Construction of pathogenic Sec16a mutation mouse model using CRISPR/Cas9

Background: SEC16A is a pivotal protein that facilitates the transport of proteins from the endoplasmic reticulum to the Golgi apparatus. Utilizing the protein structure function database, a potentially pathogenic mutation site (NM_014866.1: c.4606C>G(p.L1536V)) was pinpointed within the conserved central core region of the human SEC16A protein, a component integral to the COPII complex assembly. Methods: Leveraging information on human gene mutations and aligning human and mouse protein amino acid sequences, the Sec16aL1551V/L1551V mouse model was successfully developed using CRISPR/Cas9 technology. Results: Two behavioral experiments, namely novel object recognition and cued fear conditioning, revealed that Sec16aL1551V/L1551V mice demonstrated a phenotype of neurological impairment, evidenced by diminished abilities in learning and memory. Furthermore, while undergoing tail suspension, the Sec16aL1551V/L1551V mice displayed a distinctive limb clasping behavior, a characteristic typically associated with mouse models of chronic neurodegenerative diseases. Conclusion: The Sec16aL1551V/L1551V mouse model developed in this study providing a powerful tool for better understanding of the pathogenic mechanisms of Sec16a gene mutations in brain dysfunction diseases.