Our previous study has demonstrated that the decline in cardiomyocytes proliferation capacity induced by maternal androgen excess was mainly attributed to the accumulation of androsterone in the heart. However, the underlying mechanism by which androsterone inhibits cardiomyocytes proliferation remains unknown. In this study, pregnant mice were injected subcutaneously daily with dihydrotestosterone (DHT) from gestational day (GD) 16.5 to GD18.5. On GD18.5, fetal heart tissue was dissected and used for analyzing androgen receptor (AR) levels. H9c2 cells and primary cardiomyocytes, isolated from fetal hearts, were applied to investigate the mechanism. H9c2 cells under androsterone treatment were subjected to RNA sequencing analysis and the results showed that genes were primarily enriched in cell cycle and DNA replication pathways. Elevated AR levels were observed in fetal cardiac tissue in the maternal DHT-treated group. Androsterone treatment increased the ratio of nuclear AR and cytoplasmic AR both in H9c2 cells and primary cardiomyocytes. The ablation and overexpression of AR can mildly reverse and aggravate cell cycle arrest induced by androsterone, respectively. ChIP-qPCR analysis suggested that AR can directly repress cell cycle and DNA replication-related gene expression, which was mediated by the recruitment of retinoblastoma protein (Rb). The repression of cell proliferation in response to androsterone was alleviated partly through the downregulation of Rb by siRNA transfection. In conclusion, AR repression to cell cycle and DNA replication-related gene expression, mediated by recruitment of Rb, may be one of the potential mechanisms of cell cycle arrest in cardiomyocytes induced by androsterone.