BCL-2-like protein 1 (BCL2L1) is a key component of cell survival and death mechanisms. Its dysregulation and altered ratio of splicing variants associate with pathologies. However, isoform-specific loss-of-function analysis of BCL2L1 remains unexplored. Here we show the functional impact of genetically inhibiting Bcl-x short-isoform (Bcl-xS) in vivo. Bcl-xS is expressed in most tissues with predominant expression in the spleen and blood cells in mice. Bcl-xS knockout (KO) mice show no overt abnormality until 3 months of age. Thereafter, KO mice develop cardiac hypertrophy with contractile dysfunction and splenomegaly by 6 months. Cardiac fibrosis significantly increases in KO, but the frequency of apoptosis is indistinguishable despite cardiomyopathy. The Akt/mTOR and JNK/cJun signaling are upregulated in male KO heart, and the JNK/cJun is activated with increased Bax expression in KO spleen. These results suggest that Bcl-xS may be dispensable for development but is essential for maintaining the homeostasis of multiple organs.
Keywords: Cardiovascular medicine; Cell biology; Developmental biology.
© 2023 The Author(s).