on tissue samples and exploitation of cis-lncRNA-eQTLs may facilitate the identification of circulating noncoding RNAs linked to cancer risk.15 p.eneQTLsGallbladder cancerGenetic association studyIncRNAsMolecular phenotypesIdentification of Circulating lncRNAs Associated with Gallbladder Cancer Risk by Tissue-Based Preselection, Cis-eQTL Validation, and Analysis of Association with Genotype-Based ExpressionArticlehttps://doi.org/10.3390/cancers14030634