Mice carrying a conditional Serca2 allele for the generation of Ca handling-deficient mouse models

Sarco(endo)plasmic reticulum calcium ATPases (SERCA) are cellular pumps that transport Ca²⁺ into the sarcoplasmic reticulum (SR). Serca2 is the most widely expressed gene family member. The very early embryonic lethality of Serca2^null mouse embryos has precluded further evaluation of loss of Serca2 function in the context of organ physiology. We have generated mice carrying a conditional Serca2^flox allele which allows disruption of the Serca2 gene in an organ-specific and/or inducible manner. The model was tested by mating Serca2^flox mice with MLC-2v^wt/Cre mice and with αMHC-Cre transgenic mice. In heterozygous Serca2^wt/floxMLC-2v^wt/Cre mice, the expression of SERCA2a and SERCA2b proteins were reduced in the heart and slow skeletal muscle, in accordance with the expression pattern of the MLC-2v gene. In Serca2^flox/flox Tg(αMHC-Cre) embryos with early homozygous cardiac Serca2 disruption, normal embryonic development and yolk sac circulation was maintained up to at least embryonic stage E10.5. The Serca2^flox mouse is the first murine conditional gene disruption model for the SERCA family of Ca²⁺ ATPases, and should be a powerful tool for investigating specific physiological roles of SERCA2 function in a range of tissues and organs in vivo both in adult and embryonic stages.