Overexpression of human BAG3P209L in mice causes restrictive cardiomyopathy
説明
<jats:title>Abstract</jats:title><jats:p>An amino acid exchange (P209L) in the HSPB8 binding site of the human co-chaperone BAG3 gives rise to severe childhood cardiomyopathy. To phenocopy the disease in mice and gain insight into its mechanisms, we generated humanized transgenic mouse models. Expression of human BAG3<jats:sup>P209L</jats:sup>-eGFP in mice caused Z-disc disintegration and formation of protein aggregates. This was accompanied by massive fibrosis resulting in early-onset restrictive cardiomyopathy with increased mortality as observed in patients. RNA-Seq and proteomics revealed changes in the protein quality control system and increased autophagy in hearts from hBAG3<jats:sup>P209L</jats:sup>-eGFP mice. The mutation renders hBAG3<jats:sup>P209L</jats:sup> less soluble in vivo and induces protein aggregation, but does not abrogate hBAG3 binding properties. In conclusion, we report a mouse model mimicking the human disease. Our data suggest that the disease mechanism is due to accumulation of hBAG3<jats:sup>P209L</jats:sup> and mouse Bag3, causing sequestering of components of the protein quality control system and autophagy machinery leading to sarcomere disruption.</jats:p>
収録刊行物
-
- Nature Communications
-
Nature Communications 12 (1), 2021-06-11
Springer Science and Business Media LLC