Cristina Herrera-Pariente, Laia Bonjoch, Jenifer Muñoz, Guerau Fernàndez, Yasmin Soares de Lima, Romesa Mahmood, Miriam Cuatrecasas, Teresa Ocaña, Sandra Lopez-Prades, Gemma Llargués-Sistac, Xavier Domínguez-Rovira, Joan Llach, Irina Luzko, Marcos Díaz-Gay, Conxi Lazaro, Joan Brunet, Carmen Castillo-Manzano, María Asunción García-González, Angel Lanas, Marta Carrillo, Raquel Hernández San Gil, Enrique Quintero, Nuria Sala, Gemma Llort, Lara Aguilera, Laura Carot, Pilar Diez-Redondo, Rodrigo Jover, Teresa Ramon y Cajal, Joaquín Cubiella, Antoni Castells, Francesc Balaguer, Luis Bujanda, Sergi Castellví-Bel, Leticia Moreira
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In this study, we aimed to identify new hereditary genes for early-onset gastric cancer patients (EOGC; < 50 years old).</p><h3 data-test=\"abstract-sub-heading\">Methods</h3><p>After germline exome sequencing in 20 EOGC patients and replication of relevant findings by gene-panel sequencing in an independent cohort of 152 patients, <i>CTNND1</i> stood out as an interesting candidate gene, since its protein product (p120ctn) directly interacts with E-cadherin. We proceeded with functional characterization by generating two knockout <i>CTNND1</i> cellular models by gene editing and introducing the detected genetic variants using a lentiviral delivery system. We assessed β-catenin and E-cadherin levels, cell detachment, as well as E-cadherin localization and cell-to-cell interaction by spheroid modeling.</p><h3 data-test=\"abstract-sub-heading\">Results</h3><p>Three <i>CTNND1</i> germline variants [c.28_29delinsCT, p.(Ala10Leu); c.1105C > T, p.(Pro369Ser); c.1537A > G, p.(Asn513Asp)] were identified in our EOGC cohorts. Cells encoding <i>CTNND1</i> variants displayed altered E-cadherin levels and intercellular interactions. In addition, the p.(Pro369Ser) variant, located in a key region in the E-cadherin/p120ctn binding domain, showed E-cadherin mislocalization.</p><h3 data-test=\"abstract-sub-heading\">Conclusions</h3><p>Defects in <i>CTNND1</i> could be involved in germline predisposition to gastric cancer by altering E-cadherin and, consequently, cell-to-cell interactions. In the present study, <i>CTNND1</i> germline variants explained 2% (3/172) of the cases, although further studies in larger external cohorts are needed.</p>","PeriodicalId":12684,"journal":{"name":"Gastric Cancer","volume":"25 1","pages":""},"PeriodicalIF":6.0000,"publicationDate":"2024-05-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"CTNND1 is involved in germline predisposition to early-onset gastric cancer by affecting cell-to-cell interactions\",\"authors\":\"Cristina Herrera-Pariente, Laia Bonjoch, Jenifer Muñoz, Guerau Fernàndez, Yasmin Soares de Lima, Romesa Mahmood, Miriam Cuatrecasas, Teresa Ocaña, Sandra Lopez-Prades, Gemma Llargués-Sistac, Xavier Domínguez-Rovira, Joan Llach, Irina Luzko, Marcos Díaz-Gay, Conxi Lazaro, Joan Brunet, Carmen Castillo-Manzano, María Asunción García-González, Angel Lanas, Marta Carrillo, Raquel Hernández San Gil, Enrique Quintero, Nuria Sala, Gemma Llort, Lara Aguilera, Laura Carot, Pilar Diez-Redondo, Rodrigo Jover, Teresa Ramon y Cajal, Joaquín Cubiella, Antoni Castells, Francesc Balaguer, Luis Bujanda, Sergi Castellví-Bel, Leticia Moreira\",\"doi\":\"10.1007/s10120-024-01504-7\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<h3 data-test=\\\"abstract-sub-heading\\\">Background</h3><p><i>CDH1</i> and <i>CTNNA1</i> remain as the main genes for hereditary gastric cancer. 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CTNND1 is involved in germline predisposition to early-onset gastric cancer by affecting cell-to-cell interactions
Background
CDH1 and CTNNA1 remain as the main genes for hereditary gastric cancer. However, they only explain a small fraction of gastric cancer cases with suspected inherited basis. In this study, we aimed to identify new hereditary genes for early-onset gastric cancer patients (EOGC; < 50 years old).
Methods
After germline exome sequencing in 20 EOGC patients and replication of relevant findings by gene-panel sequencing in an independent cohort of 152 patients, CTNND1 stood out as an interesting candidate gene, since its protein product (p120ctn) directly interacts with E-cadherin. We proceeded with functional characterization by generating two knockout CTNND1 cellular models by gene editing and introducing the detected genetic variants using a lentiviral delivery system. We assessed β-catenin and E-cadherin levels, cell detachment, as well as E-cadherin localization and cell-to-cell interaction by spheroid modeling.
Results
Three CTNND1 germline variants [c.28_29delinsCT, p.(Ala10Leu); c.1105C > T, p.(Pro369Ser); c.1537A > G, p.(Asn513Asp)] were identified in our EOGC cohorts. Cells encoding CTNND1 variants displayed altered E-cadherin levels and intercellular interactions. In addition, the p.(Pro369Ser) variant, located in a key region in the E-cadherin/p120ctn binding domain, showed E-cadherin mislocalization.
Conclusions
Defects in CTNND1 could be involved in germline predisposition to gastric cancer by altering E-cadherin and, consequently, cell-to-cell interactions. In the present study, CTNND1 germline variants explained 2% (3/172) of the cases, although further studies in larger external cohorts are needed.
期刊介绍:
Gastric Cancer is an esteemed global forum that focuses on various aspects of gastric cancer research, treatment, and biology worldwide.
The journal promotes a diverse range of content, including original articles, case reports, short communications, and technical notes. It also welcomes Letters to the Editor discussing published articles or sharing viewpoints on gastric cancer topics.
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With a dedicated and knowledgeable editorial team, the journal is committed to providing exceptional support and ensuring high levels of author satisfaction. In fact, over 90% of published authors have expressed their intent to publish again in our esteemed journal.
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