Background: BRCA1/2 genes (BRCA) play a prominent role in the Homologous Recombination Repair (HRR) pathway. Following the technological progress and deeper knowledge on BRCA-related cancers, the demand for genetic testing is rapidly increasing. Beyond BRCA1/2, other genes are involved in the HRR, including ATM, PALB2, RAD51, and BARD1. Due to the important role in the cellular repair process, deleterious variants in HRR genes may cause inadequate DNA damage repair in cardiomyocytes. The role of BRCA1/2 as predisposing condition to cardiac dysfunction is debated, and the contribution by no-BRCA genes is still unknown. Methods: This is a multicenter, retrospective, study to investigate the risk of heart-insults from anthracyclines on adjuvant setting in BC patients carrying germline pathogenic or likely pathogenic variant (PV) (classes IV and V) in BRCA and no-BRCA HRR pathway genes. We collected genetic and clinical data, and evaluated the left ventricular ejection fraction (LVEF) at cardiac ultrasound, before starting ACR therapy, and at subsequent time points, according to clinical indications. Results: Three hundred and sixty (360) BC patients, aging 22 to 80, were included in this study; 131 patients were carriers of germline PVs in HRR pathway genes: 52 in BRCA1 gene (39.7%), 48 in BRCA2 gene (36.6%), and 31 harbored PVs in no-BRCA HRR pathway genes (23.7%), including PVs in PALB2, CHEK2, ATM, RAD51C, RAD50 and BARD1 genes. In the cohort of 229 patients without PVs, 47 showed variant of uncertain significance (VUS, class III), and 173 had genetic testing not informative. When LVEF between the groups was compared, the difference was not significant for the pre-treatment values. Notably, individuals carrying BRCA or other HRR gene deleterious variants, showed a statistically significant reduction of LVEF > 5% at the second time-point (3 month), compared to the LVEF pre-treatment values (p = 0.001). A marked LVEF reduction was in mutated patients treated with risk-reducing bilateral salpingo-oophorectomy prior to age 40, body mass index > 25, and type-II diabetes mellitus. The latter risk factor was probably related to increased risk developing insulin-resistance reported for BRCA-mutated patients. Conclusions: Our data suggest that PVs in BRCA or other genes involved in HRR pathway, can lead to impaired homologous recombination, thus increasing sensitivity of cardiac cells to DNA damaging chemotherapy in BC patients. In this subgroup of patients, other measurements such as the global longitudinal strain (GLS), and a more in-depth assessment of risk factors, could be proposed to optimize cardiovascular risk-management and to improve long-term survival.