Brca1 L63X /+ rat is a novel model of human BRCA1 deficiency displaying susceptibility to radiation-induced mammary cancer.
Yuzuki NakamuraJo KubotaYukiko NishimuraKento NagataMayumi NishimuraKazuhiro DainoAtsuko IshikawaTakehito KanekoTomoji MashimoToshiaki KokuboMasaru TakabatakeKazumasa InoueMasahiro FukushiMasami AraiMitsue SaitoYoshiya ShimadaShizuko KakinumaTatsuhiko ImaokaPublished in: Cancer science (2022)
Women who are heterozygous for deleterious BRCA1 germline mutations harbor a high risk of hereditary breast cancer. Previous Brca1-heterozygous animal models do not recapitulate the breast cancer phenotype, and thus all currently used knockout models adopt conditional, mammary-specific homozygous Brca1 loss or addition of Trp53 deficiency. Herein, we report the creation and characterization of a novel Brca1 mutant rat model harboring the germline L63X mutation, which mimics a founder mutation in Japan, through CRISPR-Cas9-based genome editing. Homozygotes (Brca1 L63X/L63X ) were embryonic lethal, whereas heterozygotes (Brca1 L63X/+ ) showed apparently normal development. Without carcinogen exposure, heterozygotes developed mammary carcinoma at a comparable incidence rate with their wild-type (WT) littermates during their lifetime. Intraperitoneal injection of 1-methyl-1-nitrosourea (25 or 50 mg/kg) at 7 weeks of age induced mammary carcinogenesis at comparable levels among the heterozygotes and their littermates. After exposure to ionizing radiation (0.1-2 Gy) at 7 weeks of age, the heterozygotes, but not WT littermates, displayed dose-dependent mammary carcinogenesis with 0.8 Gy -1 excess in hazard ratio during their middle age; the relative susceptibility of the heterozygotes was more prominent when rats were irradiated at 3 weeks of age. The heterozygotes had tumors with a lower estrogen receptor α immunopositivity and no evidence of somatic mutations of the WT allele. The Brca1 L63X/+ rats thus offer the first single-mutation, heterozygous model of BRCA1-associated breast cancer, especially with exposure to a DNA break-inducing carcinogen. This implies that such carcinogens are causative and a key to breast cancer prevention in individuals who carry high-risk BRCA1 mutations.
Keyphrases
- breast cancer risk
- crispr cas
- genome editing
- radiation induced
- estrogen receptor
- endothelial cells
- early onset
- radiation therapy
- oxidative stress
- squamous cell carcinoma
- type diabetes
- polycystic ovary syndrome
- adipose tissue
- replacement therapy
- childhood cancer
- genome wide
- copy number
- metabolic syndrome
- gestational age
- stress induced
- ultrasound guided
- smoking cessation