RESUMEN
Familial adenomatous polyposis (FAP) is an autosomal dominant genetic condition, caused by mutations in the adenomatous polyposis coli (APC) tumor suppressor gene. Desmoid tumors (DTs) are seen in 15% to 20% of FAP patients. Specific location of mutation serves as a guide to predict colonic and extra colonic manifestations and their aggressiveness. A severe FAP-phenotypic family was registered in a genetic counselling high-risk Uruguayan hereditary cancer clinic. Proband's DNA was analysed by NGS, detecting a pathogenic mutation in APC gene. All willing family members were counselled and encouraged to be tested. Here we report a kindred formed by 16 individuals with a very severe FAP phenotype. A two-base deletion mutation: c.4393_4394delAG in APC gene and a consequent premature stop codon was detected. DTs were diagnosed in 6 individuals, ranging from 2 to 25 years of age. The causes of death were diverse: gastric cancer, rectal cancer and desmoid tumor. The already described genotype-phenotype correlation has proved its worth in this family, as clinical features reflect the mutation location at 3' end of APC gene. The inheritable and lethal nature of the disease needs a tailored follow up approach in order to reduce mortality, optimize local tumor control, and preserve patients' quality of life.
RESUMEN
Introducción: el cáncer de mama representa la primera causa de muerte por cáncer en mujeres de Uruguay. Se estima que cerca de 7% son causados por mutaciones en el ácido desoxirribonucleico germinal. Los costos de la secuenciación genética han descendido dramáticamente gracias a la aparición de la secuenciación de nueva generación (NGS). El cambio tecnológico abrió una nueva etapa en el estudio del cáncer hereditario en nuestro país. Objetivo: comunicar los resultados de la utilización de tecnología NGS y paneles multigénicos en familias uruguayas con alto riesgo de cáncer de mama hereditario. Pacientes y método: se secuenciaron 135 familias de alto riesgo que provenían de la consulta de consejería genética que funciona en el Grupo Colaborativo Uruguayo: Investigación de afecciones oncológicas hereditarias. Cuando la historia familiar sugería claramente un síndrome de cáncer de mama y ovario hereditario se efectuó secuenciación NGS exclusiva de los genes BRCA1 y 2; cuando el patrón familiar no configuraba claramente se utilizó un panel multigénico. Resultados: se efectuó NGS exclusiva de genes BRCA1 y 2 en 62 familias y un panel multigénico en 73 familias. Se identificaron en total 29 mutaciones patógenas (21 en genes BRCA y 8 en otros genes). Dos de ellas fueron noveles y tres pueden considerarse recurrentes en la población uruguaya. Conclusiones: este trabajo es el primero en Uruguay en reportar el resultado de esta nueva tecnología en el cáncer de mama hereditario. El hallazgo de 29 mutaciones patógenas nos ayuda a delinear el perfil mutacional de nuestro país.
Introduction: breast cancer is women's first cause of death in Uruguay. According to estimations, around 7% of cases result from germinal mutations by deoxyribonucleic acid. The cost of genetic sequencing has dramatically dropped thanks to the arrival of next-generation sequencing (NGS). This technological change opened a new era in the study of hereditary cancer in our country. Objective:to communicate the results of using NGS technology and multigenic panels in Uruguayan families with high risk of hereditary breast cancer. Method: 135 high risk families referred by the genetic counselling consultation that is provided at the Uruguayan Collaborative Group (Hereditary Oncological Conditions Research) were sequenced. When the family history clearly suggested hereditary breast and ovary cancer was a possibility, exclusive NGS sequencing was done for BRCA1 and BRCA2 genes; when the family pattern was not clear to this respect, multigenic panels were used. Results: exclusive NGS sequencing for BRCA1 and BRCA2 genes was done in 62 families, and multigenic panels were used in 73 families. 29 pathogenic mutations were identified (21 in BRCA genes and 8 in other genes). Two of them were new to the disease and three could be considered recurrent in the Uruguayan population. Conclusions:this study is the first one in Uruguay to report the results of this new technology in hereditary breast cancer. The finding of 29 pathogenic mutations contributes to outlining the mutational profile of our country.
Introdução: o câncer de mama é a primeira causa de morte por câncer em mulheres no Uruguai. Estima-se que aproximadamente 7% sejam causados por mutações no ácido desoxirribonucleico germinal. Os custos da sequenciação genética diminuíram dramaticamente graças ao aparecimento da sequenciação de nova geração (NGS). Esta nova tecnologia deu inicio a uma nueva etapa no estudo do câncer hereditário no nosso país. Objetivo: comunicar os resultados da utilização de tecnologia NGS e painéis mutagênicos em famílias uruguaias com alto risco de câncer de mama hereditário. Pacientes e método: 135 famílias de alto risco originárias do aconselhamento genético que funciona no Grupo Colaborativo Uruguaio: Pesquisa de afecções oncológicas hereditárias foram sequenciadas. Quando a história familiar sugeria uma síndrome de câncer de mama e ovário hereditários fez-se a secuenciacao NGS exclusivamente dos genes BRCA1 e 2; quando o padrão familiar não era claro foi utilizado um painel multigênico. Resultados: realizou-se NGS exclusivamente de genes BRCA1 e 2 em 62 famílias e um painel multigênico em 73 famílias. Foram identificadas 29 mutações patogênicas (21 em genes BRCA e 8 em outros genes). Duas eram novas e três podem ser consideradas como recorrentes na população uruguaia. Conclusões: este trabalho é o primeiro que apresenta os resultados desta nova tecnologia aplicada ao câncer de mama hereditário no Uruguai. O achado de 29 mutações patogênicas ajuda a definir o perfil mutacional do nosso país.