A Fanca knockout mouse model reveals novel Fancd2 function.

Fanconi anemia (FA) is a genetically and clinically heterogenous inherited disorder. Clinically, Fanca subtype patients exhibited milder phenotypes compared to Fancd2 subtypes. Increasing evidence suggests that Fancd2 perform independent functions, but the detailed mechanisms are not well characterized. In this study, we developed a Fanca KO mice model in C57BL/6 background with ATG region deletion, then performed a detailed FA phenotypes characterization and analysis with Fanca KO mice and Fancd2 KO mice in the same congenic background. We found that both the Fanca KO and Fancd2 KO cause severe FA phenotypes in mice. However, Fanca KO mice exhibited milder FA phenotypes comparing to Fancd2 KO mice. Fanca KO mice showed higher embryonic and postnatal survival rate, less congenital eye defects in early development. At adult stage, Fanca KO mice showed increased HSC number and reconstitution function. Furthermore, we did RNA-seq study and identified differential expression of Dlk1 and Dlk1 pathway genes in Fanca KO and Fancd2 KO embryonic cells and adult HSCs. Finally, we revealed that Fancd2 was expressed and physically interact with Dlk1 in Fanca KO cells. Collectively, our findings suggested that Fancd2 has distinct functions in the absence of Fanca.

Severe Fanconi Anemia phenotypes in Fancd2 depletion mice.

Fanconi anemia (FA) is a genetic disorder characterized by congenital malfunction, bone marrow failure and hypersensitivity to DNA damage. FANCD2 protein play the central role in FA pathway. To study the in vivo role of FANCD2, we generated and characterized a new Fancd2 knockout mouse strain with 7bp deletion in Fancd2 gene 5' terminus using Crispr-Cas9 in congenic C57BL/6J background. This Fancd2-/- mice displayed similar but overall more severe manifestation than the previous ES cell targeted Fancd2 model. These features include increased embryonic and postnatal lethality rate, higher incidence of microphthalmia, and more severe hypogonadism. The anemia we observed in this Fancd2-/- mice has not been described in other FA models. Further study indicated that the hematopoiesis deficiency was associated with increased apoptotic cell death, G2/M phase arrest and hypersensitivity to MMC and IR damage of Fancd2-/- bone marrow progenitor cells. Collectively, the resulting Fancd2-/- mice with higher resemblance of FA patient symptoms, will be useful in understand the parthenogenesis of pancytopenia and bone marrow failure in FA.