Arne O Melleby1,2,3, Andreas Romaine1,2,3, Jan Magnus Aronsen1,4, Ioanni Veras1, Lili Zhang1,2,3, Ivar Sjaastad1,2,3, Ida G Lunde1,2,3, Geir Christensen1,2,3. 1. Institute for Experimental Medical Research, Oslo University Hospital and University of Oslo, Norway. 2. KG Jebsen Center for Cardiac Research, University of Oslo, Oslo, Norway. 3. Center for Heart Failure Research, Oslo University Hospital, Oslo, Norway. 4. Bjørknes College, Oslo, Norway.
Abstract
Aims: Generation of reproducible cardiac disease phenotypes in mice is instrumental for investigating mechanisms leading to heart failure (HF). For decades, suture-based thoracic aortic constriction has been the preferred method for increasing left ventricular (LV) afterload in rodents, but the degree of stenosis resulting from this method is variable. In an effort to improve this methodology, we subjected mice to constriction of the ascending aorta using o-rings with fixed inner diameters (IDs). Methods and results: Mice of C57BL/6J and FVB/N background were subjected to constriction of the ascending aorta using o-rings with fixed IDs of 0.71, 0.66, and 0.61 mm. O-ring aortic banding resulted in 98.7% survival 2 weeks post-surgery, with very low intra- and inter-surgeon variation. When using the narrowest o-ring (0.61 mm), mice developed hypertrophy within 1 week. Over 20 weeks, the mice gradually developed reduced LV ejection fraction (LVEF) and dilatation with increased left atrial dimensions and lung weight, indicating congestion. When using o-rings with IDs of 0.66 mm and 0.71 mm, the mice developed hypertrophy, but maintained a compensated state with stabilized LVEF 8-20 weeks post-surgery. The up-regulation of signature genes associated with HF, hypertrophy, fibrosis, and the level of activation of MAPK and NFAT signalling pathways corresponded to the degree of stenosis. Conclusion: Here, we introduce a novel method for high precision aortic constriction in mice with high intra- and inter-surgeon reproducibility and low post-operative mortality that allows generation of specific cardiac disease phenotypes.
Aims: Generation of reproducible cardiac disease phenotypes in mice is instrumental for investigating mechanisms leading to heart failure (HF). For decades, suture-based thoracic aortic constriction has been the preferred method for increasing left ventricular (LV) afterload in rodents, but the degree of stenosis resulting from this method is variable. In an effort to improve this methodology, we subjected mice to constriction of the ascending aorta using o-rings with fixed inner diameters (IDs). Methods and results: Mice of C57BL/6J and FVB/N background were subjected to constriction of the ascending aorta using o-rings with fixed IDs of 0.71, 0.66, and 0.61 mm. O-ring aortic banding resulted in 98.7% survival 2 weeks post-surgery, with very low intra- and inter-surgeon variation. When using the narrowest o-ring (0.61 mm), mice developed hypertrophy within 1 week. Over 20 weeks, the mice gradually developed reduced LV ejection fraction (LVEF) and dilatation with increased left atrial dimensions and lung weight, indicating congestion. When using o-rings with IDs of 0.66 mm and 0.71 mm, the mice developed hypertrophy, but maintained a compensated state with stabilized LVEF 8-20 weeks post-surgery. The up-regulation of signature genes associated with HF, hypertrophy, fibrosis, and the level of activation of MAPK and NFAT signalling pathways corresponded to the degree of stenosis. Conclusion: Here, we introduce a novel method for high precision aortic constriction in mice with high intra- and inter-surgeon reproducibility and low post-operative mortality that allows generation of specific cardiac disease phenotypes.
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