Abstract 321P
Background
Hereditary cancer syndromes explain 5-10% of all cancer cases. Germline pathogenic variants in BRCA1 and BRCA2 genes (BRCA) are present in 2-3% of all breast cancer (BC), and 15% of all ovarian cancer (OC) cases. BRCA1 and BRCA2 pathogenic variants (PV) represent 25-28% of BC and 40% of OC patients with a positive familial history. BRCAs are the most studied genes for the prevalence, family history, preventive surgeries, and target treatment options in both BC and OC. There are other genes, important in the diagnosis, pathogenesis, and treatment options of the patients: TP53, PALB2, CHEK2, among others. This study aims to identify the prevalence of non-BRCA genes related to the development of hereditary breast and ovarian cancer syndrome in patients of Northeast Mexico.
Methods
This is a multicenter study that recruited patients from two reference oncology centers in Nuevo Leon, Mexico: the CECIL (The CUCC Early Cancer Detection Clinic) Hereditary Cancer Registry and Hereditary Cancer Program from Tec Salud. From March of 2016 to March of 2023, a total of 872 patients meeting NCCN criteria were evaluated by Medical Geneticists from both centers and were tested with NGS multigene cancer panels.
Results
A total of 665 (76.26%) patients with a clinical diagnosis of HBOC (Hereditary Breast Hereditary Cancer Syndrome) were included. We found 310 (46.6%) patients had at least one variant, 180 (58%) with at least one pathogenic variant, and 130 (41%) with a VUS (a variant of uncertain significance). BRCA1 was found in 79 (43.8%) and BRCA2 in 32 (17.7%) of all PV. Non-BRCA PV were found in 69 (38.3%) patients: 4 ATM, 2 BLM, 3 BRIP1, 22 CHEK2, 4 CDKN2A, 5 MUTYH, 10 PALB2, 4 RAD51C, 2 SDHA, 2 TP53, 2 WRN, CDH1, CDK4, DICER, MSH3, NBN, PTEN, RAD50, USH2A one of each. Is remarkable that 19 of the 22 patients with CHEK2 and 5 of the 10 patients with PALB2 had the recurrent PV c.707T>C and c.2167_2168del, respectively.
Conclusions
Non-BRCA PV in Northern Mexico correspond to one-third of the BC and OC cases, including HRD (homologous recombination deficiency) genes. HDR patient carriers are potential targets of iPARP therapies. This project reinforces the fact that multigene panels should be employed to ensure a complete diagnosis in hereditary cancer patients.
Clinical trial identification
Editorial acknowledgement
Legal entity responsible for the study
Centro de Cáncer de Mama, Hospital Zambrano Hellion, Tec Salud. Centro Universitario Contra el Cancer, Hospital Dr Jose Eleuterio Gonzalez, UANL.
Funding
Has not received any funding.
Disclosure
All authors have declared no conflicts of interest.
Resources from the same session
303P - Differential prognostic role of PDGFRA alterations in breast cancer subtypes
Presenter: Panagiotis Vlachostergios
Session: Poster session 02
304P - Generalizability of 313-SNP PRS for breast cancer risk in non-European ancestries
Presenter: Helen Shang
Session: Poster session 02
305P - Prognostic implications of HER2 changes after neoadjuvant chemotherapy in patients with HER2-zero and HER2-low breast cancer
Presenter: Sora Kang
Session: Poster session 02
307P - Identifying new biological subgroups of triple-negative breast cancer using next-generation integrative clustering pipeline
Presenter: Xixuan Zhu
Session: Poster session 02
308P - Regression-based deep-learning predicts breast cancer recurrence risk score from pathology slides
Presenter: Omar El Nahhas
Session: Poster session 02
310P - Longitudinal evaluation of circulating tumour DNA in early breast cancer using a plasma-only methylation-based assay
Presenter: Mitchell Elliott
Session: Poster session 02
311P - Multinational survey study assessing genetic testing and counselling among patients (pts) with breast cancer (MAGENTA): Results on the genetic counselling experience
Presenter: Ranjit Kaur
Session: Poster session 02
312P - Prediction model of breast cancer patient’s neoadjuvant treatment outcome using breast cancer organoids cultured from core needle biopsies
Presenter: Dong Woo Lee
Session: Poster session 02