Iron regulatory protein 1 deficient mice exhibit hypospermatogenesis

Imbalances in testicular iron levels are linked to compromised sperm production and male infertility. Iron regulatory proteins (IRP) 1 and 2 play crucial roles in cellular iron regulation. We investigated the role of IRP1 on spermatogenesis using Irp1-deficient mice (Irp1-/-). Histological analysis of the testis of Irp1-/- mice revealed hypospermatogenesis with a significant reduction in the number of elongated spermatids and daily sperm production compared to wild-type (WT) mice. Flow cytometry of germ cells from WT and Irp1-/- mice showed reduction in spermatocytes, round and elongated spermatids, which was confirmed by histological and immunofluorescence quantification. Finally, stage VIII of spermatogenesis, crucial for spermatid maturation, was less frequent in Irp1-/- testicular cross-sections. Hypospermatogenesis worsened with age despite unchanged intratesticular iron levels. Mechanistically, this was due to increased oxidative stress indicated by elevated 8-Oxoguanine (8-OxoG) levels, a DNA lesion resulting from reactive oxygen species (ROS). Furthermore, bulk RNA-seq data indicated compromised DNA damage repair and cell cycle processes, including mitosis and meiosis, which may explain hypospermatogenesis.Our results suggest that IRP1 deletion leads to hypospermatogenesis due to impaired cell cycle progression, decreased DNA damage repair capacity and oxidative damage. Altogether, this study uncovers a role for IRP1, independent of traditional iron regulation mechanisms. Postpubertal mice (20 weeks old) were euthanized by 5% isoflurane inhalation following cervical dislocation. Afterwards, testes were harvested, decapsulated and total RNA was isolated. After obtaining the RNAseq data, comparative gene expression analyses between Irp1 deficient and wild type were performed. To identify changes in gene expression related to spermatogenesis.