Periodic Reporting for period 1 - FBC predisposition (Unraveling novel Familial Breast Cancer (FBC) predisposition genes.)
Période du rapport: 2020-05-01 au 2022-04-30
To utilize this preliminary clinical and phenotypic data, we focused on following specific objectives:
1. Ranking of novel FBC predisposition genes (hits) from HT-phenotypic screen
2. Elucidation of the molecular function of novel FBC predisposition gene(s) in genome maintenance (with the focus on BRCA1/2-like phenotypes)
3. Unravelling the role of the FBC candidate genes in somatic mouse models.
Loss of function mutations in FBC genes leads to tumour development through increased genome instability.
Research methodology and approach
WP1: Objective 1 - Ranking of novel FBC predisposition gene hits from HT-screen .
Outcome: WP1 has provided me a list of genes to be tested for clinically relevant breast cancer-associated germline variants by targeted sequencing in additional cohort of 1000 BC patients.
WP2: Objective 2 - Elucidation of the molecular function of novel FBC predisposition gene(s) in genome maintenance (with the focus on BRCA1/2-like phenotypes)
Task 2.1: Validation of novel screen hits-
Our unbiased analysis identified at least 6 genes of interest that scored highly in genome instability phenotypic assays, thus indicating feasibility. For my project, I selected MYH4 (Myosin heavy chain-4) for further functional characterization. The rationale behind choosing this factor was: 1. Found mutated in Danish breast cancer cohort, 2. Not studied for its cancer relevance before, 3. Scored high in all validation assays.
Results:
1. MYH4 depletion leads to induction of DNA damage
2. MYH4 is required for facilitating faithful replication
3. MYH4 is required for maintaining fork speed
4. MYH4 regulates ATR-checkpoint signalling activity
WP3: Objective 3 - Unravelling the role of the FBC candidate genes in somatic mouse models
We successfully designed and cloned sgRNAs for the breast cancer candidate susceptibility gene Myh4, with the goal of blunt loss of their function. LV-Cre+sgRNA were produced for MYH4 gene. Myh4 recently started to develop tumours and have not yet being analysed.
Future perspectives:
We will also perform therapeutic response studies to determine if the resulting mammary tumours are sensitive to cisplatin and the PARP inhibitor olaparib. This approach will provide critical validation of whether the identified mutations are involved in breast cancer development and therapy sensitivity. Moreover, the developed mice will be important models for further mechanistic and treatment studies.
The targeted sequencing (WP1) in Danish breast cancer cohort (n=1000) has identified additional 15 rare, breast cancer associated variants in MYH4 gene. These variants are being tested for their pathogenicity with the help of CRISPR-Cas9 technique recently developed in our lab, as described in Niu et al, Nature genetics, 2022. This technique will allow me to accurately analyze the pathogenic and benign variants in MYH4.
Impact of project:
This project will broaden perspectives in the areas of FBC and genome maintenance through the identification of new genetic variants predisposing to breast cancer. A greater understanding of predisposing mutations will benefit FBC families by enhancing diagnostic and prognostic information as well as genetic counseling. Importantly, since BRCA1/BRCA2 deficient tumors respond to targeted therapies like PARP inhibitors, it will create new avenues for therapeutic interventions.