Reduced fertility is a common clinical feature of the individuals with Fanconi anemia (FA), a rare autosomal recessive disorder due to deficiency in FA pathway during DNA repair. Our previous study reported that the heterozygous pathogenic variants in FANCA (Fanconi anemia complementation group A) induced premature ovarian insufficiency (POI). However, the genotype-phenotype correlation in POI caused by FANCA variants remains considerably uncertain. Herein, a heterozygous non-frameshift Fanca-mutated mouse strain (Fanca+/hypo) carrying a 9-bp deletion (c.3581del9, p.QEA1194-1196del) was generated. The mutant mice exhibited slightly decreased Fanca protein level in ovaries, suggesting the non-frameshift deletion mutant is hypomorphic. Female fertility test showed decreased number of litters, litter sizes and prolonged litter interval time in the female Fanca+/hypo mice compared to wild-type mice. Follicle counting revealed a consistent decreasing pattern of follicle numbers in Fanca+/hypo females compared to that in wild-type mice with aging. Furthermore, embryonic fibroblasts of Fanca+/hypo mice were hyper-responsive to Mitomycin C in vitro, demonstrating a partial loss of function of this hypomorphic Fanca mutant in DNA repair. Collectively, our experimental observations suggest that the hypomorphic Fanca allele is sufficient to reduce female fertility in mice, providing new insights into the genetic counseling of FANCA variants in subfertile women.
Keywords: DNA repair; FANCA; Fertility; Follicular development; Mice.