Generation of a new frizzled 2 flox mouse model to clarify its role in development


It is currently accepted that Wnt receptors, Frizzleds (Fzd), have high functional redundancy, making individual receptors challenging to target therapeutically. Specifically, Fzd2 is believed to be functionally redundant with Fzd1 and Fzd7, findings which were based largely on previously published global knockout mouse studies. Conversely, a Fzd2 global knockout mouse model developed by the International Mouse Phenotype Consortium (IMPC) is early embryonic lethal, suggesting Fzd2 is critical for early embryonic development.

If global deletion of Fzd2 leads to early lethality, floxed models are necessary to identify tissue-specific phenotypes. We found that a previously published Fzd2 flox model does not fully delete Fzd2 function. To reconcile the contradictory findings in Fzd2 mouse models and allow for tissue-specific studies of Fzd2, we have generated a new flox model using a modified two-cell homologous recombination CRISPR approach.

We demonstrated successful simultaneous insertion of two loxP sites fully surrounding the Fzd2 gene and confirmed cre-mediated recombination deletes the sequence between the loxP sites leading to a Fzd2 null allele. Preliminary studies suggest global knockouts are early embryonic lethal and full characterization of the tissue-specific effects of Fzd2 deletion is currently underway.

This work suggests Fzd2 uniquely regulates development and emphasizes the importance of thorough validation of newly generated mouse models.

Authors: Megan N. Michalski, Cassandra R. Diegel, Zhendong A. Zhong, Kelly Suino-Powell, Levi Blazer, Jarrett Adams, VAI Vivarium and Transgenics Core, Ian Beddows, Karsten Melcher, Sachdev S. Sidhu, Stephane Angers, Bart O. Williams